Abstract
BACKGROUND:The protein kinase Target Of Rapamycin (TOR) is a nexus for the regulation of eukaryotic cell growth.TOR assembles into one of two distinct signalling complexes,TOR complex 1 (TORC1) and TORC2 (mTORC1/2 in mammals),with a set of largely non-overlapping protein partners.(m)TORC 1 activation occurs in response to a series of stimuli relevant to cell growth,including nutrient availability,growth factor signals and stress,and regulates much of the cell's biosynthetic activity,from proteins to lipids,and recycling through autophagy.mTORC1 regulation is of great therapeutic significance,since in humans many of these signalling complexes,alongside subunits of mTORC1 itself,are implicated in a wide variety of pathophysiologies,including multiple types of cancer,neurological disorders,neurodegenerative diseases and metabolic disorders including diabetes.METHODOLOGY:Recent years have seen numerous structures determined of (m)TOR,which have provided mechanistic insight into (m)TORC 1 activation in particular,however the integration of cellular signals occurs upstream of the kinase and remains incompletely understood.Here we have collected and analysed in detail as many as possible of the molecular and structural studies which have shed light on (m)TORC 1 repression,activation and signal integration.CONCLUSIONS:A molecular understanding of this signal integration pathway is required to understand how (m)TORC 1 activation is reconciled with the many diverse and contradictory stimuli affecting cell growth.We discuss the current level of molecular understanding of the upstream components of the (m)TORC1 signalling pathway,recent progress on this key biochemical frontier,and the future studies necessary to establish a mechanistic understanding of this master-switch for eukaryotic cell growth.
基金项目
This work was supported by the Wellcome Trust and the Royal Society through a Sir Henry Dale Fellowship(206212/Z/17/Z)
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维普
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