氟化钠通过内质网应激途径诱导 MC3T3-E1 成骨细胞凋亡和自噬。

Sodium fluoride induces apoptosis and autophagy via the endoplasmic reticulum stress pathway in MC3T3-E1 osteoblastic cells.

机构信息

Department of Stomatology, Eye & Ent Hospital of Fudan University, Shanghai, 200031, China.

Department of Pharmacy, Qingdao Central Hospital, Qingdao, 266042, Shandong, China.

出版信息

Mol Cell Biochem. 2019 Apr;454(1-2):77-85. doi: 10.1007/s11010-018-3454-1. Epub 2018 Dec 5.

DOI:10.1007/s11010-018-3454-1

PMID:30519783

Abstract

Fluorosis and bone pathologies can be caused by chronic and/or excessive fluoride intake. Despite this, few studies have been conducted on the cellular mechanisms underlying osteoblast toxicity in the presence of NaF. Here, we investigated the effects of fluoride on MC3T3-E1 cells. We showed that the proliferation of MC3T3-E1 cells was inhibited by exposure to NaF. In addition, apoptosis was induced by NaF, as caspase-associated proteins showed a higher level of expression and apoptotic bodies were formed. Furthermore, endoplasmic reticulum (ER) stress induced by NaF activated the unfolded protein response (UPR) and upregulated the expression of the glucose-regulated proteins 94 (GRP94) and 78 (BiP). Therefore, ER stress plays a vital role in NaF-induced autophagy and apoptosis. Furthermore, apoptosis is promoted following the inhibition of NaF-induced autophagy. In conclusion, under NaF treatment, the ER stress-signaling pathway is activated, leading to apoptosis and autophagy and affecting the proliferation and survival of MC3T3-E1 cells.

摘要

氟中毒和骨骼病变可能是由于慢性和/或过量的氟摄入引起的。尽管如此，目前关于氟化物存在时成骨细胞毒性的细胞机制的研究还很少。在这里，我们研究了氟化物对 MC3T3-E1 细胞的影响。结果表明，NaF 暴露会抑制 MC3T3-E1 细胞的增殖。此外，NaF 诱导了细胞凋亡，因为与半胱氨酸天冬氨酸蛋白酶相关的蛋白表达水平升高，并形成了凋亡小体。此外，NaF 诱导的内质网 (ER) 应激激活了未折叠蛋白反应 (UPR)，并上调了葡萄糖调节蛋白 94 (GRP94) 和 78 (BiP) 的表达。因此，ER 应激在 NaF 诱导的自噬和细胞凋亡中起着至关重要的作用。此外，抑制 NaF 诱导的自噬后会促进细胞凋亡。总之，在 NaF 处理下，内质网应激信号通路被激活，导致细胞凋亡和自噬，并影响 MC3T3-E1 细胞的增殖和存活。

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氟化钠通过内质网应激途径诱导 MC3T3-E1 成骨细胞凋亡和自噬。

Sodium fluoride induces apoptosis and autophagy via the endoplasmic reticulum stress pathway in MC3T3-E1 osteoblastic cells.

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