Inhibition of Cholesterol Biosynthesis Modulates Epithelial-Mesenchymal Transition in Primary Cicatricial Alopecia Through TGFβ and Angiotensin Receptors

Leemon Nikhila, Suresh Surya, Shahul Hameed Najeeb, T. M. Binumon, P. P. Sreejith
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Abstract

Introduction: Primary Cicatricial Alopecia (PCA) is an autoimmune condition that affects the skin and causes hair loss in patients. In PCA the hair follicles of the patients are irreversibly damaged and replaced with fibrous tissue. This diseased condition lends relevance to our work since the fibrosis raises the potential that PCA may be affected in some way by the Epithelial Mesenchymal Transition (EMT). We used small interfering RNAs (siRNA) of TGFβ, AGTR and their regulators to identify the EMT modulation. Because these molecules mediate the induction of EMT. This study explores the idea of lowering PCA fibrosis by modifying EMT markers. Methods: We chose 7 DHC and BM15766 to investigate the function of cholesterol biosynthesis inhibition. We employed the HFORS in vitro and the mouse in vivo model system to examine EMT regulation PCA. Quantitative real-time PCR was utilised to examine the expression of genes in PCA scalp samples, compound-treated HFORS, and mouse tissues; immunohistochemistry was used to confirm the protein estimate in the scalp samples; and small interfering RNA (siRNA) transfection was used to identify the functional analysis of TGFβ and AGTR. Results: Reduced cholesterol production in PCA patients leads to permanent hair follicle damage. The in vitro and in vivo study using 7DHC and BM15766 revealed cells were positive for the EMT markers. PPARγ, AhR, and AGTR together can act as vital EMT regulators. As a result, the PPARγ agonist, AhR, and AGTR antagonist significantly downregulate the expression of CDH1, SNAIL1, and SMA. The markers of EMT are likewise deregulated by the transfection of siRNA for TGFβ and AGTR. Conclusion: We clarify how EMT is regulated in hair loss circumstances by suppressing cholesterol biosynthesis. We further confirm that EMT modulators (PPARγ, AhR, AGTR, and TGFβ) and siRNA can be employed as potentially effective strategies to slow the advancement of EMT. As a result, we propose these cholesterol and EMT modulators as potential inhibitors in PCA etiology.
抑制胆固醇生物合成通过TGFβ和血管紧张素受体调节原发性瘢痕性脱发的上皮-间质转化
简介:原发性瘢痕性脱发(PCA)是一种影响皮肤并导致患者脱发的自身免疫性疾病。在PCA中,患者的毛囊不可逆转地受损并被纤维组织所取代。这种疾病与我们的工作相关,因为纤维化增加了PCA可能在某种程度上受到上皮间充质转化(EMT)影响的可能性。我们使用TGFβ, AGTR及其调节因子的小干扰rna (siRNA)来鉴定EMT调制。因为这些分子介导了EMT的诱导。本研究探讨了通过修改EMT标记物来降低PCA纤维化的想法。方法:选择7 DHC和BM15766,研究其抑制胆固醇生物合成的功能。我们采用体外HFORS和小鼠体内模型系统检测EMT调控PCA。采用实时荧光定量PCR检测PCA头皮样品、复合处理HFORS和小鼠组织中基因的表达;采用免疫组化方法对头皮样品进行蛋白估计;采用小干扰RNA (siRNA)转染对TGFβ和AGTR进行功能鉴定分析。结果:PCA患者胆固醇含量降低导致永久性毛囊损伤。用7DHC和BM15766进行体外和体内研究,发现细胞对EMT标志物呈阳性。PPARγ、AhR和AGTR一起可以作为重要的EMT调节因子。结果,PPARγ激动剂、AhR和AGTR拮抗剂显著下调CDH1、SNAIL1和SMA的表达。EMT的标记物同样通过转染TGFβ和AGTR的siRNA而解除调控。结论:我们阐明了EMT是如何通过抑制胆固醇生物合成来调节脱发的。我们进一步证实,EMT调节剂(PPARγ、AhR、AGTR和TGFβ)和siRNA可以作为减缓EMT进展的潜在有效策略。因此,我们提出这些胆固醇和EMT调节剂作为PCA病因学的潜在抑制剂。
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