Acquired curved hair is caused by fusion of multiple hair matrix cells

Ippei Horibe , Sara Izumi , Yuru Ke , Nanami Tanahashi , Yusuke Takagi , Ryoji Ishihara , Takaya Nakano , Takaaki Sumiyoshi , Yasuo Nagaoka
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Abstract

Background

“Curved hair” caused by acquired factors is considered to have adverse cosmetic effects, but the detailed mechanism behind curved hair remains obscure.

Objective

We attempted to clarify the causes of curved hair that appeared to have occurred via acquired factors.

Methods

Outer root sheath cells (ORSC) isolated from plucked human hair follicles were used to evaluate the expression of type IV collagen. Straight and curved hairs with hair follicle tissue attached were also collected from the same individuals and subjected to morphological, immunohistochemical, and gene expression analyses.

Results

The amount of type IV collagen increased upon inducing endoplasmic reticulum stress in ORSC. Meanwhile, in curved hair follicle tissue, the gene expression of type IV collagen decreased. In addition, the curved hair follicle tissue obtained from participants in their 30 s to 50 s had distorted shapes compared with that of straight hair from the same individuals. It was also observed that hair matrix cells based on multiple hair germs fused to eventually form a single hair follicle and hair shaft. In curved hair follicle tissue, KRT71 protein, a marker of inner root sheath differentiation, was unevenly distributed and there was elevated expression of Dickkopf-1 (DKK1) protein, an inhibitor of the Wnt signaling pathway.

Conclusion

Our study revealed the fusion of hair matrix cells during hair follicle regeneration as a cause of acquired curved hair. We consider that such fusion causes hair follicle tissue to abnormally differentiate, resulting in asymmetric hair follicle shapes and curved hair.

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后天性弯曲头发是由多个毛基质细胞融合造成的
背景后天因素造成的 "弯曲的头发 "被认为具有不良的美容效果,但弯曲的头发背后的详细机制仍然模糊不清。方法从拔除的人类毛囊中分离出外根鞘细胞(ORSC),用于评估IV型胶原蛋白的表达。结果当诱导 ORSC 中的内质网应激时,IV 型胶原蛋白的量会增加。同时,在弯曲毛囊组织中,IV 型胶原蛋白的基因表达量减少。此外,与直发相比,30 至 50 岁参与者的弯曲毛囊组织形状扭曲。还观察到,基于多个毛芽的毛基质细胞融合,最终形成一个毛囊和毛干。在弯曲的毛囊组织中,内根鞘分化标志物 KRT71 蛋白分布不均,Wnt 信号通路抑制剂 Dickkopf-1 (DKK1) 蛋白表达升高。我们认为,这种融合会导致毛囊组织异常分化,从而造成毛囊形状不对称和头发弯曲。
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CiteScore
7.60
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