Proprotein convertases â family of serine proteases with a broad spectrum of physiological functions

Abstract

A large group of secretory proteins involved in proper functioning of living organisms, is synthesized as inactive precursor molecules. Their biologically active forms are obtained as a result of numerous post-translational modifications. Some of these processes occur irreversibly, permanently changing the initial compound structure. An example of such modifications is catalytic treatment of proteins performed by proteolytic enzymes. Among five separate classes of these enzymes, the most numerous are serine proteases. Mammalian proprotein convertases (PCs), which include: furin, PC1/3, PC2, PACE4, PC4, PC5/6, PC7, PCSK9, SKI-1, represent serine endoproteases family. PCs play a key role in the activation of a number of precursor proteins causing formation of biologically active forms of enzymes, hormones, signaling molecules, transcription and growth factors. This article summarizes current state of knowledge on biosynthesis, structure and substrate specificity of PCs, identifies the relationship between location and intracellular activity of these enzymes, and their physiological functions in mammals.