Hacer Sahin scite author profile

Activation of hepatic stellate cells in response to chronic inflammation represents a crucial step in the development of liver fibrosis. However, the molecules involved in the interaction between immune cells and stellate cells remain obscure. Herein, we identify the chemokine CCL5 (also known as RANTES), which is induced in murine and human liver after injury, as a central mediator of this interaction. First, we showed in patients with liver fibrosis that CCL5 haplotypes and intrahepatic CCL5 mRNA expression were associated with severe liver fibrosis. Consistent with this, we detected Ccl5 mRNA and CCL5 protein in 2 mouse models of liver fibrosis, induced by either injection of carbon tetrachloride (CCl 4 ) or feeding on a methionine and choline-deficient (MCD) diet. In these models, Ccl5 -/-mice exhibited decreased hepatic fibrosis, with reduced stellate cell activation and immune cell infiltration. Transplantation of Ccl5-deficient bone marrow into WT recipients attenuated liver fibrosis, identifying infiltrating hematopoietic cells as the main source of Ccl5. We then showed that treatment with the CCL5 receptor antagonist Met-CCL5 inhibited cultured stellate cell migration, proliferation, and chemokine and collagen secretion. Importantly, in vivo administration of Met-CCL5 greatly ameliorated liver fibrosis in mice and was able to accelerate fibrosis regression. Our results define a successful therapeutic approach to reduce experimental liver fibrosis by antagonizing Ccl5 receptors.

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Comparison of CCL28, interleukin‐8, interleukin‐1β and tumor necrosis factor‐alpha in subjects with gingivitis, chronic periodontitis and generalized aggressive periodontitis

Ertuğrul

Sahin

Dikilitaş

et al. 2012

J of Periodontal Research

115

118

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CCL28, IL-8, IL-1β and TNF-α may play key roles in the host response to inflammation in periodontal diseases. As the severity of periodontal diseases increases, destruction of periodontal tissues also increases. Inflammation is one among many factors that trigger periodontal tissue destruction. Identification of the mediators that influence the development and progression of inflammation in periodontal diseases may be very important in understanding the prognoses of periodontal diseases.

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Functional role of chemokines in liver disease models

Sahin

Trautwein

Wasmuth

2010

Nat Rev Gastroenterol Hepatol

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Chemokines are a class of small cytokine-like molecules that orchestrate immune cell infiltration into the liver in response to acute and chronic injuries. Apart from their chemotactic effect, however, chemokines seem to mediate many other aspects of liver diseases, including a direct activation of stellate cells, the modulation of hepatocyte proliferation and angiogenesis. The identification of specific biological functions for chemokines in liver diseases has been hampered by the finding that resident and infiltrating cells in the liver are often a source, as well as a target, of chemokines. Furthermore, chemokines might cause differing effects depending on the etiology of liver damage, their local concentrations and their ability to form multimers and heterodimers. Nevertheless, the functions of a number of important chemokines and their associated receptors have been identified in both in vivo and in vitro studies. Indeed, harmful (proinflammatory, profibrogenic) and beneficial (antifibrogenic, antiangiogenic) effects of chemokines have been discovered in experimental liver disease models. In this Review, the current knowledge of chemokines in experimental liver disease models is summarized. Advances that might lead to preclinical applications are discussed, as are the roles of chemokine receptors as promising pharmacologically targetable molecules.

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Chemokine Cxcl9 attenuates liver fibrosis-associated angiogenesis in mice

et al. 2012

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Recent data suggest that the chemokine receptor CXCR3 is functionally involved in fibroproliferative disorders, including liver fibrosis. Neoangiogenesis is an important pathophysiological feature of liver scarring, but a functional role of angiostatic CXCR3 chemokines in this process is unclear. We therefore investigated neoangiogenesis in carbon tetrachloride (CCl4)‐induced liver fibrosis in Cxcr3−/− and wildtype mice by histological, molecular, and functional imaging methods. Furthermore, we assessed the direct role of vascular endothelial growth factor (VEGF) overexpression on liver angiogenesis and the fibroproliferative response using a Tet‐inducible bitransgenic mouse model. The feasibility of attenuation of angiogenesis and associated liver fibrosis by therapeutic treatment with the angiostatic chemokine Cxcl9 was systematically analyzed in vitro and in vivo. The results demonstrate that fibrosis progression in Cxcr3−/− mice was strongly linked to enhanced neoangiogenesis and VEGF/VEGFR2 expression compared with wildtype littermates. Systemic VEGF overexpression led to a fibrogenic response within the liver and was associated with a significantly increased Cxcl9 expression. In vitro, Cxcl9 displayed strong antiproliferative and antimigratory effects on VEGF‐stimulated endothelial cells and stellate cells by way of reduced VEGFR2 (KDR), phospholipase Cγ (PLCγ), and extracellular signal‐regulated kinase (ERK) phosphorylation, identifying this chemokine as a direct counter‐regulatory molecule of VEGF signaling within the liver. Accordingly, systemic administration of Cxcl9 led to a strong attenuation of neoangiogenesis and experimental liver fibrosis in vivo. Conclusion: The results identify direct angiostatic and antifibrotic effects of the Cxcr3 ligand Cxcl9 in a model of experimental liver fibrosis. The amelioration of liver damage by systemic application of Cxcl9 might offer a novel therapeutic approach for chronic liver diseases associated with increased neoangiogenesis. (HEPATOLOGY 2012)

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Chemokines in tissue fibrosis

Sahin¹,

Wasmuth²

2013

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Fibrosis or scarring of diverse organs and tissues is considered as a pathologic consequence of a chronically altered wound healing response which is tightly linked to inflammation and angiogenesis. The recruitment of immune cells, local proliferation of fibroblasts and the consecutive accumulation of extracellular matrix proteins are common pathophysiological hallmarks of tissue fibrosis, irrespective of the organ involved. Chemokines, a family of chemotactic cytokines, appear to be central mediators of the initiation as well as progression of these biological processes. Traditionally chemokines have only been considered to play a critical role in orchestrating the influx of immune cells to sites of tissue injury. However, within the last years, further aspects of chemokine biology including fibroblast activation and angiogenesis have been deciphered in tissue fibrosis of many different organs. Interestingly, certain chemokines appear to mediate common effects in liver, kidney, lung, and skin of various animal models, while others mediate tissue specific effects. These aspects have to be kept in mind when extrapolating data of animal studies to early human trials. Nevertheless, the further understanding of chemokine effects in tissue fibrosis might be an attractive approach for identifying novel therapeutic targets in chronic organ damage associated with high morbidity and mortality. This article is part of a Special Issue entitled: Fibrosis: Translation of basic research to human disease.

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Hacer Sahin

Antagonism of the chemokine Ccl5 ameliorates experimental liver fibrosis in mice

Comparison of CCL28, interleukin‐8, interleukin‐1β and tumor necrosis factor‐alpha in subjects with gingivitis, chronic periodontitis and generalized aggressive periodontitis

Functional role of chemokines in liver disease models

Chemokine Cxcl9 attenuates liver fibrosis-associated angiogenesis in mice

Chemokines in tissue fibrosis

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