无汗性汗腺的转录组分析揭示汗腺上的嗅觉受体以配体依赖的方式调节汗液

Naoya Murayama , Takafumi Miyaki , Daisuke Okuzaki , Yasuaki Shibata , Takehiko Koji , Asuka Inoue , Junken Aoki , Hideki Hayashi , Yoshimasa Tanaka , Hiroyuki Murota
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引用次数: 0

摘要

汗液维持人体的体内平衡。虽然出汗障碍可能导致多方面的健康问题,但对出汗障碍的治疗选择尚未建立。为了进一步了解汗液调节的机制,我们比较了来自无汗患者的汗液病变和汗液病变的汗腺转录组,发现嗅觉受体在无汗和有汗的汗腺中表达差异。然后,我们通过原位杂交和免疫组织化学证实OR51A7和OR51E2在人汗腺中表达。碱性磷酸酶- TGFα脱落实验显示,β-离子酮通过OR51A7或OR51E2激活g蛋白。通过定量抗运动轴突反射实验,研究了β-离子酮对大鼠排汗的影响,结果表明,β-离子酮对大鼠排汗的影响存在性别差异。外用β-ionone减轻女性出汗,增加男性出汗。综上所述,这项研究表明,分泌汗腺中表达的嗅觉受体可能根据性别调节对气味配体的反应。这些意想不到的结果表明,嗅觉受体可能调节出汗,嗅觉受体调节剂可能有助于出汗障碍的管理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Transcriptome Profiling of Anhidrotic Eccrine Sweat Glands Reveals that Olfactory Receptors on Eccrine Sweat Glands Regulate Perspiration in a Ligand-Dependent Manner

Transcriptome Profiling of Anhidrotic Eccrine Sweat Glands Reveals that Olfactory Receptors on Eccrine Sweat Glands Regulate Perspiration in a Ligand-Dependent Manner

Transcriptome Profiling of Anhidrotic Eccrine Sweat Glands Reveals that Olfactory Receptors on Eccrine Sweat Glands Regulate Perspiration in a Ligand-Dependent Manner

Transcriptome Profiling of Anhidrotic Eccrine Sweat Glands Reveals that Olfactory Receptors on Eccrine Sweat Glands Regulate Perspiration in a Ligand-Dependent Manner

Sweat maintains systemic homeostasis in humans. Although sweating disorders may cause multifaceted health problems, therapeutic options for sweat disorders have not yet been established. To gain new insight into the mechanism underlying the regulation of perspiration, we compared eccrine sweat gland transcriptomes from hidrotic and anhidrotic lesions from patients with anhidrosis and found out that olfactory receptors were expressed differentially in anhidrotic and hidrotic eccrine sweat glands. We then confirmed OR51A7 and OR51E2 expression in human eccrine sweat glands by in situ hybridization and immunohistochemistry. An alkaline phosphatase−TGFα shedding assay revealed that β-ionone activates G-proteins through OR51A7 or OR51E2. The effect of topically applied β-ionone on sweating was examined with the quantitative sudomotor axon reflex test, which showed that responses to β-ionone differed between sexes. Topical β-ionone attenuated female sweating and augmented male sweating. Taken together, this study suggests that olfactory receptors expressed in eccrine sweat glands may regulate sweating in response to odorous ligands on the basis of sex. These unexpected results indicate that olfactory receptors may modulate sweating and that olfactory receptor modulators may contribute to the management of sweat disorders.

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