从健康供体和II型糖尿病患者分离的角质形成细胞对电离辐射的细胞反应的比较。

Hae Jin Lee, Hyuntaik Im, Hae-June Lee, Hyunggee Kim, Jae Youn Yi
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引用次数: 0

摘要

目的:由于使用辐射的治疗设备种类不断增加,暴露于低剂量和高剂量辐射的可能性不断增加。皮肤是身体的最外层,因此直接暴露在辐射引起的损伤中。尤其是糖尿病患者的皮肤很脆弱,很容易受到辐射等外部刺激的损伤。然而,电离辐射对糖尿病皮肤的损伤和细胞反应尚未得到详细研究。在这项研究中,我们研究了几种辐射剂量对正常角质形成细胞和II型糖尿病患者角质形成细胞的影响,特别关注DNA损伤。材料和方法:细胞对低剂量辐射的反应(0.1 Gy)和高剂量辐射(0.5和2 Gy)。通过流式细胞术进行细胞周期分析,并使用3-[4,5-二甲基噻唑-2-基]-2,5二苯基四唑溴(MTT)测定法分析细胞活力。通过免疫印迹分析检测与DNA损伤反应(DDR)、修复信号通路和细胞凋亡相关的蛋白质。使用免疫组织化学在3D皮肤类器官中另外检测细胞凋亡和细胞分化。结果:与相应的对照组相比,0.1 正常和糖尿病II型角质形成细胞的Gy照射。另一方面,在暴露于2 Gy照射。辐射剂量2 Gy、DDR和修复信号通路的激活、细胞凋亡和细胞分化在这两种细胞类型中都增加了,而活力降低了。值得注意的是,这些差异在正常人中比糖尿病II型角质形成细胞更明显。结论:正常角质形成细胞对辐射诱导的损伤和恢复的反应比II型糖尿病角质形成细胞更强。
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Comparison of cellular responses to ionizing radiation in keratinocytes isolated from healthy donors and type II diabetes patients.

Purpose: Due to the expanding repertoire of treatment devices that use radiation, the possibility of exposure to both low-dose and high-dose radiation continues to increase. Skin is the outermost part of the body and thus directly exposed to radiation-induced damage. In particular, the skin of diabetes patients is fragile and easily damaged by external stimuli, such as radiation. However, damage and cellular responses induced by ionizing irradiation in diabetic skin have not been explored in detail. In this study, we investigated the effects of several irradiation dose on normal keratinocytes and those from type II diabetes patients, with particular focus on DNA damage.

Materials and methods: Cellular responses to low-dose radiation (0.1 Gy) and high-dose radiation (0.5 and 2 Gy) were evaluated. Cell cycle analysis was conducted via flow cytometry and cell viability analyzed using the 3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide (MTT) assay. Proteins related to the DNA damage response (DDR) and repair signaling pathways and apoptosis were detected via immunoblot analysis. Apoptosis and cell differentiation were additionally examined in 3D skin organoids using immunohistochemistry.

Results: Compared to respective control groups, no significant changes were observed in cell cycle, DDR and repair mechanisms, cell survival, and differentiation in response to 0.1 Gy irradiation in both normal and diabetes type II keratinocytes. On the other hand, the cell cycle showed an increase in the G2/M phase in both cell types following exposure to 2 Gy irradiation. At radiation doses 2 Gy, activation of the DDR and repair signaling pathways, apoptosis, and cell differentiation were increased and viability was decreased in both cell types. Notably, these differences were more pronounced in normal than diabetes type II keratinocytes.

Conclusions: Normal keratinocytes respond more strongly to radiation-induced damage and recovery than diabetes type II keratinocytes.

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