The vitamin D₃ hormone, 1,25(OH)₂D₃, regulates fibroblast growth factor 23 (FGF23) production in human skin cells.

IF 5 2区生物学 Q2 CELL BIOLOGY

American journal of physiology. Cell physiology Pub Date : 2025-04-01 Epub Date: 2025-03-07 DOI:10.1152/ajpcell.00827.2024

Franz Ewendt, Zorica Janjetovic, Tae-Kang Kim, Alisa A Mobley, Anna A Brożyna, Senthilkumar Ravichandran, Adrian Fabisiak, Pawel Brzeminski, Rafal R Sicinski, Gabriele I Stangl, Robert C Tuckey, Andrzej T Slominski

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引用次数: 0

Abstract

The bone hormone fibroblast growth factor 23 (FGF23) regulates renal phosphate reabsorption and the enzymatic production of active vitamin D₃ [1,25(OH)₂D₃]. Therefore, FGF23 production in bone cells is closely regulated by 1,25(OH)₂D₃ acting via the vitamin D receptor (VDR). Skin cells can produce hydroxyvitamin D₃ metabolites from its precursor D₃ made through ultraviolet B light exposure. Interestingly, the expression of Fgf23 has been found in rodent skin, but its expression, regulation, and role in human skin are unclear. Therefore, we investigated whether hydroxyvitamin D₃ metabolites regulate FGF23 in human skin cells. Primary adult and neonatal epidermal keratinocytes (HEKn), melanocytes (HEMn), dermal fibroblasts (HDFn), as well as human melanoma cells, HaCaT, HaCaT VDR KO, and A431 epidermoid cells, were used to assess FGF23 gene expression (quantitative reverse-transcription real-time PCR), cellular FGF23 protein (Western blot), or secreted FGF23 protein (ELISA) after treatment with hydroxyvitamin D₃ metabolites. HaCaT cells treated with recombinant FGF23 were used to explore its function in skin. Human skin cells can synthesize FGF23. Treatment with 1,25(OH)₂D₃ significantly increased FGF23 mRNA levels in HaCaT and HDFn cells, and moderately in HEKn cells, mediated in part by the VDR. It also moderately enhanced mRNA levels of the FGF23-processing enzyme GALNT3 and stimulated secretion of hormonally active FGF23 from HaCaT cells. Treatment of HaCaT cells with FGF23 increased mRNA levels of the cholesterol- and vitamin D-metabolizing enzymes, CYP11A1 and CYP27A1. In conclusion, human skin cells express and secrete FGF23, which is regulated by 1,25(OH)₂D₃ acting in part by the VDR. FGF23 affects the expression of cutaneous sterol-metabolizing enzymes.NEW & NOTEWORTHY This study shows for the first time the expression and secretion of the FGF23 hormone by human skin cells. In addition, we identified the active vitamin D₃ hormone, 1,25(OH)₂D₃, to be a potent regulator of dermal FGF23 expression and protein secretion, partly involving the vitamin D receptor. Furthermore, we provide initial evidence demonstrating that FGF23 upregulates the gene expression of CYP11A1 and CYP27A1 in keratinocytes.

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维生素D3激素，1,25(OH)2D3，调节人皮肤细胞中成纤维细胞生长因子23 （FGF23）的产生。

骨激素成纤维细胞生长因子 23（FGF23）调节肾脏磷酸盐重吸收和活性维生素 D3（1,25(OH)2D3）的酶生成。因此，骨细胞中 FGF23 的生成受 1,25（OH）2D3 通过维生素 D 受体（VDR）作用的密切调节。皮肤细胞可通过紫外线照射产生的前体 D3 生成羟基维生素 D3 代谢物。有趣的是，在啮齿动物皮肤中发现了 Fgf23 的表达，但其在人类皮肤中的表达、调节和作用尚不清楚。因此，我们研究了羟维生素 D3 代谢物是否能调节人类皮肤细胞中的 FGF23。用原代成人和新生儿表皮角质细胞（HEKn）、黑色素细胞（HEMn）、真皮成纤维细胞（HDFn）以及人黑色素瘤细胞、HaCaT、HaCaT VDR KO 和 A431 表皮样细胞来评估经羟基维生素 D3 代谢物处理后的 FGF23 基因表达（qRT-PCR）、细胞 FGF23 蛋白（Western 印迹）或分泌的 FGF23 蛋白（ELISA）。用重组 FGF23 处理 HaCaT 细胞，以探索其在皮肤中的功能。人类皮肤细胞可以合成 FGF23。1,25(OH)2D3能显著提高HaCaT和HDFn细胞中的FGF23 mRNA水平，并适度提高HEKn细胞中的FGF23 mRNA水平。它还能适度提高 FGF23 处理酶 GALNT3 的 mRNA 水平，并刺激 HaCaT 细胞分泌激素活性 FGF23。用 FGF23 处理 HaCaT 细胞可提高胆固醇和维生素 D 代谢酶 CYP11A1 和 CYP27A1 的 mRNA 水平。总之，人类皮肤细胞表达并分泌 FGF23，FGF23 受 1,25(OH)2D3调节，部分受 VDR 作用。FGF23 影响皮肤固醇代谢酶的表达。

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来源期刊

American journal of physiology. Cell physiology 生物-生理学

CiteScore

9.10

自引率

1.80%

发文量

252

审稿时长

1 months

期刊介绍： The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.