Functional annotation of insulin-responsive genes in human adipocytes reveals PLCXD1 as a lipid storage regulator
Ontology highlight
ABSTRACT: Insulin-driven gene regulation is central to adipocyte function, but the roles of many of these genes in lipid metabolism remain unclear. Here, we integrate three transcriptomic datasets to identify insulin-responsive genes and define their functions in human adipocytes using a multiparametric lipid turnover screen. Our results reveal four major clusters involved in metabolic regulation, transcription, stress responses, and lipid metabolism. Among lipid-related hits, phospholipase C X domain-containing protein-1 (PLCXD1) emerged as a regulator of insulin-stimulated lipogenesis, without affecting lipolysis or adipogenesis. PLCXD1 is induced by insulin via sterol regulatory element-binding proteins, a response attenuated in insulin resistant states. This atypical phospholipase is genetically associated with fat mass-related traits, localizes to early endosomes and catalyzes phosphatidylinositol conversion into diacylglycerol. Through structure-function analyses, we show that PLCXD1 catalytic activity is required for insulin-stimulated lipogenesis. Altogether, our results uncover PLCXD1 as an insulin-regulated enzyme linking endosomal phosphoinositide metabolism to lipid storage in adipocytes.
ORGANISM(S): Homo sapiens
PROVIDER: GSE335322 | GEO | 2026/07/03
REPOSITORIES: GEO
ACCESS DATA