KTN1 介导的未折叠蛋白反应保护角质形成细胞免受电离辐射诱导的 DNA 损伤

IF 4.6
Xinli Niu , Yi Shen , Yunhan Wen, Xing Mi, Jing Xie, Ying Zhang, Zhenhua Ding
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引用次数: 0

摘要

未折叠蛋白反应(UPR)是抵御各种压力的细胞保护机制之一,对皮肤的正常功能至关重要。电离辐射(IR)引起的皮肤损伤是放疗的常见副作用,目前还不清楚 UPR 如何影响 IR 诱导的皮肤损伤。为了验证 UPR 对 IR 诱导的角质细胞 DNA 损伤的影响,以及内质网(ER)蛋白 KTN1 与 UPR 的关系。所有实验均在角质形成细胞模型上进行:HaCaT和HEK-A。透射电子显微镜和免疫印迹法分别检测了ER腔和KTN1及UPR通路蛋白(PERK、IRE1α和ATF6)的表达水平。使用 UPR 抑制剂 4-PBA 检测其对 DNA 损伤和细胞增殖的影响。随后,检测了KTN1缺失对IR后UPR、DNA损伤和细胞增殖的影响。使用曲卡霉素重新激活UPR,然后检测其对DNA损伤的影响。IR激活了角质形成细胞的UPR。抑制 UPR 会加重 DNA 损伤并抑制 IR 后的细胞增殖。红外线会上调 KTN1 的表达,而 KTN1 的消耗会减少 ER 的扩张和 UPR 相关蛋白的表达。此外,KTN1缺失加重了DNA损伤,抑制了细胞增殖,但UPR的重新激活可逆转这种情况。KTN1缺失会通过抑制UPR加重IR诱导的角质细胞DNA损伤。我们的发现为角质形成细胞应对红外诱导损伤的机制提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
KTN1 mediated unfolded protein response protects keratinocytes from ionizing radiation-induced DNA damage

Background

The unfolded protein response (UPR) is one of the cytoprotective mechanisms against various stresses and essential for the normal function of skin. Skin injury caused by ionizing radiation (IR) is a common side effect of radiotherapy and it is unclear how UPR affects IR-induced skin injury.

Objectives

To verify the effect of UPR on IR-induced DNA damage in keratinocytes and the relation between an endoplasmic reticulum (ER) protein KTN1 and UPR.

Methods

All experiments were performed on keratinocytes models: HaCaT and HEK-A. ER lumen and the expression levels of KTN1 and UPR pathway proteins (PERK, IRE1α and ATF6) were examined by transmission electron microscopy and immunoblotting, respectively. 4-PBA, an UPR inhibitor, was used to detected its effects on DNA damage and cell proliferation. Subsequently, the effects of KTN1 deletion on UPR, DNA damage and cell proliferation after IR were detected. Tunicamycin was used to reactivate UPR and then we examined its effects on DNA damage.

Results

UPR was activated by IR in keratinocytes. Inhibition of UPR aggravated DNA damage and suppressed cell proliferation after IR. KTN1 expression was upregulated by IR and KTN1 depletion reduced ER expansion and the expression of UPR-related proteins. Moreover, KTN1 depletion aggravated DNA damage and suppressed cell proliferation after IR could reversed by reactivation of UPR.

Conclusion

KTN1 deletion aggravates IR-induced keratinocyte DNA damage via inhibiting UPR. Our findings provide new insights into the mechanisms of keratinocytes in response to IR-induced damage.

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