Dominique Couton scite author profile

Inflammation has been shown to induce the progression of fibrosis in response to liver injury. Among inflammatory cells, macrophages and lymphocytes play major roles in both the constitution and resolution of liver fibrosis. The chemokine receptor CCR2 is involved in the recruitment of monocytes to injury sites, and it is known to be induced during the progression of fibrosis in humans. However, its specific role during this process has not yet been unveiled. We first demonstrated that, compared with wild-type mice, CCR2 knockout animals presented a delay in liver injury after acute CCl 4 injection, accompanied by a reduction in infiltrating macrophage populations. We then induced fibrosis using repeated injections of CCl 4 and observed a significantly lower level of fibrotic scars at the peak of fibrosis in mutant animals compared with control mice. This diminished fibrosis was associated with a reduction in F4/ 80 ؉ CD11b ؉ and CD11c ؉ populations at the sites of injury. Subsequent analysis of the kinetics of the resolution of fibrosis showed that fibrosis rapidly regressed in wild-type, but not in CCR2 ؊/؊ mice. The persistence of hepatic injury in mutant animals was correlated with sustained tissue inhibitor of metalloproteinase-1 mRNA expression levels and a reduction in matrix metalloproteinase-2 and matrix metalloproteinase-13 expression levels. In conclusion, these findings underline the role of the CCR2 signaling pathway in both the constitution and resolution of liver fibrotic scars.

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Liver tetraploidization is controlled by a new process of incomplete cytokinesis

Margall-Ducos

et al. 2007

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Dominique Couton

Oxidative stress promotes pathologic polyploidization in nonalcoholic fatty liver disease

Dual Role of CCR2 in the Constitution and the Resolution of Liver Fibrosis in Mice

Liver tetraploidization is controlled by a new process of incomplete cytokinesis

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