Monday, October 10, 2011

Silencing "The Silent Killer": Researchers reveal promising new strategy to prevent and diagnose osteoporosis

Healthy bone structure (left) vs Osteoporotic bone (right). From www.karger.com
Public Interest Note:
             Put two simple, innocuous words together and you get a longer word describing a disease that affects 200 million women worldwide: “Osteo” from the Greek word “osteon” meaning “bone” and “Porosis” meaning porous.  Porous bones.  Bone filled with cavities.  Bone loss.  Weak bones. Fractured bones. These phrases simply describe what having osteoporosis means.
         With such simplicity in describing the biological effects of this disease, it’s surprising that much of the public need celebrities like Sally Field to describe the importance of bone health to the public.  However, with an estimated 54% of postmenopausal women being osteopenic (lower than normal bone mass) and 30% exhibiting full-blown osteoporosis, the bone health industry and advocates for promoting bone health are trying everything they can think of to get people to pay attention this “silent killer”.
            Hold up!  Did I just go from the Greek word for “bone” to  “killer” in just over 100 words?  Unfortunately, it’s that easy to connect these two seemingly disparate terms. 
Osteoporosis is often called “the silent killer” because individuals who have the disease are usually unaware that they have it until a bone fractures.  Serious bone fractures often leave individuals with osteoporosis debilitated and can enhance susceptibility to infectious diseases, which can result in death.  In fact, according the International Osteoporosis Foundation, women over the age of 50 have “a 2.8% risk of death related to hip fracture…equivalent to her risk of death from breast cancer and 4 times higher than that from endometrial cancer”.  Importantly, the occurrence of bone loss is not limited to having two X chromosomes, as men over the age 50 have a 30% risk of experiencing an osteoporotic fracture,similar to the risk developing prostate cancer.
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) recommends that people “consider to talk to [their] doctor about osteoporosis” if you have broken a bone and are over the age of 45 (regardless of sex), if you are a 65+ year old woman, are taking certain medications that are known to cause bone loss,have developed poor posture, if you are a woman whose menstrual periods have stopped (or never started upon puberty), if you have anorexia, or have a chronic illness that is known to contribute to bone loss.  In most of these cases however, individuals at risk do not think of consulting their doctor until symptoms start to appear.  Scratch that. Symptom starts to appear.  The major symptom of osteoporosis is experiencing a bone fracture, which at that point the disease is so progressive that prevention of the disease no longer applies.  Furthermore, treatments may not be able to reverse the level of bone lost at this late stage in disease development, increasing the chance of repetitive bone fractures and risk of death in the future.
In addition to the need for more effective therapies on the market to treat osteoporosis, there are currently a limiting number of diagnostic tools that can be easily utilized in the clinic.  Currently, the main tests to assess a person for bone loss is to analyze his or her bone mineral density (BMD), bone strength, and bone turnover.  However, there are limitations to current diagnostic strategies including correlating data obtained from varying instruments, bone used for density and strength tests are not always uniform between testing clinics and techniques used, and in the case of assessing bone turnover in the blood and urine, these tests do not confidently correlate with disease progression.  Therefore in order to treat this disease effectively, the need for more precise diagnostics is urgent.
Notably, the loss of bone strength does not only inflict men and women with hormone imbalances, but is also caused by various drugs like glucocorticoids and chronic illnesses such as rheumatoid arthritis, periodontitis and cancer.  Additionally, bone loss has been observed in individuals who live with little to no bone mobilization as seen in individuals who are confined to a bed and in astronauts who live for long periods of time in zero-gravity environments.
Bone loss is becoming of greater importance to confront as a society as large portion of our population ages into their 50s and beyond.  Serious bone fractures can lead to chronic pain, reduced mobility, disability and an increasing degree of dependence, which not only negatively impacts our Nation’s workforce, but forcing the public to pay millions of dollars annually to cover bone-fracture-related costs.  In 2005, it was estimated that over 2 million fractures were treated costing $17 billion in healthcare costs.  The International Osteoporosis Foundation predicts the incidence rate to increase by 50% in 2025, costing upwards of $25 billion to cover medical treatments in the U.S.
Whether you care most about the pain people with osteoporosis endure, the deficiency of effective, accurate diagnostics, or the dismal economics associated with the disease, the scientists studying the disease need the public’s continuous support.  With such support, researchers will continue to enhance our understanding of the disease, discover new drug targets and design novel therapeutics to turn the trend of this debilitating disease around.
 
Our Bones and Our Immune System I: How Our Immune System Relies on Our Bones
Immune cell development occurs primarily in the bone marrow before cells. From www.ihtc.org
            The first thing that students in an Immunology 101 course learn is a process called hematopoiesis.  Hematopoiesis is a unnecessarily big word to describe how a stem cell becomes an immune cell.  It makes sense to start a course with learning this concept, however, it is usually briefly described and skimmed over by the lecturer.  Perhaps it is because most students are more interested in learning about things that they have heard of before like: antibody production, organ/tissue donation, infection, cancer and vaccine development.  At any rate, hematopoiesis probably represents about 1% of the material students will learn about immunology-which is unfortunate, because there is a lot of amazing things happening when an immune cell is “born”, that we need more research done to fully understand it all!
So, if we had to pick somewhere in the body for an immune cell to be born, we might think of the lymph nodes, spleen or the blood; after all these are the most popular organs associated with immune function, right?  However, surprisingly, the site where hematopoiesis occurs-where immune cells develop and mature is in the bone.  The bone marrow is where all immune cells, except T cells, spend all their time until they migrate throughout our blood and tissue ready to protect us from infection and injury.  In fact, the “B” in B cell comes from bursa of Fabricius, which was discovered in the late 1950’s as the organ where antibody-producing cells developed (compared to the thymic-derived T cells, hence what the “T” in T cell means).  If you are wondering why the “B” stands for some organ you probably have never heard of and not “bone marrow”, it is because those original 1950’s experiments were performed on birds, and a decade later it was discovered that mammals don’t have a bursa of Fabricius, but is analogous to mammalian bone marrow. 1
From birth to their “adolescence” most of our immune cells are intricately connected to the bone environment.  Since this revelation, much research has unveiled important factors of hematopoiesis and the mechanisms that explain how cells emigrate from the bone into tissue.  In addition, it is known the bone environment is a critical component of maintaining a constant supply of immune cell populations, which is important to clear infections as well as reconstituting the an immune system after exposure to radiation and chemotherapies.  With over 60 years of research in hematopoiesis, the medical field has greatly benefited from our understanding of how bone impacts immune cell development.  However, over this same period, little research has been devoted to understanding the other aspect of this bone-immune cell relationship: how immune cells impact to bone development and health.

Our Bones and Our Immune System II: How Our Bones Rely on Our Immune System
 Cytokines associated with the chronic inflammatory disease, rheumatoid arthritis are used to model the complex nature of the immune system regulating bone development. From R&D.com
The idea that immune cells impact bone development seemed to happen serendipitously in the 1990’s, beginning with the discovery that one of the major cell types that make up our bones was derived from a hemopoetic cell.  Soon, Udagawa and colleagues published their research findings that monoytes can turn into bone cells called osteoclasts.
 Monocytes are unique immune cells because unlike B cells, for example, which will always be B cells, monocytes can further differentiate into a variety of immune cells.  Monocytes are able to do this because they are acutely sensitive to changes in their microenvironment and highly responsive to a range of stimuli that instructs the monocyte to turn into a different kind of cell.  Osteoclasts, macrophages, dendritic cells, and microglial cells all derive from a monocyte precursor.  What makes each of these cells unique is what stimuli a monocyte senses.  For example, in vitro, to generate macrophages (which I do on a weekly basis), all you need to do is isolate bone-marrow cells or monocytes and throw in some macrophage-colony stimulator factor (M-CSF), wait a week and you’ve got macrophages!  If you want dendritic cells, do the same thing, but this time in addition to M-CSF add some IL-4.  Back when it was just learned that osteoclasts come from monocytes, a lot of research was done to figure out two major things: 1) what exactly an osteoclast was and 2) what a monocyte needed to become a bone cell. 
An osteoclast is a macrophage-like cell.  This seems to be post heavy with Greek terminology, so I’ll keep it up by describing a macrophage as a cell that is very big (aka “macro”).  An osteoclast is very similar in that they too are huge, in fact they are often referred to as (and I am not making this up): “giant cells”.  They are so big because are created when developing monocytes fuse into a single, giant cell.  One of the most distinguishing traits of an osteoclast is that they are multi-nucleated.  Osteoclasts differ from macrophages in many ways; however, including first and foremost-they stick specifically to bone instead of residing in tissue.  Moreover, unlike other monocyte-derived cells, osteoclasts are capable of resorption, the process of degrading bone by pumping large amounts of hydrogen ions into the bone.  Accumulation of these ions and other enzymes from the osteoclast into the bone causes the bone matrix to acidify and break down, which results in cavities in the bone.  Cavities typically have a negative feeling associated with them, but destruction of bone is not always a bad thing.   Think of what would happen if your bones just kept growing.  You might develop strange bone abnormalities or have problems acquiring enough nutrients to keep the excess of bone healthy.  So bone development, like everything in biology is a tightly regulated process.  In order to understand how errs in bone development lead to osteoporosis, it is important to appreciate how osteoclasts are generated, as they are the key to the pathology associated with bone disease.
Firstly, what a monocyte needed to turn into an osteoclast proved to be more complicated than anticipated.  Initially it was difficult because there were two groups of researchers working separately on something that unbeknownst to them at the time, was in fact the same thing.  There were the people studying bone trying to figure out more about how bone developed and there were the people working on the immune system trying to figure out how monocytes turned into osteoclasts.  For example, in the 1990’s, two important discoveries were made: First, the bone physiologists identified a protein, expressed by osteoblasts and stromal cells that was proven to be essential to osteoclast development- they called this protein osteoclast differentiation factor (ODF).  Secondly, the immunologists were please to announce the discovery of receptor activator of nuclear factor kappa-B ligand (RANKL), which is produced by T cells and was determined to be the second stimulus, in addition to M-CSF a monocyte needs to turn into an osteoclast.  It was later revealed that both groups of researches had actually discovered the same protein such that ODF is identical to RANKL!  2 Realizing this, Drs. Joseph R. Arron and Yongwon Cho quickly coined the term ‘osteoimmunology to be “used to describe the interface between these two disciplines”.  The authors of the article go on to explain, “Without a better understanding of this interface, it will be difficult to prevent or treat many common diseases that affect both bones and the immune system”. 3


Treatments for Osteoporosis: Why this research matters:



Bones are “Often thought of as a rigid, unchanging entity, skeletal bone is actually the result of a dynamic process” involving a balancing act between the activity of bone formation by osteoblasts and bone destruction by osteoclasts.  The harmony between these two processes is essential for maintaining strong bones.  It is when the rate of bone resorption exceeds the rate of bone formation that leads to osteoporosis.   Why does this happen? How can we slow the rate of resorption? What factors are present that promote osteoclast function to degrade bone? If we knew the answers to these questions we could better treat bone-loss related diseases or prevent the incidence of bone fractures! 
The “gold standard” for osteoporosis therapy is the use of bisphosphonates, which first entered the drug market in the late 1990’s by Merck [Fosamax aka alendronic acid] and Sonofi-Aventis/Proctor and Gamble [Actonel aka risedronic acid].  Currently drugs that are classified as bisphosphonates to treat bone loss represent more than 70% of the market with the expansion of generics and drugs that have improved dosage like Boniva [zoledronic acid, Novartis].  Another big reason for dominance of these drugs in the market is the history of 50 years of research detailing how how bisphosphonates regulate bone development. 4  
So what are bisphosphonates and how do they work?  They are simple, small chemicals that consist of two phosphonate groups (PO3-) linked together by a carbon atom.  These chemicals are particularly good at binding to calcium, so when they enter the body, bisphosphonates concentrate in the bone.  Drugs in the bisphosphonate class decrease bone resporption because once they enter a cell, they inhibit the cell’s ability to metabolize energy (ATP), which leads to a process called apoptosis or cell death.  Because osteoclasts are intimately bound to bone and have some macrophage-like properties like gobbling things up, bisphosphonates are particularly good at killing osteoclasts, thereby reducing bone resorption. 5
However, to no surprise, there are multiple risks and side effects associated with this class of drugs including: gastrointestinal irritation, oeophageal irritation, hypocalcaemia, renal irritation or more rarely: osteonecrosis of the jaw and atrial fibrillation.  There many reasons why there is a need for newer drugs on the osteoporosis market.  For one thing, bisphosphonates and other available drugs are not very specific to osteoclasts.  Any cell has the potential to take up a small chemical and be affected by it.  In addition, although the majority of the drug will work at its target site (bone), some amount of the drug is likely to influence the function of off-target sites as well.  Furthermore, these small chemicals are given orally introducing a high rate of non-compliance by patients, decreasing the potential efficacy of the drug. 4
Second to bisphophonates in populatrity is a class of drugs called selective estrogen receptor modulators (SERMs). 4   Although a decrease in estrogen tends to correlate with the onset of osteoporosis, which one reason why the prevalence of this disease is greater in post-menapausal women, there are a variety of reasons why SERMs are not the most effective treatment for bone loss.  For one, estrogen is not the only factor influencing the development of osteoporosis, and does not correlate in every case.  It is difficult to determine what, if any, is the threshold for estrogen that a women should have to prevent bone-loss.  Furthermore, SERMs are not as effective for women with sufficient estrogen levels or men that suffer from the disease.
Over the last few decades there has been strong developments made to generate drugs that have increased specificity, direction towards the target site, and effectiveness.  Furthermore, there is a great desire to not only treat bone loss, but to develop better diagnostic tools to diagnose bone loss, before the disease triggers a debilitating fracture. According to a recent review regarding the osteoporosis drug pipeline, “the osteoporosis market has not been a major target for innovation.  R&D activities are targeted at improving existing dosing regimens with the goal of reducing the pill burden in a highly medicated population”. At the top of the list for innovative, promising treatments for osteoporosis is an immunotherapy drug called Denosumab (Brand name(s):  Prolia®, Xgeva®).  Denosumab is an antibody that binds tightly to RANKL.  Denosumab is classified a blocking or neutralizing antibody because when it binds to its target, it attaches to the target very specifically and very tightly, blocking the function of the target.  Denosumab, binds tightly to RANKL, preventing RANK from activating it.   Because of this, the side effects can be potentially very limited, compared to chemical inhibitory drugs. 6  Furthermore, because it is injected subcutaneously 1-2/year it enhances patient compliance since patients would not be required to remember to take oral pills, like for bisphosphonates.  Moreover, in mice it has been shown to inhibit osteoclast development and bone resorption.  Just last month, Denosumab received U.S. FDA approval for human use to treat bone loss in patients with breast and nonmetastatic prostate cancer.  It is currently in clinical trials expand its use to other osteoporotic diseases. Amgen is developing Denosumab.
In order to enhance the number of promising therapies in the R&D pipeline, more research focusing on the basic immunological understanding of the disease is needed. By fully understanding the biological mechanisms behind disease development, we can then develop innovative, effective therapies and diagnostic tools to help answer these questions:

·      Is there a way to not only delay the onset of disease, but also prevent it? 
·      Is there a way to not only reduce the chance of bone fracture, but to prevent it? 
·      Is there a way to improve our method of detecting disease, as individuals with slightly low bone mass may go under-the-radar of current bone density measurements?

Without promoting our understanding of how disease develops, we are stuck, unable to move forward in a world where we have safe, available therapies to treat, cure and prevent diseases like osteoporosis

What the &*%$#! Does the Title Mean?!
Hsu, YH., et al. “Anti-IL-20 monoclonal antibody inhibits the differentiation of osteoclasts and protects against osteoporotic bone loss”. Journal of Experimental Medicine. 208:1849-1861. (2011).

      1.  IL-20 is a cytokine, a secreted molecule that regulates inflammation.  What exactly it does is a topic of current research, since it was only discovered 10 years ago.  We know that monocytes are potent secretors of IL-20 and that the cells that express the receptor for IL-20 include: keritonocytes (skin cells) and endothelial cells (line blood vessels).  Much of the work done to understand IL-20 biological function has been focused on what IL-20 does to cells expressing the IL-20 receptor.  For this reason, most of what we know about IL-20 is from a variety of skin and blood vessel-related diseases.  For example, one of the earliest studies revealed that keritonocytes rapidly divide and produce lots of potent pro-inflammatory cytokines including: monocyte chemotactic protein-1 (MCP-1) and TNF-alpha.7 In addition, generating mice that overexpress IL-20 results in skin abnormalities such as thickened epidermis and a wrinkled appearance.  These novel discoveries initiated scores of experiments evaluating the role of IL-20 in inflammatory diseases of the skin like psoriasis and are currently a top therapeutic target to suppress cutaneous inflammation. 8 In addition to psoriasis, a similar inflammatory, disease-promoting role of IL-20 has been established in rheumatoid arthritis9, athersclerosis10, and stroke 11. 

      2.    Monoclonal antibodies are antibodies that are not only specific for the same antigen, but also recognize the exact same amino acid sequence on that antigen.  Normally when you mount an immune response against something like a bacterium, for example, your antigen presentation cells (APCs) will ingest the bacteria and chew up into tiny bits.  If the APCs stopped there, your B cells wouldn’t get effectively activated and you wouldn’t be able to make lots of antibodies to attack the bacteria and protect you from future infections.  In order to get these amazing antibody benefits, the APC must also present those chewed-up bits of bacteria on their cell surface so that your adaptive immune system (T and B cells) can wake-up and realize that there is an infection going on.  You have millions of T cells in your body, all expressing a unique T cell receptor to recognize a single stretch of amino acids of an antigen-those bits put on display by APCs.  Once a T cell recognizes its specific antigenic sequence, it becomes activated and ready to help B cells make loads of antibodies.  When a B cell receives T cell help, it rapidly proliferates generating hundreds of B cells all instructed by the T cells to make an antibody against that specific part of the bacterium that the T cell just saw.  With a little nudge from a T cell, a single B cell divides into thousands of B cells.  When a B cell divides, it is also going through a dramatic, incredibly unique process called affinity maturation.   With each division, a B cell is rapidly mutating the DNA that codes for the antibody’s specificity.  This process results in the production of thousands of B cells that are all able to recognize that specific bacterium, but with slightly different affinities.  But remember that T cells are not all the same and have a range of specificities to any particular antigen, so a variety of different T cells are doing this to different B cells, which quickly multiplies the number of different kinds of antibodies generated during an infection.  It’s like inviting a couple friends over for a drink, but then each of your friends decide to invite some of their friends and their friends invite some of their friends and so on.  Before you know it you have a house full of different people partying it up, having a great time.  This is essentially the same thing that happens in your body during an infection, so the next time you’re sick, remember that you have your partying B cells to thank for your swollen lymph nodes (and your ability to beat the infection)!
But what makes our immune system so amazingly effective is that these B cells must compete for available antigen to promote their survival and ability to secrete their antibodies they’ve just generated through affinity maturation.   This selection process weeds out the B cells that made ineffective, poorly binding antibodies, so that your body is left with the a handful of the most selective antibodies that bind the tightest to the pathogen.  This group of top-tier antibodies is the end result of a normal immune response and is collectively called, polyclonal antibodies, since there is still some variation among the specificity of antibodies generated, but they all derived from the same initial B cell.
Monoclonal antibody generation in the lab.
So how do you get from a variety of antibodies with varying specificity (polyclonal) to a variety of antibodies with the exact same specificity (monoclonal)?  You do it in the lab.  Monoclonal antibody production is not something your body does naturally, because when your body is at war with a pathogen, it’s best to have as many weapons as possible to use in the attack, right?  But, in research, scientists want to limit variables and find the most specific weapon to develop therapy.  In order to do this, all the antibodies have to be the same.  Exact same B cell.  Exact same affinity.  Exact same specificity.  Exact same antibody made.  You get the idea.  Ok, so in order to do this, you first find something you’re interested in making antibodies against, say that bacterium that infected us in the previous example.  In order to make antibodies against the bacterium, you need an infection, it doesn’t need to be robust or cause disease, but enough to stimulate B cells, like in a vaccination.
 In the lab, this is usually done in mice.  After a few weeks since the immunization with the bacterium, the mice will have hundreds of B cells activated with a polyclonal antibody repertoire.   The spleen is isolated since that’s where the majority of B cells reside.  The antibody-producing B cells are then isolated and cultured with an immortal cell line to create hybridomas.  B Cell Hybridomas are generated so that these B cells can live indefinitely so that monoclonal antibodies can be obtained, since natural B cells don’t live for very long in culture.  After selecting for the B cells that have successfully fused with the immortal cell, then scientists split the hybridomas into a culture plate so that there is only 1 B cell hybridoma per well.  Then, they stimulate each hybridoma with that same antigen you used to immunize the mice before.  Because there are no variability from T cells and the culture is in single-cell suspension, the single cell in culture dish will clonally expand, producing identical antibodies.  Specific antibodies based on affinity strength and specificity is further selected for using biochemical techniques, to result in the acquisition of purified monoclonal antibodies.  These monoclonal antibodies then can be used as reagents for experiments (FACS, Immunoprecipitation, Immunohistochemistry), blocking antibodies for therapies and experimental use, or immunotherapies for individuals who cannot mount their own immune response (i.e. Synagis to treat infant respiratory syncytial virus)

Now, with the information above, we can infer: 
Antibodies were generated to produce something that is highly specific for the pro-inflammatory cytokine, IL-20.  This paper is going to provide data revealing that when this anti-IL-20 antibody binds to IL-20 it blocks monocytes from developing into osteoclasts, thus preventing osteoporosis.

Ready for an adventure? Read on for a guided-tour through the scientific data!
Using fluorescent microscopy and nuclear stains, such as DAPI  (blue) scientists can visualize multinucleated osteoclasts, how cool is this picture? From microscope.olympus-global.com
          Although, IL-20 signaling has been associated with a variety of diseases that share bone-loss as a symptom, there was yet any data regarding the levels of IL-20 produced in osteoporotic patients.  Therefore, one of the first things that Hsu and colleagues wanted to assess was whether IL-20 cytokine levels were elevated in individuals suffering from bone-loss.  To do this, they compared IL-20 concentration in patient serum between 33 41-60 year-old healthy, 62 41-67 year-old osteopenic and 37 40-81 year-old osteoporotic women.  Indeed, circulating IL-20 was significantly increased in women who were clinically diagnosed with either osteopenia or osteoporosis.  Of note, this assessment was limited to Asian women (as the research group is based in Taiwan) and women with known metabolic bone diseases, diabetes, cancer, renal disease, athrosclerosis, using steroids or medications known to influence bone-loss were excluded in this study.

            To examine the role of IL-20 in bone-loss pathology, the researchers utilized a common mouse model that mimics the disease as seen in humans.  The osteoporosis mouse model is achieved via ovariectomy (OVX).  Similar to what was observed in osteoprotic women, IL-20 found in the serum of OVX mice was significantly greater compared to normal female mice, thereby suggesting that the OVX mouse model does, in fact, adequately represent osteoporosis disease symptoms (rise in IL-20) similar to the women clinically diagnosed with osteoporosis.
In a recent study, Hsu and colleagues studied the role of IL-20 in rheumatoid arthritis (RA).  For those experiments, they generated mouse anti-human IL-20 monoclonal antibodies and found that these antibodies inhibited IL-20 signaling in RA, which lessened the severity of the disease.  Now, Hsu, et al. wanted to know if this IL-20-specific antibody would have similar ability to reduce the severity of disease symptoms in osteoporosis.  They call this anti-IL-20 monoclonal antibody 7E.  In the OVX mouse model, they found that when they treated these mice for 2 months with 7E, the levels of IL-20 dropped to that of non-OVX females or OVX mice treated with estradiol, which serve as positive controls of healthy mice.  Furthermore, analysis of bone morphology and bone mass density (BMD) revealed that OVX mice treated with the anti-IL-20 antibody, 7E, exhibited less bone loss than mice that did not receive 7E. It is important to note, this research team was quite thorough in their experiments by including a number of positive and negative controls to justify that the observed effects with 7E was specific to IL-20. 
To show that these effects were specific to 7E and not to any injected antibody, the scientists also included a control group of OVX mice treated with non-specific antibody (mIgG), which did not attenuate IL-20 levels or bone-loss.  Moreover, by using ELISA in which they coat a culture plate with the 7E antibody to “capture” serum cytokines followed by a secondary antibody to detect a variety of cytokines with similar structure to IL-20, Hsu and colleagues demonstrated that the 7E monoclonal antibody they generated was specifically recognizing IL-20.  


At this point, there is data to suggest that IL-20 has a role in promoting bone-loss, since levels of this cytokine increase with disease and neutralizing the cytokine with an IL-20-specific antibody ameliorates disease symptoms.  However, HOW IL-20 is doing this and what cells are responsible for the IL-20-mediated effects are completely unknown.
Given what is currently understood about the cells involved in bone resorption, the research team started to focus on osteoclasts.  First, Hsu, et al. tested whether 7E affected the ability to generate osteoclasts from hematopoietic stem cells (HSCs).  As described above, these precursor cells require M-CSF and RANKL in order to differentiate into osteoclasts.  Regardless of when 7E was given to HSCs, prior to or at the same time as M-CSF/RANKL, 7E inhibited osteoclast formation (look for the giant cells!):
In addition to the defect in giant cell formation, treatment with 7E reduced the expression of a variety of osteoclast markers including: RANK, c-Fos, Cathepsin K, NFATc1 and TRAP.  These data show 7E can be used to block osteoclast formation in vitro, which for the antibody to have an effect, it needs to bind IL-20 present in the culture.  Because there were no other cells present in this culture, these data indicate that osteoclasts are capable of producing and sensing IL-20 themselves!
To determine if these precursor cells were capable of producing IL-20, Hsu and colleagues looked at IL-20 and IL-20 receptor expression in HSCs.  Only in the presence of M-CSF, did HSCs express IL-20 illustrating that in addition to giant-cell formation, M-CSF treatment induces IL-20 production in these cells.  Furthermore, when these M-CSF-derived osteoclast precursor cells (monocytes) were treated with exogenous IL-20, RANK expression significantly increased, suggesting that cells developing into osteoclasts produce IL-20, and respond to IL-20 by upregulating RANK on their cell surface.  Recall that RANK, is the receptor for RANKL and is required for osteoclast development and function.  The IL-20 neutralizing antibody, 7E, was able to greatly diminish RANK expression by osteoclast precursors, despite the presence of IL-20 in the culture.  These data provide compelling evidence that IL-20 promotes osteoclast development and that IL-20 may promote osteoporosis.
These cells may enhance RANK expression on their cell surface to enhance their ability to sense and bind available RANK ligand (RANKL) in the bone environment.  The idea is that the more RANK or RANKL available, the more monocytes are developing into osteoclasts that lead to degradation of bone. To further assess how IL-20 affects in bone development, the research team looked into how IL-20 affects osteoblast function.  In an osteoblastic cell line culture, IL-20 enhanced osteoblast signaling activity and RANKL expression. Currently, the understanding of the induction pathway of osteoclast development begins with RANKL stimulating RANK on M-CSF-stimulating osteoclast precursor cells.  But here, Hsu, et al. provide data showing that something upstream of RANK/RANKL is controlling RANK/RANKL function and therefore ultimately controlling osteoclast development--IL-20!  These are the first data indicating how RANK and RANKL expression is modulated by a soluble factor associated with bone disease! 
To further investigate the role of IL-20 signaling in promoting osteoporosis, the research team generated IL-20R1 knockout mice.  By removing the ability of IL-20 to stimulate signaling cascades responsible for osteoclast development, they observed that aging mice lacking IL-20R1 had increased BMD compared to wild-type counterparts.  In addition, mice lacking IL-20R1 had a defect in osteoclast development from monocytes and were unresponsive to IL-20 or 7E treatment, thus further accentuating the specificity of 7E for IL-20.  So perhaps, humans, like mice may lose the ability to maintain high levels of IL-20R1 thereby increasing the chance of developing more bone resorbing osteoclasts.  However, Hsu and colleagues did not investigate whether similar data regarding IL-20 receptor expression is observed in humans.
Lastly, Hsu, et al. went back to see if the IL-20R deficiency provided similar results as their IL-20 blocking antibody, 7E in the development of osteoporosis.  To do this, they performed ovariectomies (OVX) on IL-20R1 deficient (IL-20R1-/-) and IL-20R1 sufficient (IL-20R1+/+;+/-) mice.  Similar to what they observed in mice treated with 7E, OVX mice lacking IL-20R were protected from bone-loss!
This diagram depicts what was known about osteoclast function, what Hsu, et al. were able to add was data to answer the question: WHAT regulated RANK/RANKL expression? Hsu, et al. showed for the first time that IL-20 upregulated RANK/RANKL and that an IL-20-specific antibody could block this expression and IMPROVE osteoporosis symptoms! Importantly, they also demonstrated that IL-20 may be used as a potent diagnostic marker to indicate the presence of osteoporosis in humans!! Figure from HealthPlexus.net
By utilizing a variety of methods including generating IL-20-specific blocking monoclonal antibodies and generating IL-20R-deficient mice, Hsu and colleagues convincingly provide data that are the first to describe the role and function of IL-20 in promoting osteoporosis.  Importantly, this is also the first report describing the positive correlation between IL-20 serum levels and bone-loss disease.  These findings lend insight and development of better diagnostic tools that may detect the onset of bone-loss earlier than current diagnostic methods.  More research is needed to elucidate the kinetics of IL-20 production in order for IL-20 to be effectively used as a biomarker to track the onset and progression of bone disease.
The current clinical treatments for bone-loss include drugs that largely target estrogen, calcium, or RANK/RANKL signaling.  The disadvantages to the former two are highlighted in the above section; however it is important to note that in mice, genetic deletion of either RANK or RANKL results in severe osteopetrosis (increased bone mass) and the utter loss of osteoclasts.  Which although may cure osteoporosis, it leads to poor bone homeostasis and may cause detriment to immune cell and bone development.  Because of these findings, there is potentially a danger in developing osteopetrosis with individuals with RANK/RANKL mutations or using drugs that completely block RANK/RANKL function.12 Because of this, it is imperative for researchers to continuously unveil new understandings in signaling pathways and be scavenging for new therapeutic targets in order to achieve the most effective drugs with the least amount of harmful side effects.  Studies, such as this one lead by Ming-Shi Chang at the National Cheng Kung University in Taiwain, is a testament to the encouraging role academic scientists play in developing promising, novel immunotherapies to help treat millions of people around the world.

ResearchBlogging.org Hsu YH, Chen WY, Chan CH, Wu CH, Sun ZJ, & Chang MS (2011). Anti-IL-20 monoclonal antibody inhibits the differentiation of osteoclasts and protects against osteoporotic bone loss. The Journal of experimental medicine, 208 (9), 1849-61 PMID: 21844205 




References and Further Reading:
1. Glick,B. “Historical perspective: The bursa of Fabricius and its influence on B cell development, past and present”. Veterinary Immunology and Immunopathology. 30:3-12. (1991).
3. Arron, J. and Choi, Y. “Bone versus immune system”. Nature. 408:535-536. (2000).
4. Yasothan, U. and Kar, S. “Osteoporosis: overview and pipeline”. Nature Reviews Drug Discovery. 7:725-726. (2008).
6. Opar, A. “Late-stage osteoporosis drugs illustrate challenges in the field”. Nature Reviews Drug Discovery. 8: 757-758. (2009).
7. Sabat, R. “IL-19 and IL-20: two novel cytokines with importance in inflammatory diseases”. Expert Opin Ther Targets.  11:601-612. (2007).
8. Rich, BE. “IL-20: a new target for the treatment of inflammatory skin disease”. Expert Opin Ther Targets.  7:165-74. (2003).
9.Hsu, YH., et al. “Function of interleukin-20 as a proinflammatory molecule in rheumatoid and experimental arthritis”. Arthritis Rheum. 54:2722-2733. (2006).
10. Chen, WY. “IL-20 is expressed in atherosclerosis plaques and promotes atherosclerosis in apolipoprotein E-deficient mice”. Arterioscler Thromb Vasc Biol .26:2090-2095. (2006).
11. Chen, WY and Change, MS. “IL-20 is regulated by hypoxia-inducible factor and up-regulated after experimental ischemic stroke”. Journal of Immunology. 182:5003-5012. (2009).
12: Kong, YY, et al. “OPGL is a key regulator of osteoclastogenesis, lymphocyte development and lymph-node organogenesis”. Nature. 397:315-333. (1999).

22 comments:

  1. Hello,

    Thanks for providing these useful tips over here. Monoclonal antibodies are widely used as diagnostic and research reagents as well as in human therapy. These antibody response to a typical antigen is highly heterogeneous...

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    1. Hello viewer’s
      I don’t have much to say there are so may scammers going on online so we cant detect the real herbal medicine doctors. Thank GOD for leading me, please don’t ignore this post is real Dr Emmanuel, is a real herbal Doctor, he cured me from Herpes virus, i am living so happy and free , i was fully recovered within 4 weeks of usage of dr Emmanuel herbal medicine ,please viewers out there that have any deadly disease don't fail to contact him via his email; nativehealthclinic@gmail.com or WhatsApp/Call: +2348140073965  thanks once again to dr Emmanuel GOD bless you abundantly  
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  2. Very informative on ways how to prevent osteoporosis as it is something that people should always be aware of because it attacks our bones which is our skeletal frame that gives us the opportunity to stand, walk and run.

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  3. A great way to keep bones in top shape is by maintaining an ideal supply of calcium and magnesium in the body. Bones tend to grow weaker as people age. Paying special attention to our bones can help save us from getting bone-related diseases.

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  4. Very good text! As a bone researcher I must say I am impressed! Hope you had finished your PhD by now. Congrats!
    Luciane Capelo

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  5. Thank you so much for this info! My wife is considering the career field of immunology in Illinois, I honestly have zero knowledge on the matter but you article is a very good start. Thank you for sharing.

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    The spine is the most common area where weak bones can give way.

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  8. Osteoporosis is a disease in which bones become fragile and more likely to fracture. Usually the bone loses density, which measures the amount of calcium and minerals in the bone.
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  9. "men over the age 50 have a 30% risk of experiencing an osteoporotic fracture,similar to the risk developing prostate cancer." Terrible to hear that!

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  10. I am happy as Dr. Lance sensitive treatment of Osteoporosis using herbal medications touched me deeply.
    I was diagnosed with Osteoporosis, my medical condition was heart broken. The first thing I did was get myself informed. I was subjected to different medications, by my doctors for treatment without the assurance of having a permanent cure. Despite my visit to several doctors my health wasn't getting better, I took Fosamax 70 mg once weekly for nine months until I could no longer endure the side effects. I’ve made many lifelong friends when I was looking for a natural cure for my ailment. At the verge of giving up, I went to the internet to search for a treatment at least. But I found a cure instead. I read a testimony of a lady just like mine and the good news was that after using herbal medicine she was cured. She shared an e-mail address about the Doctor who treated her using Herbal Medication without complications. I was lucky to have access to Herbal Medicine, and have a pretty normal life now. I am 64years Sure, it has been challenging, and there have been many ups and downs, if you're having Osteoporosis this is not the end of the world don't ever lose hope. I want to tell you that you need to learn to love yourself just the way you are- you are a special person that deserves love. Never never never give up!!!! Contact him on lancejustin54@gmail.com for more info.

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  11. Hiv disease for the last 3 years and had pain hard to eat and cough are nightmares,especially the first year At this stage, the immune system is severely weakened, and the risk of contracting opportunistic infections is much greater. However, not everyone with HIV will go on to develop AIDS. The earlier you receive treatment, the better your outcome will be.I started taking ARV to avoid early death but I had faith in God that i would be healed someday.As a Hiv patent we are advise to be taking antiretroviral treatments to reduce our chance of transmitting the virus to others , few weeks ago i came on search on the internet if i could get any information on Hiv treatment with herbal medicine, on my search i saw a testimony of someone who has been healed from Hiv her name was Achima Abelard and other Herpes Virus patent Tasha Moore also giving testimony about this same man,Called Dr Itua Herbal Center.I was moved by the testimony and i contacted him by his Email.drituaherbalcenter@gmail.com We chatted and he send me a bottle of herbal medicine I drank it as he instructed me to.After drinking it he ask me to go for a test that how i ended my suffering life of Hiv patent,I'm cured and free of Arv Pills.I'm forever grateful to him Drituaherbalcenter.Here his contact Number +2348149277967...He assure me he can cure the following disease..Hiv,Cancer,Herpes Virus,Lyme Disease,Epilepsy, ,Bladder Cancer,Colorectal Cancer,Breast Cancer,Kidney Cancer,Leukemia,Lung Cancer,Non Hodgkin Lymphoma,Skin Cancer,Uterine Cancer,Prostate Cancer, fibromyalgia ,ALS,Hepatitis,Copd,Parkinson disease.Genetic disease,Fibrodysplasia disease,Fibrodysplasia Ossificans Progressiva,Fluoroquinolone Toxicity Syndrome,Inflammatory bowel disease ,Huntington's disease ,Diabetes,Fibroid...

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  12. I do not know if you would be interested in my case.Here is Dr Itua Contact Information,drituaherbalcenter@gmail.com Or mobile +2348149277967 He talk on Whatsapp too.
    I was treated for Hepatitis C genotype 2 commencing on january 14, 2017 I was treated with Dr Itua Herbal Medicine which he prepared and send to me Via EMS Courier service and I received it @ Ohio Post Office .I drink in two weeks as he instructed me to and I was cured.Just in two weeks,Isn’t that joyful.yes i’m happy and my heart fill with joy.
    I carry a high risk of Lymphoma relapse due to constant exposure to the hepatitis C virus.
    In order for me to have the maximum chance of a cure from my Non-Hodgkins Lymphoma the Hepatitis C must be treated in a timely manner or my life hangs in jeopardy. Dr Itua made my life meaningful again.And to my friend Nicky who directed me to Dr itua herbal center i forever debted to you my dear friend.Doctor Itua Assured me he can as well cured the following desease,HIV,COPD,DIABETES,HERPES VIRUS,HEPATITIS,

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  13. Irrespective of receiving daily oral or future injectable depot therapies, these require health care visits for medication and monitoring of safety and response. If patients are treated early enough, before a lot of immune system damage has occurred, life expectancy is close to normal, as long as they remain on successful treatment. However, when patients stop therapy, virus rebounds to high levels in most patients, sometimes associated with severe illness because i have gone through this and even an increased risk of death. The aim of “cure”is ongoing but i still do believe my government made millions of ARV drugs instead of finding a cure. for ongoing therapy and monitoring. ARV alone cannot cure HIV as among the cells that are infected are very long-living CD4 memory cells and possibly other cells that act as long-term reservoirs. HIV can hide in these cells without being detected by the body’s immune system. Therefore even when ART completely blocks subsequent rounds of infection of cells, reservoirs that have been infected before therapy initiation persist and from these reservoirs HIV rebounds if therapy is stopped. “Cure” could either mean an eradication cure, which means to completely rid the body of reservoir virus or a functional HIV cure, where HIV may remain in reservoir cells but rebound to high levels is prevented after therapy interruption.Dr Itua Herbal Medicine makes me believes there is a hope for people suffering from,Parkinson's disease,Schizophrenia,Cancer,Scoliosis,Fibromyalgia,Fluoroquinolone Toxicity
    Syndrome Fibrodysplasia Ossificans Progressiva.Fatal Familial Insomnia Factor V Leiden Mutation ,Epilepsy Dupuytren's disease,Desmoplastic small-round-cell tumor Diabetes ,Coeliac disease,Creutzfeldt–Jakob disease,Cerebral Amyloid Angiopathy, Ataxia,Arthritis,Amyotrophic Lateral Sclerosis,Alzheimer's disease,Adrenocortical carcinoma.Asthma,Allergic diseases.Hiv_ Aids,Herpe ,Copd,Hpv,All Cancer Types,Diabetes,Hepatitis,I read about him online how he cure Tasha and Tara so i contacted him on drituaherbalcenter@gmail.com even talked on whatsapps +2348149277967 believe me it was easy i drank his herbal medicine for two weeks and i was cured just like that isn't Dr Itua a wonder man? Yes he is! I thank him so much so i will advise if you are suffering from one of those diseases Pls do contact him he's a nice man.

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  14. Hiv disease for the last 3 years and had pain hard to eat and cough are nightmares,especially the first year At this stage, the immune system is severely weakened, and the risk of contracting opportunistic infections is much greater. However, not everyone with HIV will go on to develop AIDS. The earlier you receive treatment, the better your outcome will be.I started taking ARV to avoid early death but I had faith in God that i would be healed someday.As a Hiv patent we are advise to be taking antiretroviral treatments to reduce our chance of transmitting the virus to others , few weeks ago i came on search on the internet if i could get any information on Hiv treatment with herbal medicine, on my search i saw a testimony of someone who has been healed from Hiv her name was Achima Abelard and other Herpes Virus patent Tasha Moore also giving testimony about this same man,Called Dr Itua Herbal Center.I was moved by the testimony and i contacted him by his Email.drituaherbalcenter@gmail.com . We chatted and he send me a bottle of herbal medicine I drank it as he instructed me to.After drinking it he ask me to go for a test that how i ended my suffering life of Hiv patent,I'm cured and free of Arv Pills.I'm forever grateful to him Drituaherbalcenter.Here his contact Number +2348149277967...He assure me he can cure the following disease..Hiv,Cancer,Herpes Virus,Hpv,Pile,Weak Erection,Lyme Disease,Epilepsy,Glaucoma.,Brain Tumor,psoriasis, Cataracts,Macular degeneration,Cardiovascular disease,Chronic Diarrhea,Lung disease.Enlarged prostate,Osteoporosis.Alzheimer's disease,
    Dementia. ,Bladder Cancer,Autism,Colorectal Cancer,Breast Cancer,Kidney Cancer,Leukemia,Lung Cancer,Tay tach disease,Non Hodgkin Lymphoma,Skin Cancer,Lupus,Uterine Cancer,Prostate Cancer, Seizures, fibromyalgia ,ALS,Hepatitis,Copd,Parkinson disease.Genetic disease,Fibrodysplasia disease,Fibrodysplasia Ossificans Progressiva,Fluoroquinolone Toxicity Syndrome,Stroke,Hpv,Weak Erection,Liver/Kidney Inflammatory,Men/Woman infertility, bowel disease ,Huntington's disease ,Diabetes,Fibroid.

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  15. Appreciation for really being thoughtful and also for deciding on certain marvelous guides most people really want to be aware of.
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  16. i already gave up on ever getting cured of HSV2 because i have try many treatment none of them work out for me i have go to different hospital they always tell me same thing there is no cure for herpes when i came across a post about Dr ohunyom, in the net from a lady called Angela i contacted him and he reassured me with him herbal medicine which i took according to the way he instructed, that how i was cured. I doubted at first because i have been to a whole lot of reputable doctors, tried a lot of medicines but none was able to cure me. so i decided to listen to him and he commenced treatment, and under two weeks i was totally fee from #Herpes. i want to say a very big thank you to DR ohunyom for what he has done in my life. feel free to leave him a message on email drohunyom@gmail.com and also WhatsApp him +2349060579973..
    He can still be able to help you with this herbs medicine:
    1...ALS CURE/DIABETES CURE/EPILESY/HPV CURE/LUPUS/HEPATITIS/CANCER/GOUT    

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  17. i am ERIC BRUNT by name. Greetings to every one that is reading this testimony. I have been rejected by my wife after three(3) years of marriage just because another Man had a spell on her and she left me and the kid to suffer. one day when i was reading through the web, i saw a post on how this spell caster on this address AKHERETEMPLE@gmail.com have help a woman to get back her husband and i gave him a reply to his address and he told me that a man had a spell on my wife and he told me that he will help me and after 3 days that i will have my wife back. i believed him and today i am glad to let you all know that this spell caster have the power to bring lovers back. because i am now happy with my wife. Thanks for helping me Dr Akhere contact him on email: AKHERETEMPLE@gmail.com
    or
    call/whatsapp:+2349057261346










    i am ERIC BRUNT by name. Greetings to every one that is reading this testimony. I have been rejected by my wife after three(3) years of marriage just because another Man had a spell on her and she left me and the kid to suffer. one day when i was reading through the web, i saw a post on how this spell caster on this address AKHERETEMPLE@gmail.com have help a woman to get back her husband and i gave him a reply to his address and he told me that a man had a spell on my wife and he told me that he will help me and after 3 days that i will have my wife back. i believed him and today i am glad to let you all know that this spell caster have the power to bring lovers back. because i am now happy with my wife. Thanks for helping me Dr Akhere contact him on email: AKHERETEMPLE@gmail.com
    or
    call/whatsapp:+2349057261346










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  18. As a sign of gratitude for how my husband was saved from Lymes, I decided to reach out to those still suffering from this.
    My husband suffered from Lymes and it was really tough and heartbreaking for me because he was my all and the symptoms were terrible, we tried various therapies prescribed by our neurologist but none could cure him. I searched for a cure and I saw testimony of so many people who were cured from Lymes , and so many others with similar body problems, and they left the contact of this doctor who had the herbal cure to Lymes. I never imagined Lymes had a cure not until I contacted him and he assured me my husband will be fine. I got the herbal medication he recommended and my husband used it and in one months he was fully okay even up till this moment he is so full of life.Lymes has a cure and it is a herbal cure contact the doctor for more info on drituaherbalcenter@gmail.com Dr Itua can cure Herpes,Hiv,Cancer,ALS,Copd,HPV,Lupus,MS,Diabetes, and other disease talk to Dr Itua on how to get the medication. Thanks for reading my testimony . www.drituaherbalcenter.com

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  19. I want to give thanks to Dr Aboda who helped cure my Dad from ischemic stroke disease. Please help me to give thanks to him. Click on the link here via :.

    Via Email: drabodasolution@gmail.com

    Contact: +2349012479806

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    For more information about Dr Oso you can contact me vivianjefferson958@gmail.com

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  20. WHAT A GREAT MIRACLE THAT I HAVE EVER SEE IN MY LIFE. My names are Clara David I’m a citizen of USA, My younger sister was sicking of breast cancer and her name is Sandra David I and my family have taking her to all kind of hospital in USA still yet no good result. I decided to search for cancer cure so that was how I found a lady called Peter Lizzy. She was testifying  to the world about the goodness of a herbal man who has the roots and herbs to cure all kinds of disease and the herbal man's email was there. So I decided to contact the herbal man @herbalist_dr_sakura for my younger sister's help to cure her breast cancer. I contacted him and told him my problem he told me that I should not worry that my sister cancer will be cure, he told me that there is a medicine that he is going to give me that I will cook it and give it to my sister to drink for one week, so I ask how can I receive the cure that I am in USA, he told me That I will pay for the delivery service. The courier service can transport it to me so he told me the amount I will pay, so my dad paid for the delivery fee. two days later I receive the cure from the courier service so I used it as the herbal man instructed me to, before the week complete my sister cancer was healed and it was like a dream to me not knowing that it was physical I and my family were very happy about the miracle of Doctor so my dad wanted to pay him 5 million us dollars the herbal man did not accept the offer from my dad, but I don't know why he didn't accept the offer, he only say that I should tell the world about him and his miracle he perform so am now here to tell the world about him if you or your relative is having any kind of disease that you can't get from the hospital please contact dr.sakuraspellalter@gmail.com or WhatsApp him +2348110114739  visit his website https://www.instagram.com/herbalist_sakurahttps://web.facebook.com/herbalistsakura/    https://drsakurahealthclinic.wixsite.com/website https://sites.google.com/view/herbalistsakura                               https://drsakuraspellcentre.blogspot.com/                 https://drsakuraspellalter.wordpress.com/         for the cure, he will help you out with the problem. And if you need more information about the doctor you can mail me    davidclara223@gmail.com

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