Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, MI.
Division of Radiation and Genome Stability, Department of Radiation Oncology, Dana-Farber Cancer Institute, Boston, MA; and.
Blood. 2022 Apr 21;139(16):2547-2552. doi: 10.1182/blood.2021013452.
Intestinal iron absorption is activated during increased systemic demand for iron. The best-studied example is iron deficiency anemia, which increases intestinal iron absorption. Interestingly, the intestinal response to anemia is very similar to that of iron overload disorders, as both the conditions activate a transcriptional program that leads to a hyperabsorption of iron via the transcription factor hypoxia-inducible factor 2α (HIF2α). However, pathways for selective targeting of intestine-mediated iron overload remain unknown. Nuclear receptor coactivator 4 (NCOA4) is a critical cargo receptor for autophagic breakdown of ferritin and the subsequent release of iron, in a process termed ferritinophagy. Our work demonstrates that NCOA4-mediated intestinal ferritinophagy is integrated into systemic iron demand via HIF2α. To demonstrate the importance of the intestinal HIF2α/ferritinophagy axis in systemic iron homeostasis, whole-body and intestine-specific NCOA4-/- mouse lines were generated and assessed. The analyses revealed that the intestinal and systemic response to iron deficiency was not altered after disruption of intestinal NCOA4. However, in a mouse model of hemochromatosis, ablation of intestinal NCOA4 was protective against iron overload. Therefore, NCOA4 can be selectively targeted for the management of iron overload disorders without disrupting the physiological processes involved in the response to systemic iron deficiency.
肠道铁吸收在系统对铁需求增加时被激活。研究最多的例子是缺铁性贫血,它会增加肠道铁吸收。有趣的是,肠道对贫血的反应与铁过载疾病非常相似,因为这两种情况都激活了一个转录程序,通过转录因子缺氧诱导因子 2α(HIF2α)导致铁的过度吸收。然而,针对肠道介导的铁过载的选择性靶向途径仍然未知。核受体共激活因子 4(NCOA4)是自噬分解铁蛋白和随后释放铁的关键货物受体,这个过程被称为铁蛋白自噬。我们的工作表明,NCOA4 介导的肠道铁蛋白自噬通过 HIF2α整合到系统铁需求中。为了证明肠道 HIF2α/铁蛋白自噬轴在系统铁稳态中的重要性,生成并评估了全身性和肠道特异性 NCOA4-/-小鼠系。分析表明,破坏肠道 NCOA4 后,对缺铁的肠道和全身反应没有改变。然而,在血色病的小鼠模型中,肠道 NCOA4 的缺失对铁过载具有保护作用。因此,可以选择性地靶向 NCOA4 来管理铁过载疾病,而不会破坏涉及对系统铁缺乏的反应的生理过程。
