Yeast cells actively tune their membranes to phase separate at temperatures that scale with growth temperatures

Membranes of vacuoles, the lysosomal organelles in yeast, undergo extraordinary changes during the cells normal growth cycle. The cycle begins with a stage of rapid cell growth. Then, as glucose becomes scarce, growth slows, and the vacuole membranes phase-separate into micron-scale liquid domains. Recent studies suggest that these domains are important for yeast survival by laterally organizing membrane proteins that play a key role in a central signaling pathway conserved among eukaryotes (TORC1). An outstanding question in the field has been whether yeast stringently regulate the phase transition and how they respond to new physical conditions. Here, we measure transition temperatures - an increase of roughly 15{degrees}C returns vacuole membranes to a state that appears uniform across a range of growth temperatures. We find that broad populations of yeast grown at a single temperature regulate the transition to occur over a surprisingly narrow temperature range. Moreover, the transition temperature scales linearly with the growth temperature, demonstrating that the cells physiologically adapt to maintain proximity to the transition. Next, we ask how yeast adjust their membranes to achieve phase separation. Specifically, we test how levels of ergosterol, the main sterol in yeast, induce or eliminate membrane domains. We isolate vacuoles from yeast during their rapid stage of growth, when their membranes do not natively exhibit domains. We find that membrane domains materialize when ergosterol is depleted, contradicting the assumption that increases in ergosterol cause membrane phase separation in vivo, and in agreement with prior studies that use artificial and cell-derived membranes. SIGNIFICANCE STATEMENTPhase separation in membranes creates domains enriched in specific components. To date, the best example of micron-scale phase separation in the membrane of an unperturbed, living cell occurs in a yeast organelle called the vacuole. Recent studies indicate that the phases are functionally important, enabling yeast survival during periods of cellular stress. We have discovered that yeast regulate this phase transition; the temperature at which membrane components mix into a single phase is ~15{degrees}C above the growth temperature. To maintain this offset, yeast may tune the level of ergosterol (a molecule that is structurally similar to cholesterol) in their membranes. We find that reducing sterol levels in vacuole membranes causes them to phase separate, in contrast to previous assumptions.