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FOXD1基质衍生细胞的不同亚群调节肾促红细胞生成素。

Distinct subpopulations of FOXD1 stroma-derived cells regulate renal erythropoietin.

作者信息

Kobayashi Hanako, Liu Qingdu, Binns Thomas C, Urrutia Andres A, Davidoff Olena, Kapitsinou Pinelopi P, Pfaff Andrew S, Olauson Hannes, Wernerson Annika, Fogo Agnes B, Fong Guo-Hua, Gross Kenneth W, Haase Volker H

出版信息

J Clin Invest. 2016 May 2;126(5):1926-38. doi: 10.1172/JCI83551. Epub 2016 Apr 18.

DOI:10.1172/JCI83551
PMID:27088801
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4855934/
Abstract

Renal peritubular interstitial fibroblast-like cells are critical for adult erythropoiesis, as they are the main source of erythropoietin (EPO). Hypoxia-inducible factor 2 (HIF-2) controls EPO synthesis in the kidney and liver and is regulated by prolyl-4-hydroxylase domain (PHD) dioxygenases PHD1, PHD2, and PHD3, which function as cellular oxygen sensors. Renal interstitial cells with EPO-producing capacity are poorly characterized, and the role of the PHD/HIF-2 axis in renal EPO-producing cell (REPC) plasticity is unclear. Here we targeted the PHD/HIF-2/EPO axis in FOXD1 stroma-derived renal interstitial cells and examined the role of individual PHDs in REPC pool size regulation and renal EPO output. Renal interstitial cells with EPO-producing capacity were entirely derived from FOXD1-expressing stroma, and Phd2 inactivation alone induced renal Epo in a limited number of renal interstitial cells. EPO induction was submaximal, as hypoxia or pharmacologic PHD inhibition further increased the REPC fraction among Phd2-/- renal interstitial cells. Moreover, Phd1 and Phd3 were differentially expressed in renal interstitium, and heterozygous deficiency for Phd1 and Phd3 increased REPC numbers in Phd2-/- mice. We propose that FOXD1 lineage renal interstitial cells consist of distinct subpopulations that differ in their responsiveness to Phd2 inactivation and thus regulation of HIF-2 activity and EPO production under hypoxia or conditions of pharmacologic or genetic PHD inactivation.

摘要

肾周小管间质成纤维样细胞对成年期红细胞生成至关重要,因为它们是促红细胞生成素(EPO)的主要来源。缺氧诱导因子2(HIF-2)控制肾脏和肝脏中EPO的合成,并受脯氨酰-4-羟化酶结构域(PHD)双加氧酶PHD1、PHD2和PHD3的调节,这些酶作为细胞氧传感器发挥作用。具有EPO生成能力的肾间质细胞特征尚不明确,且PHD/HIF-2轴在肾EPO生成细胞(REPC)可塑性中的作用尚不清楚。在此,我们针对FOXD1基质来源的肾间质细胞中的PHD/HIF-2/EPO轴,研究了单个PHD在REPC库大小调节和肾脏EPO输出中的作用。具有EPO生成能力的肾间质细胞完全来源于表达FOXD1的基质,单独敲除Phd2仅在有限数量的肾间质细胞中诱导产生肾脏Epo。EPO的诱导未达到最大值,因为缺氧或药物性PHD抑制进一步增加了Phd2-/-肾间质细胞中的REPC比例。此外,Phd1和Phd3在肾间质中的表达存在差异,Phd1和Phd3的杂合缺失增加了Phd2-/-小鼠中的REPC数量。我们提出,FOXD1谱系肾间质细胞由不同的亚群组成,这些亚群对Phd2失活的反应不同,因此在缺氧或药物性或遗传性PHD失活条件下对HIF-2活性和EPO产生的调节也不同。

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