Dynamic Function of DPMS Is Essential for Angiogenesis and Cancer Progression.

Dynamic Function of DPMS Is Essential for Angiogenesis and Cancer Progression. Adv Exp Med Biol. 2018;1112:223-244 Authors: Zhang Z, Serrano-Negrón JE, Martínez JA, Baksi K, Banerjee DK Abstract Dolichol phosphate mannose synthase (DPMS) is an inverting GT-A-folded enzyme and classified as GT2 by CAZy. DPMS sequence carries a metal-binding DXD motif, a PKA motif, and a variable number of hydrophobic domains. Human and bovine DPMS possess a single transmembrane domain, whereas that from S. cerevisiae and A. thaliana carry multiple transmembrane domains and are superimposable. The catalytic activity of DPMS is documented in all spheres of life, and the 32kDa protein is uniquely regulated by protein phosphorylation. Intracellular activation of DPMS by cAMP signaling is truly due to the activation of the enzyme and not due to increased Dol-P level. The sequence of DPMS in some species also carries a protein N-glycosylation motif (Asn-X-Ser/Thr). Apart from participating in N-glycan biosynthesis, DPMS is essential for the synthesis of GPI anchor as well as for O- and C-mannosylation of proteins. Because of the dynamic nature, DPMS actively participates in cellular proliferation enhancing angiogenesis and breast tumor progression. In fact, overexpression of DPMS in capillary endothelial cells supports increased N-glycosylation, cellular proliferation, and enhanced chemotactic activity. These are expected to be completely absent in congen...
Source: Advances in Experimental Medicine and Biology - Category: Research Tags: Adv Exp Med Biol Source Type: research