Bone morphogenetic protein 2

1ES7, 1REU, 1REW, 2GOO, 2H62, 2H64, 2QJ9, 2QJA, 2QJB, 3BK3, 3BMP, 4MID, 4N1D, 4UHY, 4UHZ, 4UI0, 4UI1, 4UI265012156ENSG00000125845ENSMUSG00000027358P12643P21274NM_001200NM_007553NP_001191NP_031579Bone morphogenetic protein 2 or BMP-2 belongs to the TGF-β superfamily of proteins.1es7: COMPLEX BETWEEN BMP-2 AND TWO BMP RECEPTOR IA ECTODOMAINS1reu: Structure of the bone morphogenetic protein 2 mutant L51P1rew: Structural refinement of the complex of bone morphogenetic protein 2 and its type IA receptor2goo: Ternary Complex of BMP-2 bound to BMPR-Ia-ECD and ActRII-ECD2h62: Crystal structure of a ternary ligand-receptor complex of BMP-22h64: Crystal structure of a ternary ligand-receptor complex of BMP-23bmp: HUMAN BONE MORPHOGENETIC PROTEIN-2 (BMP-2) Bone morphogenetic protein 2 or BMP-2 belongs to the TGF-β superfamily of proteins. BMP-2 like other bone morphogenetic proteins, plays an important role in the development of bone and cartilage. It is involved in the hedgehog pathway, TGF beta signaling pathway, and in cytokine-cytokine receptor interaction. It is also involved in cardiac cell differentiation and epithelial to mesenchymal transition. Like many other proteins from the BMP family, BMP-2 has been demonstrated to potently induce osteoblast differentiation in a variety of cell types. BMP-2 may be involved in white adipogenesis. and may have metabolic effects Bone morphogenetic protein 2 has been shown to interact with BMPR1A. Bone morphogenetic protein 2 is shown to stimulate the production of bone. Recombinant human protein (rhBMP-2) is currently available for orthopaedic usage in the United States. Implantation of BMP-2 is performed using a variety of biomaterial carriers ('metals, ceramics, polymers, and composites') and delivery systems ('hydrogel, microsphere, nanoparticles, and fibers'). While used primarily in orthopedic procedures such as spinal fusion, BMP-2 has also found its way into the field of dentistry. The use of dual tapered threaded fusion cages and recombinant human bone morphogenetic protein-2 on an absorbable collagen sponge obtained and maintained intervertebral spinal fusion, improved clinical outcomes, and reduced pain after anterior lumbar interbody arthrodesis in patients with degenerative lumbar disc disease. As an adjuvant to allograft bone or as a replacement for harvested autograft, bone morphogenetic proteins (BMPs) appear to improve fusion rates after spinal arthrodesis in both animal models and humans, while reducing the donor-site morbidity previously associated with such procedures. A study published in 2011 noted 'reports of frequent and occasionally catastrophic complications associated with use of in spinal fusion surgeries', with a level of risk far in excess of estimates reported in earlier studies. An additional review by Agrawal and Sinha of BMP-2 and its common delivery systems in early 2016 showed how 'problems like ectopic growth, lesser protein delivery, inactivation of the protein' reveal a further need 'to modify the available carrier systems as well as explore other biomaterials with desired properties.'