Fission Yeast Bgs1 Glucan Synthase Participates in the Control of Growth Polarity and Membrane Traffic

Overview

Journal iScience

Publisher Cell Press

Date 2024 Aug 19

PMID 39156640

Authors

Mariona Ramos

Rebeca Martin-Garcia

M Angeles Curto

Laura Gomez-Delgado

M Belen Moreno

Mamiko Sato

Elvira Portales

Masako Osumi

Sergio A Rincon

Pilar Perez

Juan C Ribas

Juan C G Cortes

Affiliations

Soon will be listed here.

Abstract

Rod-shaped fission yeast grows through cell wall expansion at poles and septum, synthesized by essential glucan synthases. Bgs1 synthesizes the linear β(1,3)glucan of primary septum at cytokinesis. Linear β(1,3)glucan is also present in the wall poles, suggesting additional Bgs1 roles in growth polarity. Our study reveals an essential collaboration between Bgs1 and Tea1-Tea4, but not other polarity factors, in controlling growth polarity. Simultaneous absence of Bgs1 function and Tea1-Tea4 causes complete loss of growth polarity, spread of other glucan synthases, and spherical cell formation, indicating this defect is specifically due to linear β(1,3)glucan absence. Furthermore, linear β(1,3)glucan absence induces actin patches delocalization and sterols spread, which are ultimately responsible for the growth polarity loss without Tea1-Tea4. This suggests strong similarities in Bgs1 functions controlling actin structures during cytokinesis and polarized growth. Collectively, our findings unveil that cell wall β(1,3)glucan regulates polarized growth, like the equivalent extracellular matrix in neuronal cells.

Citing Articles

Rho1 and Rgf1 establish a new actin-dependent signal to determine growth poles in yeast independently of microtubules and the Tea1-Tea4 complex.

Garcia P, Celador R, Edreira T, Sanchez Y PLoS Biol. 2024; 22(11):e3002491.

PMID: 39509469 PMC: 11602027. DOI: 10.1371/journal.pbio.3002491.

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