|  Help  |  About  |  Contact Us

Publication : Slfn2 mutation-induced loss of T-cell quiescence leads to elevated de novo sterol synthesis.

First Author  Omar I Year  2017
Journal  Immunology Volume  152
Issue  3 Pages  484-493
PubMed ID  28672048 Mgi Jnum  J:247113
Mgi Id  MGI:5918026 Doi  10.1111/imm.12785
Citation  Omar I, et al. (2017) Slfn2 mutation-induced loss of T-cell quiescence leads to elevated de novo sterol synthesis. Immunology 152(3):484-493
abstractText  Acquisition of a 'quiescence programme' by naive T cells is important to provide a stress-free environment and resistance to apoptosis while preserving their responsiveness to activating stimuli. Therefore, the survival and proper function of naive T cells depends on their ability to maintain quiescence. Recently we demonstrated that by preventing chronic unresolved endoplasmic reticulum (ER) stress, Schlafen2 (Slfn2) maintains a stress-free environment to conserve a pool of naive T cells ready to respond to a microbial invasion. These findings strongly suggest an intimate association between quiescence and stress signalling. However, the connection between ER stress conditions and loss of T-cell quiescence is unknown. Here we demonstrate that homeostasis of cholesterol and lipids, is disrupted in T cells and monocytes from Slfn2-mutant, elektra, mice with higher levels of lipid rafts and lipid droplets found in these cells. Moreover, elektra T cells had elevated levels of free cholesterol and cholesteryl ester due to increased de novo synthesis and higher levels of the enzyme HMG-CoA reductase. As cholesterol plays an important role in the transition of T cells from resting to active state, and ER regulates cholesterol and lipid synthesis, we suggest that regulation of cholesterol levels through the prevention of ER stress is an essential component of the mechanism by which Slfn2 regulates quiescence.
Quick Links:
 
Quick Links:
 

Expression

Publication --> Expression annotations

 

Other

3 Bio Entities

Trail: Publication

0 Expression