Your search keyword '"Boutin, Louis"' showing total 2 results

1. The Role of Connexin 43 in Renal Disease: Insights from In Vivo Models of Experimental Nephropathy.

Author

Roger, Elena, Boutin, Louis, and Chadjichristos, Christos E.

Subjects

*KIDNEY diseases, *KIDNEY development, *DISEASE progression, *INFLAMMATION, *KIDNEY physiology, *CONNEXIN 43

Abstract

Renal disease is a major public health challenge since its prevalence has continuously increased over the last decades. At the end stage, extrarenal replacement therapy and transplantation remain the only treatments currently available. To understand how the disease progresses, further knowledge of its pathophysiology is needed. For this purpose, experimental models, using mainly rodents, have been developed to unravel the mechanisms involved in the initiation and progression of renal disease, as well as to identify potential targets for therapy. The gap junction protein connexin 43 has recently been identified as a novel player in the development of kidney disease. Its expression has been found to be altered in many types of human renal pathologies, as well as in different animal models, contributing to the activation of inflammatory and fibrotic processes that lead to renal damage. Furthermore, Cx43 genetic, pharmacogenetic, or pharmacological inhibition preserved renal function and structure. This review summarizes the existing advances on the role of this protein in renal diseases, based mainly on different in vivo animal models of acute and chronic renal diseases. [ABSTRACT FROM AUTHOR]

Published

2022

2. Galectin-3 in Kidney Diseases: From an Old Protein to a New Therapeutic Target.

Author

Boutin, Louis, Dépret, François, Gayat, Etienne, Legrand, Matthieu, and Chadjichristos, Christos E.

Subjects

*GALECTINS, *KIDNEY diseases, *RENAL fibrosis, *EXTRACELLULAR matrix, *PROTEINS, *CELL adhesion

Abstract

Galectin-3 (Gal-3) is a 30KDa lectin implicated in multiple pathophysiology pathways including renal damage and fibrosis. Gal-3 binds β-galactoside through its carbohydrate-recognition domain. From intra-cellular to extra-cellular localization, Gal-3 has multiple roles including transduction signal pathway, cell-to-cell adhesion, cell to extracellular matrix adhesion, and immunological chemoattractant protein. Moreover, Gal-3 has also been linked to kidney disease in both preclinical models and clinical studies. Gal-3 inhibition appears to improve renal disease in several pathological conditions, thus justifying the development of multiple drug inhibitors. This review aims to summarize the latest literature regarding Gal-3 in renal pathophysiology, from its role as a biomarker to its potential as a therapeutic agent. [ABSTRACT FROM AUTHOR]

Published

2022