Glucose induced MAPK signalling influences NeuroD1-mediated activation and nuclear localization

Abstract

The helix-loop-helix transcription factor NeuroD1 (also known as Beta2) is involved in beta-cell survival during development and insulin gene transcription in adults. Here we show NeuroD1 is primarily cytoplasmic at non-stimulating glucose concentrations (i.e. 3 mM) in MIN6 beta-cells and nuclear under stimulating conditions (i.e. 20 mM). Quantification revealed that NeuroD1 was in 40-45% of the nuclei at 3 mM and 80-90% at 20 mM. Treatment with the MEK inhibitor PD98059 or substitution of a serine for an alanine at a potential mitogen-activated protein kinase phosphorylation site (S274) in NeuroD1 significantly increased the cytoplasmic level at 20 mM glucose. The rise in NeuroD1-mediated transcription in response to glucose also correlated with the change in sub-cellular localization, a response attenuated by PD98059. The data strongly suggest that glucose-stimulation of the MEK-ERK signalling pathway influences NeuroD1 activity at least partially through effects on sub-cellular localization.