Dehn Shirley, DeBerge Matthew, Yeap Xin-Yi, Yvan-Charvet Laurent, Fang Deyu, Eltzschig Holger K, Miller Stephen D, Thorp Edward B
Department of Pathology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611.
Feinberg Cardiovascular Research Institute, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611.
J Immunol. 2016 Nov 1;197(9):3639-3649. doi: 10.4049/jimmunol.1600402. Epub 2016 Sep 26.
Hypoxia-inducible factor (HIF)-α isoforms regulate key macrophage (MΦ) functions during ischemic inflammation. HIF-2α drives proinflammatory cytokine production; however, the requirements for HIF-2α during other key MΦ functions, including phagocytosis, are unknown. In contrast to HIF-1α, HIF-2α was not required for hypoxic phagocytic uptake. Surprisingly, basal HIF-2α levels under nonhypoxic conditions were necessary and sufficient to suppress phagocytosis. Screening approaches revealed selective induction of the scavenger receptor MARCO, which was required for enhanced engulfment. Chromatin immunoprecipitation identified the antioxidant NRF2 as being directly responsible for inducing Marco Concordantly, Hif-2α MΦs exhibited reduced antioxidant gene expression, and inhibition of mitochondrial reactive oxygen species suppressed Marco expression and phagocytic uptake. Ex vivo findings were recapitulated in vivo; the enhanced engulfment phenotype resulted in increased bacterial clearance and cytokine suppression. Importantly, natural induction of Hif-2α by IL-4 also suppressed MARCO-dependent phagocytosis. Thus, unlike most characterized prophagocytic regulators, HIF-2α can act as a phagocytic repressor. Interestingly, this occurs in resting MΦs through tempering of steady-state mitochondrial reactive oxygen species. In turn, HIF-2α promotes MΦ quiescence by blocking a MARCO bacterial-response pathway. IL-4 also drives HIF-2α suppression of MARCO, leading to compromised bacterial immunosurveillance in vivo.
缺氧诱导因子(HIF)-α亚型在缺血性炎症过程中调节关键的巨噬细胞(MΦ)功能。HIF-2α驱动促炎细胞因子的产生;然而,在包括吞噬作用在内的其他关键MΦ功能中对HIF-2α的需求尚不清楚。与HIF-1α不同,缺氧吞噬摄取不需要HIF-2α。令人惊讶的是,非缺氧条件下的基础HIF-2α水平对于抑制吞噬作用是必要且充分的。筛选方法揭示了清道夫受体MARCO的选择性诱导,这是增强吞噬作用所必需的。染色质免疫沉淀确定抗氧化剂NRF2直接负责诱导Marco。一致地,Hif-2α MΦ表现出抗氧化基因表达降低,并且线粒体活性氧的抑制抑制了Marco表达和吞噬摄取。体内再现了体外研究结果;增强的吞噬表型导致细菌清除增加和细胞因子抑制。重要的是,IL-4对Hif-2α的自然诱导也抑制了MARCO依赖性吞噬作用。因此,与大多数已表征的促吞噬调节因子不同,HIF-2α可以作为吞噬作用的抑制剂。有趣的是,这在静息MΦ中通过调节稳态线粒体活性氧而发生。反过来,HIF-2α通过阻断MARCO细菌反应途径促进MΦ静止。IL-4也驱动HIF-2α对MARCO的抑制,导致体内细菌免疫监视受损。
