PHPT1通过负性调节TRPV5信号通路，在高原肺动脉高压中发挥抑制作用。

PHPT1 acts as an inhibitor in high-altitude pulmonary hypertension via negative TRPV5 signaling regulation.

作者信息

Guo Ge, Zhu Ming-Xiang, Xu Xiang, Li Xin, Chen Yi-Bing, Shen Yan-Ying, Li Han-Lu, Cheng Li-Ting, He Kun-Lun, Yao Yong-Ming, Liu Chun-Lei

机构信息

Medical Innovation Research Division of the Chinese PLA General Hospital, Beijing, 100853, China.

Graduate School, The Chinese PLA General Hospital, Beijing, 100853, China.

出版信息

J Transl Med. 2025 Aug 28;23(1):968. doi: 10.1186/s12967-025-06980-8.

DOI:10.1186/s12967-025-06980-8

PMID:40877955

Abstract

BACKGROUND

Low barometric pressure hypoxia at high altitudes triggers vascular remodeling, resulting in high-altitude pulmonary hypertension (HAPH). The key step is the transformation of pulmonary artery smooth muscle cells (PASMCs) from a contractile to synthetic phenotype. Protein kinases and phosphatases contribute to phenotype transformation by altering phosphorylated protein expression.

OBJECTIVES

In this study, we aimed to investigate the role of phosphohistidine phosphatase 1 (PHPT1) in PASMC transformation and its regulatory pathway in HAPH.

METHODS

An HAPH model was constructed in wild-type, PHPT1/, and PHPT1/ rats by placing them in a hypobaric chamber. Evaluations included hemodynamic measurements, echocardiography, histopathological analysis, and various cellular assays. RNA-seq and western blotting were used to identify intervention targets, and co-immunoprecipitation was used to determine the interaction between PHPT1 and TRPV5.

RESULTS

PHPT1 protein expression was downregulated in HAPH, and its knockdown impaired cardiopulmonary functions, including elevated mean pulmonary artery pressure (mPAP), right ventricular systolic pressure (RVSP), and increased right ventricular thickness, and enhanced PASMC proliferation and migration. PHPT1 directly interacted with TRPV5 phosphorylation sites, whereas Asp30Ala/Arg157Ala functioned to prevent this interaction. PHPT1 overexpression protected against cardiopulmonary damage, reducing mPAP, RVSP, the D/W ratio, and MWT%. Additionally, PHPT1 overexpression mitigated PASMC proliferation and migration, resulting in restored TRPV5, p-Akt, p-SMAD2/3, and p-TGF-β expression under hypoxic conditions.

CONCLUSIONS

These findings underscore that PHPT1 inhibits PASMC proliferation and migration through TRPV5 signaling, thereby reducing mPAP and improving right ventricular function in HAPH. Therefore, PHPT1 targeting could potentially contribute to the development of novel therapeutic approaches for treating HAPH.

摘要

背景

高海拔地区的低气压缺氧会引发血管重塑，导致高原性肺动脉高压（HAPH）。关键步骤是肺动脉平滑肌细胞（PASMCs）从收缩型向合成型表型的转变。蛋白激酶和磷酸酶通过改变磷酸化蛋白表达来促进表型转变。

目的

在本研究中，我们旨在探讨磷酸组氨酸磷酸酶1（PHPT1）在PASMCs转变中的作用及其在HAPH中的调控途径。

方法

通过将野生型、PHPT1基因敲除和PHPT1基因敲入大鼠置于低压舱中构建HAPH模型。评估包括血流动力学测量、超声心动图、组织病理学分析和各种细胞实验。RNA测序和蛋白质印迹法用于确定干预靶点，免疫共沉淀法用于确定PHPT1与TRPV5之间的相互作用。

结果

HAPH中PHPT1蛋白表达下调，其敲低会损害心肺功能，包括平均肺动脉压（mPAP）升高、右心室收缩压（RVSP）升高、右心室厚度增加，并增强PASMCs增殖和迁移。PHPT1直接与TRPV5磷酸化位点相互作用，而Asp30Ala/Arg157Ala可阻止这种相互作用。PHPT1过表达可预防心肺损伤，降低mPAP、RVSP、D/W比值和MWT%。此外，PHPT1过表达减轻了PASMCs增殖和迁移，导致缺氧条件下TRPV5、p-Akt、p-SMAD2/3和p-TGF-β表达恢复。

结论

这些发现强调，PHPT1通过TRPV5信号通路抑制PASMCs增殖和迁移，从而降低HAPH中的mPAP并改善右心室功能。因此，靶向PHPT1可能有助于开发治疗HAPH的新型治疗方法。

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PHPT1通过负性调节TRPV5信号通路，在高原肺动脉高压中发挥抑制作用。

PHPT1 acts as an inhibitor in high-altitude pulmonary hypertension via negative TRPV5 signaling regulation.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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