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Microdomain Protein Nce102 Is a Local Sensor of Plasma Membrane Sphingolipid Balance

Jakub Zahumenský, Caroline Mota Fernandes, Petra Veselá, Maurizio Del Poeta, James B. Konopka, J Malínský

2022Microbiology Spectrum18 citationsDOIOpen Access PDF

Abstract

Microorganisms are challenged constantly by their rapidly changing environment. To survive, they have developed diverse mechanisms to quickly perceive stressful situations and adapt to them appropriately. The primary site of both stress sensing and adaptation is the plasma membrane. We identified the yeast protein Nce102 as a marker of local sphingolipid levels and fluidity in the plasma membrane. Nce102 is an important structural and functional component of the membrane compartment Can1 (MCC), a plasma membrane microdomain stabilized by a large cytosolic hemitubular protein scaffold, the eisosome. The MCC/eisosomes are widely conserved among fungi and unicellular algae. To determine if Nce102 carries out similar functions in other organisms, we analyzed the human fungal pathogen Candida albicans and found that Nce102 responds to sphingolipid levels also in this organism, which has potential applications for the development of novel therapeutic approaches. The presented study represents a valuable model for how organisms regulate plasma membrane sphingolipids.

Topics & Concepts

SphingolipidBiologySaccharomyces cerevisiaeCell biologyLipid microdomainCeramideBiochemistryMembraneYeastApoptosisCellular transport and secretionEndoplasmic Reticulum Stress and DiseaseFungal and yeast genetics research