有放射性皮炎病史的多发性基底细胞癌患者PTCH肿瘤抑制基因23外显子突变分析

Sara Mirhadi, A. Abbasi, M. Mobasheri, H. Moslehi, M. Modarressi
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引用次数: 0

摘要

背景:基底细胞癌(BCC)是人类最常见的肿瘤,其生长缓慢且很少转移。多发性bcc主要由肿瘤抑制基因PTCH的种系突变引起,PTCH具有遗传传递模式。多种bcc也可能源于放射性皮炎,这是在各种皮肤治疗中暴露于皮肤的电离辐射的显著副作用。PTCH是Sonic Hedgehog信号通路的关键成员,据报道,该基因的突变在多达40-80%的皮肤癌中存在。23号外显子是PTCH蛋白功能的关键外显子。在非黑色素瘤皮肤癌中,PTCH密码子1315有突变的报道。方法:采用聚合酶链反应和直接测序的方法,对10例多发性bcc患者外周血PTCH基因23外显子突变进行了检测。所有的研究对象都是从有辐射暴露史和随后的放射性皮炎的患者中挑选出来的。结果:直接测序发现60%的患者PTCH基因密码子1315有胞嘧啶到胸腺嘧啶突变,50%为杂合子,同时具有C和T等位基因,10%为T等位基因在同一位置的纯合子。4名受试者(40%)为C等位基因的正常纯合子,与正常人群相似。结论:PTCH蛋白的脯氨酸氨基酸转化为亮氨酸的密码子1315中存在ID为rs 3575564的突变。如前所述,这种转化可能影响PTCH蛋白的正常功能。有辐射暴露史的多发性bcc患者外周血PTCH基因密码子1315从胞嘧啶转化为胸腺嘧啶。后续的BCC组织评估将阐明辐射的体细胞诱变效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mutation Analysis of Exon 23 of the PTCH Tumor Suppressor Gene in Multiple Basal Cell Carcinoma Patients with a History of Radiodermatitis
Background: Basal Cell Carcinoma (BCC) with its slow-growing and rarely metastatic nature is the most common human neoplasm. Multiple BCCs mostly result from germline mutations in the tumor suppressor gene, PTCH with a genetic transmission pattern. Multiple BCCs may also originate from radiodermatitis which is a significant side effect of ionizing radiation exposure delivered to the skin in various skin treatments. PTCH is a critical member of the Sonic Hedgehog signalling pathway and mutations in this gene have been reported in as many as 40-80% of skin cancers. Exon number 23 is a critical exon in the function of the PTCH protein. Mutations have been reported in codon 1315 of PTCH in non-melanoma skin cancers. Methods: We assessed mutations in exon 23 of the PTCH gene by polymerase chain reaction and direct sequencing in the peripheral blood cells of 10 patients with multiple BCCs. All of the subjects were selected from among patients with a history of radiation exposure and subsequent radiodermatitis. Results: Direct sequencing revealed a Cytosine to Thymine mutation in codon 1315 of the PTCH gene in 60% of patients, 50% of which were heterozygotes, possessing both the C and T allele, and 10% were homozygotes for the T allele in the same position. Four subjects (40%) were normal homozygotes of the C allele, similar to the normal population. Conclusion: Mutations with ID: rs 3575564 were detected in codon 1315 which transform the proline amino-acid to leucine in the PTCH protein. This transformation may affect the normal function of the PTCH protein, as reported previously. Patients with multiple BCCs who had a history of radiation exposure show a transformation from cytosine to thymine in codon number 1315 of the PTCH gene in their peripheral blood cells. Subsequent assessment of BCC tissues will clarify the somatic mutagenesis effects of radiation.
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