Abstract
Chronic exposure to n-hexane, a widely used organic solvent in industry, induces central-peripheral neuropathy, which is mediated by its active metabolite, 2,5-hexanedione (HD). We recently reported that transplantation of bone marrow-mesenchymal stem cells (BMSC) significantly ameliorated HD-induced neuronal damage and motor deficits in rats. However, the mechanisms remain unclear. Here, we reported that inhibition of HD-induced autophagy contributed to BMSC-afforded protection. BMSC transplantation significantly reduced the levels of microtubule-associated protein 1 light chain 3-II (LC3-II) and the degradation of sequestosome-1 (p62) in the spinal cord and sciatic nerve of HD-intoxicated rats. Downregulation of autophagy by BMSC was also confirmed in VSC4.1 cells exposed to HD. Moreover, inhibition of autophagy by PIK III mitigated the neurotoxic effects of HD and, meanwhile, abolished BMSC-afforded neuroprotection. Furthermore, we found that BMSC failed to interfere with Beclin 1, but promoted activation of mammalian target of rapamycin (mTOR). Unc-like kinse 1 (ULK1) was further recognized as the downstream target of mTOR responsible for BMSC-mediated inhibition of autophagy. Altogether, BMSC transplantation potently ameliorated HD-induced autophagy through beclin 1-independent activation of mTOR pathway, providing a novel insight for the therapeutic effects of BMSC against n-hexane and other environmental toxicants-induced neurotoxicity.
Highlights
Chronic exposure to n-hexane, a widely used organic solvent in industry, induces central-peripheral neuropathy, which is mediated by its active metabolite, 2,5-hexanedione (HD)
We demonstrated that bone marrow-mesenchymal stem cells (BMSC) transplantation inhibited activation of autophagy in HD-intoxicated rats through beclin 1-independent activaton of mammalian target of rapamycin (mTOR) pathway, which might be responsible for BMSC-afforded neuroprotection
The salient features of our findings are: (1) BMSC reduced the levels of light chain 3-II (LC3-II) and the degradation of p62 in HD-intoxicated rats; (2) BMSC had no effect on Beclin 1, but promoted activation of mTOR/Unc-like kinse 1 (ULK1) pathway; (3) Inhibition of mTOR pathway blocked the inhibitory effects of BMSC on autophagic activation
Summary
Chronic exposure to n-hexane, a widely used organic solvent in industry, induces central-peripheral neuropathy, which is mediated by its active metabolite, 2,5-hexanedione (HD). We recently reported that transplantation of bone marrow-mesenchymal stem cells (BMSC) significantly ameliorated HDinduced neuronal damage and motor deficits in rats. BMSC transplantation potently ameliorated HD-induced autophagy through beclin 1-independent activation of mTOR pathway, providing a novel insight for the therapeutic effects of BMSC against n-hexane and other environmental toxicants-induced neurotoxicity. The potent protective effects displayed by conditioned medium prepared from BMSC (BMSC-CM) against HD-induced apoptosis were observed in PC12 cells, which was a rat pheochromocytoma cell line and possessed properties of neurons[9]. We hypothesized that inactivation of autophagy in n-hexane-induced neuropathy might be responsible for BMSC transplantation-elicited neuroprotection
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