Characterization of a CLCF1 conditional knock-out mice model

Abstract

Abstract The Cardiotrophin-like Cytokine Factor 1 (CLCF1) is a cytokine of the IL6 family with important pro-neurotrophic and immuno-modulating functions. However, the mechanisms behind CLCF1 activities and CLCF1 properties in pathological models remain poorly understood. This is partly due to a lack of tools for the study of CLCF1 functions in vivo. Indeed, the complete knock-out of CLCF1 in mice is lethal at P1: underdeveloped motor neurons of the face and jaw prevent the pups from suckling. To overcome this obstacle, we obtained a CLCF1 conditional knock-out mice model generated using the CRISPR-Cas9 technology. We then bred these mice with Vav-Cre mice to induce CLCF1 deletion in hematopoietic cells. We are now conducting immuno-phenotyping experiments of the main immune populations in those animals. Considering the activities of CLCF1 that were previously shown in vitro or in vivo using overexpression models, we hypothesize that the knock-out of CLCF1 in immune cells will lead to decreased numbers of B and myeloid cells. This new CLCF1 conditional knock-out mice model will be a potent tool to confirm and further study the activities, mechanisms, and pathological roles of CLCF1 in vivo. Supported by grants from CIHR (Canadian Institutes of Health Research)