Revealing the UV response of melanocytes in xeroderma pigmentosum group A using patient-derived induced pluripotent stem cells

IF 4.6
Chihiro Takemori , Michiyo Koyanagi-Aoi , Takeshi Fukumoto , Makoto Kunisada , Kazumasa Wakamatsu , Shosuke Ito , Chieko Hosaka , Seiji Takeuchi , Akiharu Kubo , Takashi Aoi , Chikako Nishigori
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Abstract

Background

Xeroderma pigmentosum (XP) is characterized by photosensitivity that causes pigmentary disorder and predisposition to skin cancers on sunlight-exposed areas due to DNA repair deficiency. Patients with XP group A (XP-A) develop freckle-like pigmented maculae and depigmented maculae within a year unless strict sun-protection is enforced. Although it is crucial to study pigment cells (melanocytes: MCs) as disease target cells, establishing MCs in primary cultures is challenging.

Objective

Elucidation of the disease pathogenesis by comparison between MCs differentiated from XP-A induced pluripotent stem cells (iPSCs) and healthy control iPSCs on the response to UV irradiation.

Methods

iPSCs were established from a XP-A fibroblasts and differentiated into MCs. Differences in gene expression profiles between XP-A-iPSC-derived melanocytes (XP-A-iMCs) and Healthy control iPSC-derived MCs (HC-iMCs) were analyzed 4 and 12 h after irradiation with 30 or 150 J/m2 of UV-B using microarray analysis.

Results

XP-A-iMCs expressed SOX10, MITF, and TYR, and showed melanin synthesis. Further, XP-A-iMCs showed reduced DNA repair ability. Gene expression profile between XP-A-iMCs and HC-iMCs revealed that, numerous gene probes that were specifically upregulated or downregulated in XP-A-iMCs after 150-J/m2 of UV-B irradiation did not return to basal levels. Of note that apoptotic pathways were highly upregulated at 150 J/m2 UV exposure in XP-A-iMCs, and cytokine-related pathways were upregulated even at 30 J/m2 UV exposure.

Conclusion

We revealed for the first time that cytokine-related pathways were upregulated even at low-dose UV exposure in XP-A-iMCs. Disease-specific iPSCs are useful to elucidate the disease pathogenesis and develop treatment strategies of XP.

利用源自患者的诱导多能干细胞揭示 A 组色素性角化症黑色素细胞的紫外线反应。
背景:色素性皮肤病(XP)的特点是对光敏感,会导致色素失调,并且由于 DNA 修复缺陷,暴露在阳光下的部位容易患皮肤癌。XP A 组(XP-A)患者除非严格执行防晒措施,否则会在一年内出现雀斑样色素斑和色素沉着斑。虽然研究作为疾病靶细胞的色素细胞(黑素细胞:MCs)至关重要,但在原代培养物中建立 MCs 却具有挑战性:方法:从 XP-A 成纤维细胞建立 iPSCs 并分化成 MCs。结果:XP-A-iPSC衍生的黑色素细胞(XP-A-iMCs)和健康对照iPSC衍生的MCs(HC-iMCs)在接受30或150 J/m2的UV-B照射4和12小时后,基因表达谱的差异通过微阵列分析进行了分析:结果:XP-A-iMCs表达SOX10、MITF和TYR,并显示黑色素合成。此外,XP-A-iMCs 的 DNA 修复能力下降。XP-A-iMCs与HC-iMCs的基因表达谱显示,在150-J/m2的UV-B照射后,XP-A-iMCs中特异性上调或下调的许多基因探针并没有恢复到基础水平。值得注意的是,在 150 J/m2 紫外线照射下,XP-A-iMCs 中的凋亡通路被高度上调,而细胞因子相关通路即使在 30 J/m2 紫外线照射下也被上调:我们首次发现,即使在低剂量紫外线照射下,细胞因子相关通路也会在 XP-A-iMCs 中上调。疾病特异性iPSCs有助于阐明XP的疾病发病机制和制定治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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