RNA interference of mTOR gene delays molting process in Eriocheir sinensis.

Abstract

mTOR is a typical and conserved serine/threonine protein kinase that regulates cell growth and metabolism of organisms. Molting is a fundamental biological process in Chinese mitten crab (Eriocheir sinensis) and is monitored by a series of genes and pathways. The structural and functional characteristics of EsmTOR was investigated to determine the role of mTOR in the molting process of. The intact CDS of EsmTOR is 7449bp in length and encodes a polypeptide consisting of 2482 amino acids. EsmTOR was expressed in all eight tissues examined during the three molting stages (postmolt, intermolt andpremolt), with levels fluctuating significantly during the molting. RNA interference of EsmTOR significantly delayed molting, indicating that mTOR may be involved in the molting process of E. sinensis. Meanwhile, a substantial downregulation was observed for the expression of upstream genes involved in amino acid transport (EsSLC7A5 and EsVATB) and downstream genes promoting ribosomal protein synthesis (EsS6K1) in the mTOR signaling pathway, as well as typical molt-related genes (EsMIH and EsEcR) after EsmTOR RNAi treatment. In addition, EsRheb, a molecular marker for tissue growth, was also significantly down-regulated. This study suggests that EsmTOR plays a fundamental role in molting regulation through the SLC7A5-V-ATPase-mTORC1 gene network.