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    Study finds novel therapeutic avenues in bone repair

    The research was funded by major grants from the Medical Research Council and the Lorna and Yuti Chernajovsky Biomedical Research Foundation.

    Study finds novel therapeutic avenues in bone repair
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    BIRMINGHAM: Birmingham researchers have proven PEPITEM, a naturally occurring peptide (small protein) has potential as a novel therapy for osteoporosis and other illnesses that entail bone loss, with specific advantages over conventional medications.

    PEPITEM (Peptide Inhibitor of Trans-Endothelial Migration) was discovered in 2015 by University of Birmingham researchers.

    The latest research, published today in Cell Reports Medicine, demonstrates for the first time that PEPITEM could be used as a novel and early clinical intervention to reverse the impact of age-related musculoskeletal diseases, with data demonstrating that PEPITEM enhances bone mineralisation, formation, and strength while also reversing bone loss in animal models of disease.

    The research was funded by major grants from the Medical Research Council and the Lorna and Yuti Chernajovsky Biomedical Research Foundation, which funds pioneering research into the creation of new targeted medicines to improve health. Other funders included the British Society for Research on Ageing, and Versus Arthritis.

    Bone is constantly formed, reformed, and remodelled throughout life, and up to 10% of human bone is replaced annually through a complex interplay between two cell types - osteoblasts, which form bone, and osteoclasts, which breakdown bone. Disturbances to this tightly orchestrated process are responsible for features of diseases such as osteoporosis and rheumatoid arthritis, which show excessive bone breakdown, or ankylosing spondylitis, where abnormal bone growth occurs.

    The most commonly used osteoporosis therapies (bisphosphonates) target osteoclasts to prevent further bone loss. Although there are new 'anabolic' agents that can promote new bone formation, these have limitations in their clinical use, with teriparatide (parathyroid hormone, or PTH) only being effective for 24 months and romosozumab (anti-sclerostin antibody) being associated with cardiovascular events.

    Therefore, there is a clear case for developing new therapies to stimulate bone repair in age-related musculoskeletal diseases, of which osteoporosis is the most common. Researchers led by Dr Helen McGettrick and Dr Amy Naylor, including Dr Jonathan Lewis and Ms Kathryn Frost, from the Institute of Inflammation and Ageing at the University of Birmingham and Dr James Edwards from Nuffield Department of Orthopaedics, Rheumatology and Musculoskeletal Sciences at the University of Oxford set out to investigate the potential therapeutic impact of PEPITEM in these disease states.

    PEPITEM is a naturally occurring short protein (peptide) produced in the body and found circulating in everyone at low levels.

    The research findings demonstrated that PEPITEM regulates bone remodelling and that increasing the amount present in the body stimulates bone mineralisation in 'young bones' that are not in a diseased or pre-osteoporotic state, and that this translates to an increase in bone strength and density similar to current standard of care drugs (bisphosphonates and PTH).

    However, the key test for a potential new therapeutic is its ability to target the natural repair process that is compromised by age, or inflammatory disease. Here the researchers showed that giving additional PEPITEM limits bone loss and improves bone density in animal models of the menopause, which is a common trigger for osteoporotic bone loss in humans. Their studies also showed similar findings in models of inflammatory bone disease (arthritis), where PEPITEM significantly reduced bone damage and erosion.

    These findings were underscored by studies using human bone tissue, harvested from older patients during joint surgery. These studies showed cells from older individuals respond to PEPITEM, significantly increasing the maturation of osteoblasts, and their ability to produce and mineralise bone tissues.

    Their cell and tissue culture work showed PEPITEM has a direct effect on osteoblasts to promote bone formation, by increasing the activity of osteoblasts rather than their number. Further studies identified the NCAM-1 receptor as the specific receptor for PEPITEM on osteoblasts, and strongly suggested the NCAM-1- b-catenin signalling pathway is responsible for the upregulation of osteoblast activity. This receptor, and the pathway, are distinct from PEPITEM receptors that have been previously described in other tissues.

    The researchers also investigated PEPITEM's effect on osteoclasts and bone resorption. Here, mouse studies showed PEPITEM significantly reduces the number of osteoclasts, leading to reduced bone mineral resorption. The researchers subsequently demonstrated that the reduction in osteoclast activity is the result of a soluble substance released locally in bone tissues by osteoblasts 'activated' by PEPITEM.

    Dr Helen McGettrick said: "While the most commonly used drugs, bisphosphonates, work by blocking the action of osteoclasts, PEPITEM acts by swinging the balance in favour of bone formation, without impacting the ability of osteoclasts to resorb regions of damaged or weak bone tissue via normal bone remodelling."


    ANI
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