韩国人群中男性和女性脱发的遗传差异

Life Pub Date : 2024-07-26 DOI:10.3390/life14080939
Jihyun Lee, Ja-Eun Choi, Joohun Ha, Young-Joo Kim, Changhyun Lee, Kyung-Won Hong
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引用次数: 0

摘要

有关雄激素性脱发(AGA 或模式性脱发)的研究表明,男性和女性的潜在病理机制不同。虽然通过全基因组关联研究(GWAS)发现了许多男性脱发的遗传因素,但女性脱发的遗传决定因素仍不清楚。在这项研究中,我们分析了约 1000 人(436 名男性和 568 名女性),以确定性别特异性遗传因素。我们对总性别组、纯男性组和纯女性组进行了三次独立的 GWAS,发现了三个新的基因位点(分别是 TSNARE1、FZD1 和 GJC1 基因的 rs7814359、rs2163085 和 rs4793158)。单核苷酸多态性(SNP)rs2163085 在男女混合组显示出与 AGA 的全基因组显著相关性,而在女性组则显示出显著相关性。rs4793158 SNP 在合并组和仅女性组中都显示出与 AGA 的提示性关联。与 rs7814359 相关的 TSNARE1 参与囊泡运输。FZD1 是 Wnt 信号通路的关键调节因子。GJC1 是一种缝隙连接蛋白。FZD1 和 GJC1 与女性特异性 AGA 的关联表明,雌激素等性激素可能会通过这些基因影响 FPHL。这些发现将有助于我们了解AGA的性别特异性病理生理学。
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Genetic Differences between Male and Female Pattern Hair Loss in a Korean Population
Studies on androgenetic alopecia (AGA or patterned hair loss (PHL)) have suggested different underlying pathological mechanisms between males and females. While many genetic factors for male hair loss have been identified through genome-wide association studies (GWASs), the genetic determinants of female hair loss remain unclear. In this study, we analyzed approximately 1000 individuals (436 males and 568 females) to identify sex-specific genetic factors. We conducted three independent GWASs for the total, male-only, and female-only groups, identifying three novel loci (rs7814359, rs2163085, and rs4793158 of the TSNARE1, FZD1, and GJC1 genes, respectively). rs7814359 showed a significant genome-wide association with AGA in the combined sex group and a weak association in both the male-only and female-only groups. The single nucleotide polymorphism (SNP) rs2163085 showed a significant genome-wide association with AGA in the combined group and notable significance in females. The rs4793158 SNP showed a suggestive association with AGA in both the combined and female-only groups. TSNARE1, related to rs7814359, is involved in vesicle transport. FZD1 is a key regulator of the Wnt signaling pathway. GJC1 is a gap junction protein. The associations of FZD1 and GJC1 with female-specific AGA suggest that sex hormones, such as estrogen, may influence FPHL through these genes. These findings will contribute to our understanding of the sex-specific pathophysiology of AGA.
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