Rapamycin-sensitive Mechanisms Confine the Growth of Fission Yeast Below the Temperatures Detrimental to Cell Physiology

Overview

Journal iScience

Publisher Cell Press

Date 2024 Jan 25

PMID 38269097

Authors

Yuichi Morozumi

Fontip Mahayot

Yukiko Nakase

Jia Xin Soong

Sayaka Yamawaki

Fajar Sofyantoro

Yuki Imabata

Arisa H Oda

Miki Tamura

Shunsuke Kofuji

Yutaka Akikusa

Ayu Shibatani

Kunihiro Ohta

Kazuhiro Shiozaki

Affiliations

Soon will be listed here.

Abstract

Cells cease to proliferate above their growth-permissible temperatures, a ubiquitous phenomenon generally attributed to heat damage to cellular macromolecules. We here report that, in the presence of rapamycin, a potent inhibitor of Target of Rapamycin Complex 1 (TORC1), the fission yeast can proliferate at high temperatures that usually arrest its growth. Consistently, mutations to the TORC1 subunit RAPTOR/Mip1 and the TORC1 substrate Sck1 significantly improve cellular heat resistance, suggesting that TORC1 restricts fission yeast growth at high temperatures. Aiming for a more comprehensive understanding of the negative regulation of high-temperature growth, we conducted genome-wide screens, which identified additional factors that suppress cell proliferation at high temperatures. Among them is Mks1, which is phosphorylated in a TORC1-dependent manner, forms a complex with the 14-3-3 protein Rad24, and suppresses the high-temperature growth independently of Sck1. Our study has uncovered unexpected mechanisms of growth restraint even below the temperatures deleterious to cell physiology.

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