Subtilase-like pro-protein convertases: from molecular specificity to therapeutic applications

doi:10.1677/jme.0.0240001

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Subtilase-like pro-protein convertases: from molecular specificity to therapeutic applications

F Bergeron, R Leduc, and R Day

Limited proteolysis of most large protein precursors is carried out in vivo by the subtilisin-like pro-protein convertases. Many important biological processes such as peptide hormone synthesis, viral protein processing and receptor maturation involve proteolytic processing by these enzymes, making them potential targets for the development of novel therapeutic agents. However, the efficient development of such molecules requires a better understanding of the molecular mechanisms of proteolytic protein processing. Herein, we review the most recent findings on the molecular aspects of subtilisin-like convertase activity, such as the structural analysis of the proteases, the mechanisms of enzyme/substrate specificity, their interaction with other proteins such as 7B2, and the comparative tissue and cellular distribution of the enzymes and their substrates. These data are then used as a background for the review of the known biological functions of subtilisin-like pro-protein convertases, the reported clinical cases involving proteolytic processing defects and, finally, the ongoing development of new therapeutic inhibitor molecules based on this knowledge.

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				N. Rabah, D. Gauthier, B. C. Wilkes, D. J. Gauthier, and C. Lazure Single Amino Acid Substitution in the PC1/3 Propeptide Can Induce Significant Modifications of Its Inhibitory Profile toward Its Cognate Enzyme J. Biol. Chem., March 17, 2006; 281(11): 7556 - 7567. [Abstract] [Full Text] [PDF]

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				K. N. Maxwell and J. L. Breslow Adenoviral-mediated expression of Pcsk9 in mice results in a low-density lipoprotein receptor knockout phenotype PNAS, May 4, 2004; 101(18): 7100 - 7105. [Abstract] [Full Text] [PDF]

				F. D'Anjou, L. J. Bergeron, N. B. Larbi, I. Fournier, M. Salzet, J.-P. Perreault, and R. Day Silencing of SPC2 Expression Using an Engineered {delta} Ribozyme in the Mouse {beta}TC-3 Endocrine Cell Line J. Biol. Chem., April 2, 2004; 279(14): 14232 - 14239. [Abstract] [Full Text] [PDF]

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				G. A. Cornwall, A. Cameron, I. Lindberg, D. M. Hardy, N. Cormier, and N. Hsia The Cystatin-Related Epididymal Spermatogenic Protein Inhibits the Serine Protease Prohormone Convertase 2 Endocrinology, March 1, 2003; 144(3): 901 - 908. [Abstract] [Full Text] [PDF]

				L. Y. M. Rayburn, H. C. Gooding, S. P. Choksi, D. Maloney, A. R. Kidd III, D. E. Siekhaus, and M. Bender amontillado, the Drosophila Homolog of the Prohormone Processing Protease PC2, Is Required During Embryogenesis and Early Larval Development Genetics, January 1, 2003; 163(1): 227 - 237. [Abstract] [Full Text] [PDF]

				W. Dong and R. Day Gene Expression of Proprotein Convertases in Individual Rat Anterior Pituitary Cells and Their Regulation in Corticotrophs Mediated by Glucocorticoids Endocrinology, January 1, 2002; 143(1): 254 - 262. [Abstract] [Full Text] [PDF]

				E. K. Dufour, J.-B. Denault, L. Bissonnette, P. C. R. Hopkins, P. Lavigne, and R. Leduc The Contribution of Arginine Residues within the P6-P1 Region of alpha 1-Antitrypsin to Its Reaction with Furin J. Biol. Chem., October 12, 2001; 276(42): 38971 - 38979. [Abstract] [Full Text] [PDF]