Production of PtdInsP3 at endomembranes is triggered by receptor endocytosis

Abstract

Phosphatidylinositol-3,4,5-trisphosphate (PtdInsP₃) regulates diverse cellular functions, including cell proliferation and apoptosis, and has roles in the progression of diabetes and cancer. However, little is known about its production. Here, we describe fluorescent indicators for PtdInsP₃ that allow a spatio-temporal examination of PtdInsP₃ production in single living cells. After ligand stimulation, PtdInsP₃ levels increased to a larger extent at the endomembranes (that is, the endoplasmic reticulum and the Golgi) than at the plasma membrane. This increase was found to originate from in situ production at the endomembranes, a process stimulated directly by receptor tyrosine kinases endocytosed from the plasma membrane to the endomembranes. The demonstration of PtdInsP₃ production through receptor endocytosis addresses a long-standing question about how signalling pathways downstream of PtdInsP₃ are activated at intracellular compartments remote from the plasma membrane.