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Coordinated regulation of <scp>TORC2</scp> signaling by <scp>MCC</scp>/eisosome‐associated proteins, Pil1 and tetraspan membrane proteins during the stress response

Ken‐taro Sakata, Keisuke Hashii, Koushiro Yoshizawa, Yuhei O. Tahara, Kaori Yae, Ryohei Tsuda, Naotaka Tanaka, Tatsuya Maeda, Makoto Miyata, Mitsuaki Tabuchi

2022Molecular Microbiology18 citationsDOI

Abstract

MCCs are linear invaginations of the yeast plasma membrane that form stable membrane microdomains. Although over 20 proteins are localized in the MCCs, it is not well understood how these proteins coordinately maintain normal MCC function. Pil1 is a core eisosome protein and is responsible for MCC-invaginated structures. In addition, six-tetraspan membrane proteins (6-Tsp) are localized in the MCCs and classified into two families, the Sur7 family and Nce102 family. To understand the coordinated function of these MCC proteins, single and multiple deletion mutants of Pil1 and 6-Tsp were generated and their MCC structure and growth under various stresses were investigated. Genetic interaction analysis revealed that the Sur7 family and Nce102 function in stress tolerance and normal eisosome assembly, respectively, by cooperating with Pil1. To further understand the role of MCCs/eisosomes in stress tolerance, we screened for suppressor mutants using the SDS-sensitive phenotype of pil1Δ 6-tspΔ cells. This revealed that SDS sensitivity is caused by hyperactivation of Tor kinase complex 2 (TORC2)-Ypk1 signaling. Interestingly, inhibition of sphingolipid metabolism, a well-known downstream pathway of TORC2-Ypk1 signaling, did not rescue the SDS-sensitivity of pil1Δ 6-tspΔ cells. These results suggest that Pil1 and 6-Tsp cooperatively regulate TORC2 signaling during the stress response.

Topics & Concepts

BiologyCell biologyMembrane proteinSignal transductionMutantPhenotypePhosphorylationGeneticsMembraneGeneCellular transport and secretionFungal and yeast genetics researchEndoplasmic Reticulum Stress and Disease