Sarah C. Huen scite author profile

The ischemically injured kidney undergoes tubular cell necrosis and apoptosis, accompanied by an interstitial inflammatory cell infiltrate. In this study, we show that iNos-positive proinflammatory (M1) macrophages are recruited into the kidney in the first 48 hours after ischemia/reperfusion injury, whereas arginase 1-and mannose receptor-positive, noninflammatory (M2) macrophages predominate at later time points. Furthermore, depletion of macrophages before ischemia/reperfusion diminishes kidney injury, whereas depletion at 3 to 5 days after injury slows tubular cell proliferation and repair. Infusion of Ifn␥-stimulated, bone marrowderived macrophages into macrophage-depleted mice at the time of kidney reperfusion restored injury to the level seen without macrophage depletion, suggesting that proinflammatory macrophages worsen kidney damage. In contrast, the appearance of macrophages with the M2 phenotype correlated with the proliferative phase of kidney repair. In vitro studies showed that IFN␥-stimulated, proinflammatory macrophages begin to express markers of M2 macrophages when cocultured with renal tubular cells. Moreover, IL-4 -stimulated macrophages with an M2 phenotype, but not IFN␥-stimulated proinflammatory macrophages, promoted renal tubular cell proliferation. Finally, tracking fluorescently labeled, IFN␥-stimulated macrophages that were injected after injury showed that inflammatory macrophages can switch to an M2 phenotype in the kidney at the onset of kidney repair. Taken together, these studies show that macrophages undergo a switch from a proinflammatory to a trophic phenotype that supports the transition from tubule injury to tubule repair.

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Opposing Effects of Fasting Metabolism on Tissue Tolerance in Bacterial and Viral Inflammation

Wang

Huen

Luan

et al. 2016

Cell

465

467

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Summary Acute infections are associated with a set of stereotypic behavioral responses, including anorexia, lethargy, and social withdrawal. Although these so called sickness behaviors are the most common and familiar symptoms of infections, their roles in host defense are largely unknown. Here we investigated the role of anorexia in models of bacterial and viral infections. We found that anorexia was protective while nutritional supplementation was detrimental in bacterial sepsis. Furthermore, glucose was necessary and sufficient for these effects. In contrast, nutritional supplementation protected against mortality from influenza infection and viral sepsis, while blocking glucose utilization was lethal. In both bacterial and viral models, these effects were largely independent of pathogen load and magnitude of inflammation. Instead, we identify opposing metabolic requirements tied to cellular stress adaptations critical for tolerance of differential inflammatory states.

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Controversies in acute kidney injury: conclusions from a Kidney Disease: Improving Global Outcomes (KDIGO) Conference

Ostermann

Bellomo

Burdmann

et al. 2020

Kidney International

346

230

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I n 2012, Kidney Disease: Improving Global Outcomes (KDIGO) published a guideline on the classification and management of acute kidney injury (AKI). 1 Since then, new evidence has emerged that has important implications for clinical practice. Large epidemiology studies and risk profiles for AKI have become available in adults and children, such as the AKI-Epidemiologic Prospective Investigation (AKI-EPI) study, 2 the 0by25 Initiative, 3 the Southeast Asia-AKI (SEA-AKI) study, 4 and the Assessment of Worldwide Acute Kidney Injury, Renal Angina, and Epidemiology (AWARE) 5 and Assessment of Worldwide Acute Kidney Injury Epidemiology in Neonates (AWAKEN) 6 studies. The effectiveness of the KDIGO recommendations in preventing AKI has been confirmed in small single-center randomized controlled trials (RCTs), such as the Prevention of AKI (PrevAKI) 7 and the

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Macrophages Promote Cyst Growth in Polycystic Kidney Disease

et al. 2011

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Macrophages in Renal Injury and Repair

Huen

Cantley

2017

Annu. Rev. Physiol.

263

196

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Acute kidney injury (AKI) is a growing global health concern, yet no treatment is currently available to prevent it or to promote kidney repair after injury. Animal models demonstrate that the macrophage is a major contributor to the inflammatory response to AKI. Emerging data from human biopsies also corroborate the presence of macrophages in AKI and their persistence in progressive chronic kidney disease. Macrophages are phagocytic innate immune cells that are important mediators of tissue homeostasis and host defense. In response to tissue injury, macrophages become activated based on specific signals from the damaged microenvironment. The activation and functional state of the macrophage depends on the stage of tissue injury and repair, reflecting a dynamic and diverse spectrum of macrophage phenotypes. In this review, we highlight our current understanding of the mechanisms by which macrophages contribute to injury and repair after AKI.

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Sarah C. Huen

Distinct Macrophage Phenotypes Contribute to Kidney Injury and Repair

Opposing Effects of Fasting Metabolism on Tissue Tolerance in Bacterial and Viral Inflammation

Controversies in acute kidney injury: conclusions from a Kidney Disease: Improving Global Outcomes (KDIGO) Conference

Macrophages Promote Cyst Growth in Polycystic Kidney Disease

Macrophages in Renal Injury and Repair

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