miRNA microarray profiling in patients with androgenic alopecia and the effects of miR-133b on hair growth

IF 3.7 4区医学 Q2 PATHOLOGY

Experimental and molecular pathology Pub Date : 2021-02-01 DOI:10.1016/j.yexmp.2020.104589

Wenjia Deng , Ting Hu , Le Han , Ben Liu , Xin Tang , Haiyan Chen , Xianyan Chen , Miaojian Wan

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引用次数: 12

Abstract

Objective

Androgenetic alopecia (AGA), a common alopecia, is often accompanied by abnormal expression of multiple miRNAs. This study aims to investigate abnormally expressed miRNAs in patients with AGA and their specific molecular mechanism.

Methods

miRNA microarray profiling and qRT-PCR validation were used to screen and verify abnormally expressed miRNAs in patients with AGA. Human hair follicles (HFs) were treated with different concentrations of dihydrotestosterone (DHT, 10⁻⁵, 10⁻⁶, 10⁻⁷ and 10⁻⁸ mol/L) for 10 days. The effects of DHT on HF growth, proliferation, and miRNA expression in cultured HFs were investigated using immunofluorescence staining and qRT-PCR. Moreover, human dermal papilla cells (HDPCs) were treated/transfected with a Wnt/β-catenin pathway activator and/or miR-133b mimic, and then the CCK-8 assay was used to evaluate HDPC proliferation. qRT-PCR and Western blotting were used to measure the expression of Versican, ALP and β-catenin

Results

miRNA microarray profiling identified 43 miRNAs that were significantly differentially expressed in AGA patients, and qRT-PCR verified that 8 miRNAs were significantly differentially expressed. The expression of miR-133b was abnormally high in AGA patients. DHT (10⁻⁵ mol/L) inhibited human HF growth and upregulated miR-133b expression, and DHT (10⁻⁷ mol/L) induced human HF growth and downregulated miR-133b expression. HDPC proliferation was inhibited, and the expression of β-catenin was downregulated in the miR-133b mimic-transfected group compared with the control group (P < 0.05). Wnt/β-catenin pathway activator treatment significantly promoted HDPC proliferation and upregulated the expression of β-catenin (P < 0.05). In addition, the proliferation of HDPCs was not significantly different between the group cotreated with a Wnt/β-catenin pathway activator and miR-133b mimic, and the control group (P > 0.05), but the expression of Versican and ALP was suppressed in the cotreatment group (P < 0.05)

Conclusion

Our data indicated that patients with androgenic alopecia have specific miRNA expression profiles and that the abnormal expression of miR-133b may inactivate the Wnt/β-catenin pathway and ultimately regulate hair growth.

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雄激素性脱发患者的miRNA微阵列分析及miR-133b对头发生长的影响

目的雄激素性脱发(AGA)是一种常见的脱发，常伴有多种mirna的异常表达。本研究旨在探讨AGA患者异常表达的mirna及其特定的分子机制。方法采用smirna微阵列分析和qRT-PCR验证方法筛选和验证AGA患者异常表达的mirna。用不同浓度的双氢睾酮(DHT, 10−5、10−6、10−7和10−8 mol/L)处理人毛囊(HFs) 10天。采用免疫荧光染色和qRT-PCR检测DHT对HF生长、增殖及miRNA表达的影响。此外，用Wnt/β-catenin通路激活剂和/或miR-133b模拟物处理/转染人真皮乳头细胞(HDPC)，然后使用CCK-8测定HDPC的增殖情况。采用qRT-PCR和Western blotting检测了Versican、ALP和β-catenin的表达情况。结果通过mirna微阵列分析鉴定出43个在AGA患者中存在显著差异表达的mirna, qRT-PCR证实8个mirna存在显著差异表达。在AGA患者中miR-133b的表达异常高。DHT(10−5 mol/L)抑制人HF生长，上调miR-133b表达，DHT(10−7 mol/L)诱导人HF生长，下调miR-133b表达。miR-133b模拟转染组与对照组相比，HDPC增殖受到抑制，β-catenin表达下调(P <0.05)。Wnt/β-catenin通路激活剂处理可显著促进HDPC增殖，上调β-catenin的表达(P <0.05)。此外，用Wnt/β-catenin通路激活剂和miR-133b模拟物共同处理的组与对照组(P >0.05)，而共处理组则抑制了Versican和ALP的表达(P <结论雄激素性脱发患者具有特异性的miRNA表达谱，miR-133b的异常表达可能使Wnt/β-catenin通路失活，最终调控毛发生长。

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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来源期刊

Experimental and molecular pathology 医学-病理学

CiteScore

8.90

自引率

0.00%

发文量

审稿时长

11.5 weeks

期刊介绍： Under new editorial leadership, Experimental and Molecular Pathology presents original articles on disease processes in relation to structural and biochemical alterations in mammalian tissues and fluids and on the application of newer techniques of molecular biology to problems of pathology in humans and other animals. The journal also publishes selected interpretive synthesis reviews by bench level investigators working at the "cutting edge" of contemporary research in pathology. In addition, special thematic issues present original research reports that unravel some of Nature''s most jealously guarded secrets on the pathologic basis of disease. Research Areas include: Stem cells; Neoangiogenesis; Molecular diagnostics; Polymerase chain reaction; In situ hybridization; DNA sequencing; Cell receptors; Carcinogenesis; Pathobiology of neoplasia; Complex infectious diseases; Transplantation; Cytokines; Flow cytomeric analysis; Inflammation; Cellular injury; Immunology and hypersensitivity; Athersclerosis.