Heat-mediated reduction of apoptosis in UVB-damaged keratinocytes in vitro and in human skin ex vivo.

Q2 Medicine BMC Dermatology Pub Date : 2016-05-26 DOI:10.1186/s12895-016-0043-4
Leslie Calapre, Elin S Gray, Sandrine Kurdykowski, Anthony David, Prue Hart, Pascal Descargues, Mel Ziman
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引用次数: 24

Abstract

Background: UV radiation induces significant DNA damage in keratinocytes and is a known risk factor for skin carcinogenesis. However, it has been reported previously that repeated and simultaneous exposure to UV and heat stress increases the rate of cutaneous tumour formation in mice. Since constant exposure to high temperatures and UV are often experienced in the environment, the effects of exposure to UV and heat needs to be clearly addressed in human epidermal cells.

Methods: In this study, we determined the effects of repeated UVB exposure 1 kJ/m(2) followed by heat (39 °C) to human keratinocytes. Normal human ex vivo skin models and primary keratinocytes (NHEK) were exposed once a day to UVB and/or heat stress for four consecutive days. Cells were then assessed for changes in proliferation, apoptosis and gene expression at 2 days post-exposure, to determine the cumulative and persistent effects of UV and/or heat in skin keratinocytes.

Results: Using ex vivo skin models and primary keratinocytes in vitro, we showed that UVB plus heat treated keratinocytes exhibit persistent DNA damage, as observed with UVB alone. However, we found that apoptosis was significantly reduced in UVB plus heat treated samples. Immunohistochemical and whole genome transcription analysis showed that multiple UVB plus heat exposures induced inactivation of the p53-mediated stress response. Furthermore, we demonstrated that repeated exposure to UV plus heat induced SIRT1 expression and a decrease in acetylated p53 in keratinocytes, which is consistent with the significant downregulation of p53-regulated pro-apoptotic and DNA damage repair genes in these cells.

Conclusion: Our results suggest that UVB-induced p53-mediated cell cycle arrest and apoptosis are reduced in the presence of heat stress, leading to increased survival of DNA damaged cells. Thus, exposure to UVB and heat stress may act synergistically to allow survival of damaged cells, which could have implications for initiation skin carcinogenesis.

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热介导的体外和体外人皮肤损伤角质形成细胞凋亡的减少。
背景:紫外线辐射在角质形成细胞中诱导显著的DNA损伤,是已知的皮肤癌发生的危险因素。然而,先前有报道称,重复和同时暴露于紫外线和热应激会增加小鼠皮肤肿瘤的形成率。由于在环境中经常经历持续暴露于高温和紫外线,因此需要明确解决暴露于紫外线和热量对人体表皮细胞的影响。方法:在本研究中,我们测定了重复暴露于1 kJ/m(2)的UVB后加热(39°C)对人角质形成细胞的影响。正常人离体皮肤模型和原代角质形成细胞(NHEK)每天暴露一次UVB和/或热应激,连续4天。然后在暴露后2天评估细胞增殖、凋亡和基因表达的变化,以确定紫外线和/或热量对皮肤角质形成细胞的累积和持续影响。结果:使用离体皮肤模型和体外原代角质形成细胞,我们发现UVB加热处理的角质形成细胞表现出持续的DNA损伤,与单独使用UVB观察到的结果相同。然而,我们发现在UVB加热处理的样品中,细胞凋亡明显减少。免疫组织化学和全基因组转录分析表明,多次UVB加热暴露诱导p53介导的应激反应失活。此外,我们证明了反复暴露于紫外线加热诱导角化细胞中SIRT1表达和乙酰化p53减少,这与这些细胞中p53调控的促凋亡和DNA损伤修复基因的显著下调一致。结论:uvb诱导的p53介导的细胞周期阻滞和凋亡在热应激下减少,导致DNA损伤细胞的存活增加。因此,暴露于UVB和热应激可能协同作用,使受损细胞存活,这可能对皮肤癌的发生有影响。
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BMC Dermatology
BMC Dermatology Medicine-Dermatology
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期刊介绍: BMC Dermatology is an open access journal publishing original peer-reviewed research articles in all aspects of the prevention, diagnosis and management of skin disorders, as well as related molecular genetics, pathophysiology, and epidemiology. BMC Dermatology (ISSN 1471-5945) is indexed/tracked/covered by PubMed, MEDLINE, CAS, EMBASE, Scopus and Google Scholar.
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