Abstract
Different types of cellular membranes have unique lipid compositions that are important for their functional identity. PI(4,5)P2 is enriched in the plasma membrane where it contributes to local activation of key cellular events, including actomyosin contraction and cytokinesis. However, how cells prevent PI(4,5)P2 from accumulating in intracellular membrane compartments, despite constant intermixing and exchange of lipid membranes, is poorly understood. Using the C. elegans early embryo as our model system, we show that the evolutionarily conserved lipid transfer proteins, PDZD-8 and TEX-2, act together with the PI(4,5)P2 phosphatases, OCRL-1 and UNC-26/synaptojanin, to prevent the build-up of PI(4,5)P2 on endosomal membranes. In the absence of these four proteins, large amounts of PI(4,5)P2 accumulate on endosomes, leading to embryonic lethality due to ectopic recruitment of proteins involved in actomyosin contractility. PDZD-8 localizes to the endoplasmic reticulum and regulates endosomal PI(4,5)P2 levels via its lipid harboring SMP domain. Accumulation of PI(4,5)P2 on endosomes is accompanied by impairment of their degradative capacity. Thus, cells use multiple redundant systems to maintain endosomal PI(4,5)P2 homeostasis.
Highlights
Different types of cellular membranes have unique lipid compositions that are important for their functional identity
We have demonstrated that endosomal PI(4,5)P2 homeostasis is maintained during early embryogenesis in vivo by the synaptotagmin-like mitochondrial-lipid binding protein (SMP) proteins, PDZD-8 and TEX-2
Key findings of the current study are the following: 1. Using C. elegans early embryos as our in vivo model system, we found that depleting all four SMP proteins led to accumulation of PI(4,5)P2 on endosomes
Summary
Different types of cellular membranes have unique lipid compositions that are important for their functional identity. PI(4,5)P2 is enriched in the plasma membrane where it contributes to local activation of key cellular events, including actomyosin contraction and cytokinesis. How cells prevent PI(4,5)P2 from accumulating in intracellular membrane compartments, despite constant intermixing and exchange of lipid membranes, is poorly understood. Cells establish and maintain specific lipid compositions within different cellular membranes[1]. Recruitment of these proteins to the contractile ring—a unique region of the PM—is essential for cleavage furrow ingression and subsequent cytokinesis[10,11,12,13]. Despite the critical importance of PI(4,5)P2 in these cellular processes, the mechanisms that prevent PI(4,5)P2 from accumulating in intracellular membrane compartments are not fully understood
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