Metformin Activates an Atypical PKC-CBP Pathway to Promote Neurogenesis and Enhance Spatial Memory Formation

Wang J.; Gallagher, D; DeVito, LM; Cancino, GI; Tsui, D; He, L.; Keller, GM; Frankland, PW; Kaplan, DR; Miller, FD

Abstract

Although endogenous recruitment of adult neural stem cells has been proposed as a therapeutic strategy, clinical approaches for achieving this are lacking. Here, we show that metformin, a widely used drug, promotes neurogenesis and enhances spatial memory formation. Specifically, we show that an atypical PKC-CBP pathway is essential for the normal genesis of neurons from neural precursors and that metformin activates this pathway to promote rodent and human neurogenesis in culture. Metformin also enhances neurogenesis in the adult mouse brain in a CBP-dependent fashion, and in so doing enhances spatial reversal learning in the water maze. Thus, metformin, by activating an aPKC-CBP pathway, recruits neural stem cells and enhances neural function, thereby providing a candidate pharmacological approach for nervous system therapy.

Más información

Título según WOS: Metformin Activates an Atypical PKC-CBP Pathway to Promote Neurogenesis and Enhance Spatial Memory Formation
Título de la Revista: CELL STEM CELL
Volumen: 11
Número: 1
Editorial: Cell Press
Fecha de publicación: 2012
Página de inicio: 23
Página final: 35
Idioma: English
DOI:

10.1016/j.stem.2012.03.016

Notas: ISI