β‐catenin mediates insulin‐like growth factor‐I actions to promote cyclin D1 mRNA expression, cell proliferation and survival in oligodendroglial cultures

Abstract

By promoting cell proliferation, survival and maturation insulin‐like growth factor (IGF)‐I is essential to the normal growth and development of the central nervous system. It is clear that IGF‐I actions are primarily mediated by the type I IGF receptor (IGF1R), and that phosphoinositide 3 (PI3)‐Akt kinases and MAP kinases signal many of IGF‐I‐IGF1R actions in neural cells, including oligodendrocyte lineage cells. The precise downstream targets of these signaling pathways, however, remain to be defined. We studied oligodendroglial cells to determine whether β‐catenin, a molecule that is a downstream target of glycogen synthase kinase‐3β (GSK3β) and plays a key role in the Wnt canonical signaling pathway, mediates IGF‐I actions. We found that IGF‐I increases β‐catenin protein abundance within an hour after IGF‐I‐induced phosphorylation of Akt and GSK3β. Inhibiting the PI3‐Akt pathway suppressed IGF‐I‐induced increases in β‐catenin and cyclin D1 mRNA, while suppression of GSK3β activity simulated IGF‐I actions. Knocking‐down β‐catenin mRNA by RNA interference suppressed IGF‐I‐stimulated increases in the abundance of cyclin D1 mRNA, cell proliferation, and cell survival. Our data suggest that β‐catenin is an important downstream molecule in the PI3‐Akt‐GSK3β pathway, and as such it mediates IGF‐I upregulation of cyclin D1 mRNA and promotion of cell proliferation and survival in oligodendroglial cells.