Abstract
Nitric oxide (NO)-induced apoptosis in neurons is an important cause of neurodegenerative disease in humans. The cold-inducible protein RBM3 mediates the protective effects of cooling on apoptosis induced by various insults. However, whether RBM3 protects neural cells from NO-induced apoptosis is unclear. This study aimed to investigate the neuroprotective effect of RBM3 on NO-induced apoptosis in human SH-SY5Y neuroblastoma cells. Firstly, we demonstrated that mild hypothermia (32 °C) induces RBM3 expression and confers a potent neuroprotective effect on NO-induced apoptosis, which was substantially diminished when RBM3 was silenced by siRNA. Moreover, overexpression of RBM3 exhibited a strong protective effect against NO-induced apoptosis. Signaling pathway screening demonstrated that only p38 inhibition by RBM3 provided neuroprotective effect, although RBM3 overexpression could affect the activation of p38, JNK, ERK, and AKT signaling in response to NO stimuli. Notably, RBM3 overexpression also blocked the activation of p38 signaling induced by transforming growth factor-β1. Furthermore, both RBM3 overexpression and mild hypothermia abolished the induction of miR-143 by NO, which was shown to mediate the cytotoxicity of NO in a p38-dependent way. These findings suggest that RBM3 protects neuroblastoma cells from NO-induced apoptosis by suppressing p38 signaling, which mediates apoptosis through miR-143 induction.
Highlights
Nitric oxide (NO)-induced apoptosis in neurons is an important cause of neurodegenerative disease in humans
The present study showed that both mild hypothermia and RNA-binding motif protein 3 (RBM3) rescue human SH-SY5Y neuroblastoma cells from nitric oxide (NO)-induced apoptosis
To determine whether cooling protects neural cells from NO-induced apoptosis, human SH-SY5Y neuroblastoma cells were treated with various concentrations of Sodium nitroprusside (SNP)
Summary
Nitric oxide (NO)-induced apoptosis in neurons is an important cause of neurodegenerative disease in humans. The excessive NO derived from SNP induces neural cell apoptosis, which is involved in various signaling pathways, such as mitogen-activated protein kinases (MAPKs) p38, extracellular signal-regulated kinase (ERK), c-Jun N-terminal kinase (JNK), and AKT signaling and adenosine monophosphate–activated protein kinase (AMPK) signaling[6,11]. Among these signaling pathways, p38 MAPK may be the most crucial to the mediation of NO toxicity. SH-SY5Y cells were pre-cultured under normothermic (37 °C) or mild hypothermic (32 °C) conditions for 1 d and treated with (A) various concentrations of SNP at 37 °C for 16 h, or (B) treated with 0.5 mM SNP for
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