Glycolytic Stimulation Is Not a Requirement for M2 Macrophage Differentiation

Wang, Fei Long; Zhang, Song; Vučković, Ivan; Jeon, Ryoung-Hoon; Lerman, Amir; Folmes, Clifford D.L.; Dzeja, Petras P.; Herrmann, Joerg

doi:10.1016/j.cmet.2018.08.012

Cited by 250 publications

(251 citation statements)

References 45 publications

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“…IL‐10 drives the metabolic shift from glycolysis to oxidative phosphorylation (OXPHOS) in macrophages. This glycolytic shift is crucial in shaping the phenotypes of macrophages as OXPHOS is important for M2 macrophage differentiation . Therefore, IL‐10 is critical in controlling the overall redox status and polarization of macrophages through regulating autophagy.…”

Section: Obesity Reinforces Machinery Of Ageingmentioning

confidence: 99%

“…This glycolytic shift is crucial in shaping the phenotypes of macrophages as OXPHOS is important for M2 macrophage differentiation. 67 Therefore, IL-10 is critical in controlling the overall redox status and polarization of macrophages through regulating autophagy. It is worth noting that low levels of IL-10 has been associated with metabolic syndrome 68 , dyslipidaemia, 69 and android obesity.…”

Section: Insufficient Autophagy and Apoptosismentioning

confidence: 99%

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Obesity and ageing: Two sides of the same coin

2020

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Summary Conditions and comorbidities of obesity mirror those of ageing and age‐related diseases. Obesity and ageing share a similar spectrum of phenotypes such as compromised genomic integrity, impaired mitochondrial function, accumulation of intracellular macromolecules, weakened immunity, shifts in tissue and body composition, and enhanced systemic inflammation. Moreover, it has been shown that obesity reduces life expectancy by 5.8 years in men and 7.1 years in women after the age of 40. Shorter life expectancy could be because obesity holistically accelerates ageing at multiple levels. Besides jeopardizing nuclear DNA and mitochondrial DNA integrity, obesity modifies the DNA methylation pattern, which is associated with epigenetic ageing in different tissues. Additionally, other signs of ageing are seen in individuals with obesity including telomere shortening, systemic inflammation, and functional declines. This review aims to show how obesity and ageing are “two sides of the same coin” through discussing how obesity predisposes an individual to age‐related conditions, illness, and disease. We will further demonstrate how the mechanisms that perpetuate the early‐onset of chronic diseases in obesity parallel those of ageing.

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Section: Obesity Reinforces Machinery Of Ageingmentioning

confidence: 99%

Section: Insufficient Autophagy and Apoptosismentioning

confidence: 99%

Obesity and ageing: Two sides of the same coin

2020

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“…Macrophages are typically divided into classically activated M1 subtype and alternatively activated M2 subtype. Classically activated M1 macrophages rely on glycolysis, whereas alternatively activated M2 macrophages acquire energy from OXPHOS . We found that AOAA seems to switch the metabolism of M1 macrophages towards M2‐like metabolism, as displayed by reduction in lactic acid production and glycolytic rates in conjunction with increment in ATP production.…”

Section: Resultsmentioning

confidence: 75%

Aminooxyacetic acid attenuates post‐infarct cardiac dysfunction by balancing macrophage polarization through modulating macrophage metabolism in mice

Zhao

Zhang

et al. 2020

J Cellular Molecular Medi

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Excessive activation of pro‐inflammatory M1 macrophages following acute myocardial infarction (MI) aggravates adverse cardiac remodelling and heart dysfunction. There are two break points in the tricarboxylic acid cycle of M1 macrophages, and aspartate‐arginosuccinate shunt compensates them. Aminooxyacetic acid (AOAA) is an inhibitor of aspartate aminotransferase in the aspartate‐arginosuccinate shunt. Previous studies showed that manipulating macrophage metabolism may control macrophage polarization and inflammatory response. In this study, we aimed to clarify the effects of AOAA on macrophage metabolism and polarization and heart function after MI. In vitro, AOAA inhibited lactic acid and glycolysis and enhanced ATP levels in classically activated M1 macrophages. Besides, AOAA restrained pro‐inflammatory M1 macrophages and promoted anti‐inflammatory M2 phenotype. In vivo, MI mice were treated with AOAA or saline for three consecutive days. Remarkably, AOAA administration effectively inhibited the proportion of M1 macrophages and boosted M2‐like phenotype, which subsequently attenuated infarct size as well as improved post‐MI cardiac function. Additionally, AOAA attenuated NLRP3‐Caspase1/IL‐1β activation and decreased the release of IL‐6 and TNF‐α pro‐inflammatory cytokines and reciprocally increased IL‐10 anti‐inflammatory cytokine level in both ischaemic myocardium and M1 macrophages. In conclusion, short‐term AOAA treatment significantly improves cardiac function in mice with MI by balancing macrophage polarization through modulating macrophage metabolism and inhibiting NLRP3‐Caspase1/IL‐1β pathway.

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“…Blocking glycolysis with 2‐deoxyglucose diminished expression of IL‐4 regulated genes, surface markers and effector functions, and a similar effect was observed when mitochondrial ATP synthesis was inhibited with oligomycin, indicating that glucose can fuel the TCA cycle to support mitochondrial respiration following IL‐4 polarization (Figure ) . However, a recent publication demonstrated that blocking glycolysis via glucose deprivation or galactose supplementation did not affect M(IL‐4) activation, unlike 2‐deoxyglucose treatment . In these settings, IL‐4 activated macrophages could increase the use of alternate pathways, such as glutaminoloysis, to support oxidative metabolism in the absence of glycolytic activity.…”

Section: Alternatively Activated Macrophage Metabolismmentioning

confidence: 99%

“…32,45 However, a recent publication demonstrated that blocking glycolysis via glucose deprivation or galactose supplementation did not affect M(IL-4) activation, unlike 2-deoxyglucose treatment. 46 In these settings, IL-4 activated macrophages could increase the use of alternate pathways, such as glutaminoloysis, to support oxidative metabolism in the absence of glycolytic activity. Furthermore, data suggesting that glucose can fuel fatty acid synthesis to support increased FAO in alternatively activated macrophages provides a link between glycolysis, fatty acid synthesis, and FAO.…”

Section: Alternatively Activated Macrophage Metabolismmentioning

confidence: 99%

Macrophage metabolism: a wound‐healing perspective

2019

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Macrophages are a critical component of the innate immune response, and compose the first response to perturbations in tissue homeostasis. Their unique ability to dynamically integrate diverse stimuli underlies their important role in the healing response from first insult to re‐establishment of tissue homeostasis. While the roles of macrophages in tissue repair have been well‐described in vitro and in vivo, the influence of cellular metabolism on macrophage function during tissue repair remains an unexplored area of immunometabolism. In this review, we will explore the unique metabolic requirements of inflammatory and anti‐inflammatory macrophages and the potential contribution of macrophage metabolism to each phase of wound healing.

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Glycolytic Stimulation Is Not a Requirement for M2 Macrophage Differentiation

Cited by 250 publications

References 45 publications

Obesity and ageing: Two sides of the same coin

Obesity and ageing: Two sides of the same coin

Aminooxyacetic acid attenuates post‐infarct cardiac dysfunction by balancing macrophage polarization through modulating macrophage metabolism in mice

Macrophage metabolism: a wound‐healing perspective

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