Gerl Katharina, Steppan Dominik, Fuchs Michaela, Wagner Charlotte, Willam Carsten, Kurtz Armin, Kurt Birgül
Institute of Physiology, University of Regensburg, Regensburg, Germany.
Department of Nephrology and Hypertension, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.
Am J Pathol. 2017 Jul;187(7):1496-1511. doi: 10.1016/j.ajpath.2017.03.014. Epub 2017 May 17.
Intrauterine hypoxia is a reason for impaired kidney development. The cellular and molecular pathways along which hypoxia exerts effects on nephrogenesis are not well understood. They are likely triggered by hypoxia-inducible transcription factors (HIFs), and their effects appear to be dependent on the cell compartment contributing to kidney formation. In this study, we investigated the effects of HIF activation in the developing renal stroma, which also essentially modulates nephron development from the metanephric mesenchyme. HIF activation was achieved by conditional deletion of the von Hippel-Lindau tumor suppressor (VHL) protein in the forkhead box FOXD1 cell lineage, from which stromal progenitors arise. The resulting kidneys showed maturation defects associated with early postnatal death. In particular, nephron formation, tubular maturation, and the differentiation of smooth muscle, renin, and mesangial cells were impaired. Erythropoietin expression was strongly enhanced. Codeletion of VHL together with HIF2A but not with HIF1A led to apparently normal kidneys, and the animals reached normal age but were anemic because of low erythropoietin levels. Stromal deletion of HIF2A or HIF1A alone did not affect kidney development. These findings emphasize the relevance of sufficient intrauterine oxygenation for normal renal stroma differentiation, suggesting that chronic activity of HIF2 in stromal progenitors impairs kidney development. Finally, these data confirm the concept that normal stroma function is essential for normal tubular differentiation.
宫内缺氧是肾脏发育受损的一个原因。缺氧对肾发生产生影响的细胞和分子途径尚未完全了解。它们可能由缺氧诱导转录因子(HIFs)触发,其作用似乎取决于对肾脏形成有贡献的细胞区室。在本研究中,我们研究了HIF激活在发育中的肾间质中的作用,肾间质也从后肾间充质本质上调节肾单位的发育。通过在叉头框FOXD1细胞谱系中条件性缺失冯·希佩尔-林道肿瘤抑制(VHL)蛋白来实现HIF激活,基质祖细胞由此产生。所产生的肾脏显示出与出生后早期死亡相关的成熟缺陷。特别是,肾单位形成、肾小管成熟以及平滑肌、肾素和系膜细胞的分化均受损。促红细胞生成素表达强烈增强。VHL与HIF2A而非HIF1A共同缺失导致肾脏明显正常,动物达到正常年龄,但由于促红细胞生成素水平低而贫血。单独在基质中缺失HIF2A或HIF1A不影响肾脏发育。这些发现强调了充足的宫内氧合对于正常肾间质分化的相关性,表明基质祖细胞中HIF2的慢性活性会损害肾脏发育。最后,这些数据证实了正常基质功能对于正常肾小管分化至关重要的概念。
