IMMUNOHISTOCHEMICAL DETECTION OF PIEZO1 AND PIEZO2 IN HUMAN DIGITAL MEISSNER´S CORPUSCLES

Yolanda García-Mesa, Patricia Cuendias, Marta Alonso-Guervós, Jorge García-Piqueras, Benjamín Martín-Biedma, Teresa Cobo, Olivia García-Suárez, José A. Vega
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Abstract

Background

The cutaneous end organ complexes or cutaneous sensory corpuscles are specialized sensory organs associated to low-threshold mechanoreceptors. Mechano-gated proteins forming a part of ion channels have been detected in both the axon and terminal glial cells of Meissner corpuscles, a specific cutaneous end organ complex in the human glabrous skin. The main candidates to mechanotransduction in Meissner corpuscles are members of the Piezo family of cationic ion channels. PIEZO2 has been detected in the axon of these sensory structures whereas no data exists about the occurrence and cell localization of PIEZO1.

Methods

Skin samples (n = 18) from the palmar aspect of the distal phalanx of the first and second fingers were analysed (8 female and 10 males; age range 26 to 61 years). Double immunofluorescence for PIEZO1 and PIEZO2 together with axonal or terminal glial cell markers was captured by laser confocal microscopy, and the percentage of PIEZOs positive Meissner corpuscles was evaluated.

Results

MCs from human fingers showed variable morphology and degree of lobulation. Regarding the basic immunohistochemical profile, in all cases the axons were immunoreactive for neurofilament proteins, neuron specific enolase and synaptophysin, while the lamellar cells displayed strong S100P immunoreactivity. PIEZO1 was detected co-localizing with axonal markers, but never with terminal glial cell markers, in the 56% of Meissner corpuscles; weak but specific immunofluorescence was additionally detected in the epidermis, especially in basal keratinocytes. Similarly, PIEZO2 immunoreactivity was found restricted to the axon in the 85% of Meissner corpuscles. PIEZO2 positive Merkel cells were also regularly found.

Conclusions

PIEZO1 and PIEZO2 are expressed exclusively in the axon of a subpopulation of human digital Meissner corpuscles, thus suggesting that not only PIEZO2, but also PIEZO1 may be involved in the mechanotransduction from low-threshold mechanoreceptors.

用免疫组织化学方法检测人类数字梅斯纳氏细胞中的 piezo1 和 piezo2
背景皮肤末端器官复合体或皮肤感觉团是与低阈机械感受器相关的特化感觉器官。在人类无毛皮肤的一种特殊皮肤末端器官复合体--Meissner皮团的轴突和末端神经胶质细胞中都检测到了构成离子通道一部分的机械门控蛋白。Meissner 冠状细胞机械传导的主要候选者是阳离子离子通道 Piezo 家族的成员。方法分析了来自第一和第二手指远端指骨掌侧的皮肤样本(n = 18)(8 名女性和 10 名男性;年龄范围为 26 至 61 岁)。通过激光共聚焦显微镜对 PIEZO1 和 PIEZO2 以及轴突或末端神经胶质细胞标记物进行双重免疫荧光检测,并评估了 PIEZOs 阳性 Meissner 细胞团的百分比。在基本免疫组化特征方面,所有病例的轴突都对神经丝蛋白、神经元特异性烯醇化酶和突触素有免疫反应,而片层细胞则显示出较强的 S100P 免疫反应。在 56% 的 Meissner 冠状细胞中检测到 PIEZO1 与轴突标记物共定位,但从未与末端胶质细胞标记物共定位;此外,在表皮,尤其是基底角质细胞中检测到微弱但特异的免疫荧光。同样,在 85% 的 Meissner 冠状细胞中发现的 PIEZO2 免疫反应仅限于轴突。结论PIEZO1 和 PIEZO2 只在人类数字 Meissner 冠状细胞亚群的轴突中表达,这表明不仅 PIEZO2,PIEZO1 也可能参与了低阈值机械感受器的机械传导。
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