MiRNA-210 Modulates a Nickel-Induced Cellular Energy Metabolism Shift by Repressing the Iron–sulfur Cluster Assembly Proteins ISCU1/2 in Neuro-2a Cells

M He,Y Lu,S Xu, L Mao,L Zhang,W Duan,C Liu,H Pi,Y Zhang,M Zhong,Z Yu, Z Zhou

Cell Death & Disease（2014）SCI 1区SCI 2区

Cited 47|Views18

Abstract

The cellular energy metabolism shift, characterized by the inhibition of oxidative phosphorylation (OXPHOS) and enhancement of glycolysis, is involved in nickel-induced neurotoxicity. MicroRNA-210 (miR-210) is regulated by hypoxia-inducible transcription factor-1α (HIF-1α) under hypoxic conditions and controls mitochondrial energy metabolism by repressing the iron–sulfur cluster assembly protein (ISCU1/2). ISCU1/2 facilitates the assembly of iron–sulfur clusters (ISCs), the prosthetic groups that are critical for mitochondrial oxidation-reduction reactions. This study aimed to investigate whether miR-210 modulates alterations in energy metabolism after nickel exposure through suppressing ISCU1/2 and inactivating ISCs-containing metabolic enzymes. We determined that NiCl2 exposure leads to a significant accumulation of HIF-1α, rather than HIF-1β, in Neuro-2a cells. The miR-210 overexpression and ISCU1/2 downregulation was observed in a dose- and time-dependent manner. The gain-of-function and loss-of-dysfunction assays revealed that miR-210 mediated the ISCU1/2 suppression, energy metabolism alterations, and ISC-containing metabolic enzyme inactivation after nickel exposure. In addition, the impact of miR-210 on ISC-containing metabolic enzymes was independent from cellular iron regulation. Overall, these data suggest that repression of miR-210 on ISCU1/2 may contribute to HIF-1α-triggered alterations in energy metabolism after nickel exposure. A better understanding of how nickel impacts cellular energy metabolism may facilitate the elucidation of the mechanisms by which nickel affects the human health.

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Key words

nickel,energy metabolism shift,miR-210,ISCU1/2,glycolysis

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