Plasma membrane carries out multiple physiological functions that require its dynamic and tightly regulated organization into specialized domains of different size, stability, and lipid/protein composition. Sphingolipids are a group of lipids in which the plasma membrane is particularly enriched, thus being crucial for its structure and function. A specific type of sphingolipid-enriched plasma membrane domains, where ergosterol is depleted and lipids are tightly packed in a rigid gel phase, has recently been found in several fungal species, including yeasts and moulds. After presenting the main biophysical features of gel domains and the experimental method for their detection in the fungal plasma membrane, we review these sphingolipid-enriched gel domains and illustrate their importance to both unicellular and multicellular fungi. First, the biophysical properties of the fungal sphingolipid-enriched domains will be analysed taking into consideration the plasma membrane sphingolipidome. Next, their possible biological roles will be summarized, including their relations with plasma membrane compartments and involvement in stress responses. Moreover, since the plasma membrane is a target for several antifungal compounds, a biophysical connection between sphingolipid-enriched domains and antifungal action will be explored.
Keywords: Neurospora crassa; Saccharomyces cerevisiae; antifungal agents; ergosterol; gel domains; glucosylceramides; inositolphosphorylceramides; membrane compartments MCC and MCP; plasma membrane; sphingolipid domains.
© 2020 Federation of European Biochemical Societies.