TY - JOUR AU - LIU Shi-en AU - HU Jun-chi AU - ZHANG Hao AU - XU Pan AU - WAN Wei AU - ZHENG Ming-yue AU - YU Kun-qian AU - DING Hong AU - JIANG Hualiang AU - ZHOU Lu AU - LUO Cheng PY - 2017 TI - Conformation and dynamics of the C-terminal region in human phosphoglycerate mutase 1 JF - Acta Pharmacologica Sinica; Vol 38, No 12 (December 2017): Acta Pharmacologica Sinica Y2 - 2017 KW - N2 - Abstract Phosphoglycerate mutase 1 (PGAM1), an important enzyme in glycolysis, is overexpressed in a number of human cancers, thus has been proposed as a promising metabolic target for cancer treatments. The C-terminal portion of the available crystal structures of PGAM1 and its homologous proteins is partially disordered, as evidenced by weak electron density. In this study, we identified the conformational behavior of the C-terminal region of PGAM1 as well as its role during the catalytic cycle. Using the PONDR-FIT server, we demonstrated that the C-terminal region was intrinsically disordered. We applied the Monte Carlo (MC) method to explore the conformational space of the C-terminus and conducted a series of explicit-solvent molecular dynamics (MD) simulations, and revealed that the C-terminal region is inherently dynamic; large-scale conformational changes in the C-terminal segment led to the structural transition of PGAM1 from the closed state to the open state. Furthermore, the C-terminal segment influenced 2,3-bisphosphoglycerate (2,3-BPG ) binding. The proposed swing model illustrated a critical role of the C-terminus in the catalytic cycle through the conformational changes. In conclusion, the C-terminal region induces large movements of PGAM1 from the closed state to the open state and influences cofactor binding during the catalytic cycle. This report describes the dynamic features of the C-terminal region in detail and should aid in design of novel and efficient inhibitors of PGAM1. A swing mechanism of the C-terminal region is proposed, to facilitate further studies of the catalytic mechanism and the physiological functions of its homologues. UR - http://www.chinaphar.com/article/view/9695