Macrophages in Chronic Liver Failure: Diversity, Plasticity and Therapeutic Targeting

Singanayagam, Arjuna; Triantafyllou, Evangelos

doi:10.3389/fimmu.2021.661182

Cited by 33 publications

(32 citation statements)

References 227 publications

(210 reference statements)

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“…Interestingly, a distinct population of scar-associated macrophages deriving from recruitment and differentiation of circulating monocytes has been identified, following liver damage. This macrophage subtype has an important role in resolution of liver fibrosis, representing one of the sources of MMP13 in fibrotic niches in livers of cirrhotic patients [132]. During the early stages of liver injury, scar-associated macrophages differentiate into inflammatory macrophages, and subsequently switch to an anti-inflammatory phenotype, which secretes a wide variety of MMPs to facilitate fibrosis resolution [133,134].…”

Section: Bone-marrow/monocyte-derived Macrophagesmentioning

confidence: 99%

Cellular and Molecular Mechanisms Underlying Liver Fibrosis Regression

Caligiuri

Gentilini

Pastore

et al. 2021

Cells

116

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Chronic liver injury of different etiologies may result in hepatic fibrosis, a scar formation process consisting in altered deposition of extracellular matrix. Progression of fibrosis can lead to impaired liver architecture and function, resulting in cirrhosis and organ failure. Although fibrosis was previous thought to be an irreversible process, recent evidence convincingly demonstrated resolution of fibrosis in different organs when the cause of injury is removed. In the liver, due to its high regenerative ability, the extent of fibrosis regression and reversion to normal architecture is higher than in other tissues, even in advanced disease. The mechanisms of liver fibrosis resolution can be recapitulated in the following main points: removal of injurious factors causing chronic hepatic damage, elimination, or inactivation of myofibroblasts (through various cell fates, including apoptosis, senescence, and reprogramming), inactivation of inflammatory response and induction of anti-inflammatory/restorative pathways, and degradation of extracellular matrix. In this review, we will discuss the major cellular and molecular mechanisms underlying the regression of fibrosis/cirrhosis and the potential therapeutic approaches aimed at reversing the fibrogenic process.

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Section: Bone-marrow/monocyte-derived Macrophagesmentioning

confidence: 99%

Cellular and Molecular Mechanisms Underlying Liver Fibrosis Regression

Caligiuri

Gentilini

Pastore

et al. 2021

Cells

116

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“…Indeed, in NAFLD patients, LPS-induced activation of liver MFs is associated with inflammation and fibrosis, and both TLR4 knockout (KO) and clodronate-mediated hepatic MF depletion attenuate experimental NASH [ 132 , 133 ]. Preventing hepatic MF activation by targeting the LPS–TLR4 axis may thus represent a valid therapeutic strategy for CLD, especially since pharmacological inhibition of TLR4 has already been shown to ameliorate liver injury and inflammation in experimental fibrosis/cirrhosis [ 130 , 134 ]. In addition to LPS, other gut-derived bacterial metabolites are involved in hepatic MF-mediated immunity as well [ 130 ].…”

Section: Macrophages During Gut-liver Axis Disruption In Chronic Liver Diseasementioning

confidence: 99%

“…Chronic ethanol administration in mice leads to an altered intestinal mycobiome, with increased translocation of β-glucan to the liver, leading to hepatic MF-induced liver injury and inflammation [ 136 ]. An effective strategy to prevent MAMP-mediated MF activation in CLD might be restoration of eubiosis using broad-spectrum antibiotics, probiotics, and fecal microbiota transfer [ 11 , 134 ]. In mice receiving HFD, modulation of the gut microbiome through the administration of inulin was found to reduce TLR4-mediated hepatic MF activation and prevent NAFLD development [ 137 , 138 ].…”

Section: Macrophages During Gut-liver Axis Disruption In Chronic Liver Diseasementioning

confidence: 99%

“…In the liver, in addition to exposure to persistent hepatic injury-associated DAMPs, increased intestinal translocation of harmful MAMPs can activate resident KCs through pattern recognition receptors [ 134 , 175 , 317 , 319 ], resulting in CXCL1-, CXCL2- and CXCL8-dependent recruitment of neutrophils, as well as the recruitment of Ly6C hi monocytes, mediated by several CCLs, including CCL2, CCL3, and CCL5 [ 12 , 126 , 322 , 323 ]. The crucial role of monocyte recruitment in fibrogenesis has been emphasized by several studies in which pharmacological inhibition or genetic deletion of certain CCLs/CCRs in experimental mouse models of fibrosis resulted in attenuation of disease [ 139 , 324 , 325 ].…”

Section: Macrophages During Gut-liver Axis Disruption In Chronic Liver Diseasementioning

confidence: 99%

“…In this view, despite the feasibility of ex vivo differentiation of cirrhotic patients’ CD14 + monocytes into pro-resolution MFs, pharmacological modulation of MF recruitment or polarization seems to be a more straightforward option [ 10 , 323 , 343 ]. A broad range of hepatic MF-targeting strategies have shown therapeutic potential in experimental animal models of liver fibrosis, but only a handful of them have already advanced to clinical trials [ 11 , 134 , 140 ]. Further efforts to improve our understanding of MF heterogeneity, plasticity, and function during liver fibrosis in order to promote the identification of novel, promising treatment options are thus of need.…”

Section: Macrophages During Gut-liver Axis Disruption In Chronic Liver Diseasementioning

confidence: 99%

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The Gut–Liver Axis in Chronic Liver Disease: A Macrophage Perspective

Muynck

Vanderborght

Vlierberghe

et al. 2021

Cells

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Chronic liver disease (CLD) is a growing health concern which accounts for two million deaths per year. Obesity, alcohol overconsumption, and progressive cholestasis are commonly characterized by persistent low-grade inflammation and advancing fibrosis, which form the basis for development of end-stage liver disease complications, including hepatocellular carcinoma. CLD pathophysiology extends to the intestinal tract and is characterized by intestinal dysbiosis, bile acid dysregulation, and gut barrier disruption. In addition, macrophages are key players in CLD progression and intestinal barrier breakdown. Emerging studies are unveiling macrophage heterogeneity and driving factors of their plasticity in health and disease. To date, in-depth investigation of how gut–liver axis disruption impacts the hepatic and intestinal macrophage pool in CLD pathogenesis is scarce. In this review, we give an overview of the role of intestinal and hepatic macrophages in homeostasis and gut–liver axis disruption in progressive stages of CLD.

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Implications and Management of Cirrhosis‐Associated Immune Dysfunction Before and After Liver Transplantation

2021

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Cirrhosis‐associated immune dysfunction (CAID) describes a panacea of innate and adaptive deficits that result from the sequelae of cirrhotic portal hypertension that is similar in its manifestations regardless of etiology of chronic liver injury. CAID is associated with synchronous observations of dysregulated priming of innate immune effector cells that demonstrate a proinflammatory phenotype but are functionally impaired and unable to adequately prevent invading pathogens. CAID is mainly driven by gut‐barrier dysfunction and is associated with deficits of microbial compartmentalization and homeostasis that lead to tonic activation, systemic inflammation, and exhaustion of innate‐immune cells. CAID leads to a high frequency of bacterial and fungal infections in patients with cirrhosis that are often associated with acute decompensation of chronic liver disease and acute‐on‐chronic liver failure and carry a high mortality rate. Understanding the deficits of mucosal and systemic immunity in the context of chronic liver disease is essential to improving care for patients with cirrhosis, preventing precipitants of acute decompensation of cirrhosis, and improving morbidity and survival. In this review, we summarize the detailed dynamic immunological perturbations associated with advanced chronic liver disease and highlight the importance of recognizing immune dysregulation as a sequela of cirrhosis. Furthermore, we address the role of screening, prevention, and early treatment of infections in cirrhosis in improving patient outcomes in transplant and nontransplant settings.

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Macrophages in Chronic Liver Failure: Diversity, Plasticity and Therapeutic Targeting

Cited by 33 publications

References 227 publications

Cellular and Molecular Mechanisms Underlying Liver Fibrosis Regression

Cellular and Molecular Mechanisms Underlying Liver Fibrosis Regression

The Gut–Liver Axis in Chronic Liver Disease: A Macrophage Perspective

Implications and Management of Cirrhosis‐Associated Immune Dysfunction Before and After Liver Transplantation

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