Biological and Pathological Roles of Ganglioside Sialidases.

Abstract

Sialidases are glycosidases responsible for the removal of α-glycosidically linked sialic acid residues from carbohydrate portions of glycoproteins and glycolipids, this process being the initial step in the degradation of such glycoconjugates. Sialic acids are considered to play important roles in various biological processes largely in two ways, one related to their hydrophilic and acidic properties exerting physicochemical effects on the glycoconjugates to which they are attached, and the other as recognition sites or in an opposing fashion as masking sites. The removal of sialic acids catalyzed by a sialidase, therefore greatly influences many biological processes through changing the conformation of glycoproteins and through recognition and masking of biological sites of functional molecules. Sialidases are found widely distributed in metazoan animals, from echinoderms to mammals, and are also present in viruses and other microorganisms, including fungi, protozoa, and bacteria even mostly lacking sialic acids. In mammals, there are four forms of sialidase (Neu1, Neu2, Neu3, and Neu4), differing in their major subcellular localization and enzymatic properties. They have been implicated in regulation of various cellular activities, such as cell differentiation, cell growth, and cell adhesion and motility, depending on their particular properties. In contrast, in microorganisms the enzymes appear to play roles limited to nutrition and pathogenesis. In this chapter, the focus is on mammalian sialidases preferentially hydrolyzing gangliosides, mostly Neu3 and Neu4, with an attempt to provide a brief overview of their physiological and pathological roles.