Refereed journal article or data article (A1)

Obesity of mice lacking VAP-1/SSAO byAoc3gene deletion is reproduced in mice expressing a mutated vascular adhesion protein-1 (VAP-1) devoid of amine oxidase activity




List of AuthorsValentin Jargaud, Sandy Bour, François Tercé, Xavier Collet,Philippe Valet, Anne Bouloumié, Jean-Claude Guillemot, Pascale Mauriège, Sirpa Jalkanen, Craig Stolen, Marko Salmi , David J. Smith, Christian Carpéné

PublisherSPRINGER

Publication year2020

JournalJournal of Physiology and Biochemistry

Journal name in sourceJOURNAL OF PHYSIOLOGY AND BIOCHEMISTRY

Journal acronymJ PHYSIOL BIOCHEM

Number of pages14

ISSN1138-7548

DOIhttp://dx.doi.org/10.1007/s13105-020-00756-y


Abstract
The product ofAoc3gene is known as vascular adhesion protein-1 (VAP-1), a glycoprotein contributing to leukocyte extravasation and exhibiting semicarbazide-sensitive amine oxidase activity (SSAO). Regarding the immune functions of VAP-1/SSAO, it is known that mice bearingAoc3gene knock-out (AOC3KO) exhibit defects in leukocyte migration similar to those of mice expressing a mutated VAP-1 lacking functional SSAO activity (knock-in, AOC3KI). However, it has not been reported whether these models differ regarding other disturbances. Thus, we further compared endocrine-metabolic phenotypes of AOC3KO and AOC3KI mice to their respective control. Special attention was paid on adiposity, glucose and lipid handling, since VAP-1/SSAO is highly expressed in adipose tissue (AT). In both mouse lines, no tissue SSAO activity was found, whileAoc3mRNA was absent in AOC3KO only. Although food consumption was unchanged, both AOC3KO and AOC3KI mice were heavier and fatter than their respective controls. Other alterations commonly found in adipocytes from both lines were loss of benzylamine insulin-like action with unchanged insulin lipogenic responsiveness and adiponectin expression. A similar downregulation of inflammatory markers (CD45,IL6) was found in AT. Glucose handling and liver mass remained unchanged, while circulating lipid profile was distinctly altered, with increased cholesterol in AOC3KO only. These results suggest that the lack of oxidase activity found in AOC3KI is sufficient to reproduce the metabolic disturbances observed in AOC3KO mice, save those related with cholesterol transport. Modulation of SSAO activity therefore constitutes a potential target for the treatment of cardiometabolic diseases, especially obesity when complicated by low-grade inflammation.


Last updated on 2021-24-06 at 12:09