Macrophage-mediated response to hypoxia in disease

S. Tazzyman, C. Murdoch, J. Yeomans, Jack Harrison, M. Muthana
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引用次数: 11

Abstract

Hypoxia plays a critical role in the pathobiology of various inflamed, diseased tissues, including malignant tumors, atherosclerotic plaques, myocardial infarcts, the synovia of rheumatoid arthritic joints, healing wounds, and sites of bacterial infection. These areas of hypoxia form when the blood supply is occluded and/or the oxygen supply is unable to keep pace with cell growth and/or infiltration of inflammatory cells. Macrophages are ubiquitous in all tissues of the body and exhibit great plasticity, allowing them to perform divergent functions, including, among others, patrolling tissue, combating invading pathogens and tumor cells, orchestrating wound healing, and restoring homeostasis after an inflammatory response. The number of tissue macrophages increases markedly with the onset and progression of many pathological states, with many macrophages accumulating in avascular and necrotic areas, where they are exposed to hypoxia. Recent studies show that these highly versatile cells then respond rapidly to the hypoxia present by altering their expression of a wide array of genes. Here we review the evidence for hypoxia-driven macrophage inflammatory responses in various disease states, and how this influences disease progression and treatment.
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巨噬细胞介导的疾病缺氧反应
缺氧在各种炎症、病变组织的病理生物学中起着关键作用,包括恶性肿瘤、动脉粥样硬化斑块、心肌梗死、类风湿关节炎关节的滑膜、伤口愈合和细菌感染部位。当血液供应被阻塞和/或氧气供应无法跟上细胞生长和/或炎症细胞浸润的步伐时,这些缺氧区域就会形成。巨噬细胞普遍存在于身体的所有组织中,并表现出极大的可塑性,使它们能够执行不同的功能,包括巡逻组织,对抗入侵的病原体和肿瘤细胞,协调伤口愈合,以及在炎症反应后恢复体内平衡。随着许多病理状态的发生和进展,组织巨噬细胞的数量显著增加,大量巨噬细胞聚集在缺氧的无血管和坏死区域。最近的研究表明,这些高度多样化的细胞通过改变其广泛基因的表达,对缺氧做出快速反应。在这里,我们回顾了各种疾病状态下缺氧驱动的巨噬细胞炎症反应的证据,以及它如何影响疾病进展和治疗。
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期刊最新文献
Abstract IA-015: Hypoxia-induced SETX links replication stress with the unfolded protein response Abstract PO-033: Papaverine derivative smv-32 alleviates tumor hypoxia and radiosensitizes tumors by inhibiting mitochondrial metabolism Abstract PO-034: Changes in cancer associated fibroblast subsets following angiotensin II type I receptor blocker (ARB) treatment reduces transient hypoxia and radiation resistance Abstract IA-017: Chromatin and gene transcription in hypoxia Abstract IA-016: Metabolic deregulation drives a redox vulnerability in pancreatic cancer
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