On a global scale, osteoporosis is a major and growing public health problem. In the United States, osteoporosis is present in 24 million people (mostly women) and contributes to more than 1.3 million fractures/year. Serious morbidity and mortality result from these fractures. Current therapies for osteoporosis are few, efficacy is limited, and side effects problematic. Fundamental to the pathophysiology of osteoporosis is an imbalance between the tightly coupled processes of bone resorption and bone formation that characterize normal bone remodeling. Our laboratory is engaged in a research effort focused on elucidating the role of the osteoclast integrin in bone resorption, defining the nature of ligand-integrin interactions, and developing antagonists for cell surface adhesion molecules, particularly the alpha v beta 3 vitronectin-like integrin receptor present on the surface of human osteoclasts. Peptides containing the internal arginine-glycine-aspartic acid (RGD) motif have been shown to inhibit osteoclast-mediated bone resorption in vivo. We are now designing more potent and selective inhibitors of bone resorption as a potential new mechanism-based therapeutic approach to osteoporosis based on a novel mechanism. In an effort to rapidly identify the highest affinity ligands for the human alpha v beta 3 integrin, we have generated combinatorial peptide libraries containing substantial structural diversity. For instance, based on all possible sequence combinations of extracellular matrix proteins known to bind alpha v beta 3, we recently synthesized and chemically analyzed a library of 360,000 peptides, all of which contain RGD.(ABSTRACT TRUNCATED AT 250 WORDS)
Melanocortins appear to be involved as regulators in an ever growing number of physiological processes in cells and tissues of diverse functions. While such trends are apparent also in the case of other peptide hormones, it appears that melanocortin receptors can be regarded as unique among G-protein-linked receptors due to their special need for extracellular Ca2+ which may relate to some, yet undetermined selectivity of their actions. The physiological role that Ca2+ may be playing and the diverse signaling mechanisms regulated, as well as the nature of the cell-specific responses elicited in melanocortin-sensitive cells/tissues, have yet to be elucidated. Likewise, it will be of interest to establish the relationship of melanocortins to processes like growth and differentiation of cells, as well as to higher, more complex processes such as those regulated in the CNS.
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