posted on 2022-02-22, 20:45authored byJonathan E. Campbell, Jacqueline L. Beaudry, Berit Svendsen, Laurie L. Baggio, Andrew N. Gordon, John R. Ussher, Chi Kin Wong, Fiona M. Gribble, David A. D’Alessio, Frank Reimann, Daniel J. Drucker
The
incretin hormone glucose-dependent insulinotropic polypeptide (GIP) augments
glucose-dependent insulin secretion through its receptor expressed on islet b-cells. GIP also acts on adipose tissue, yet
paradoxically, both enhanced and reduced GIP receptor (GIPR) signaling reduce
adipose tissue mass and attenuate weight gain in response to nutrient excess. Moreover,
the precise cellular localization of GIPR expression within white adipose
tissue (WAT) remains uncertain. Here, we used mouse genetics to target Gipr expression within adipocytes. Surprisingly,
targeting Cre expression to adipocytes using the Adiponectin (Adipoq) promoter did not produce
meaningful reduction of WAT Gipr expression
in Adipoq-Cre:Giprflx/flx mice.
In contrast, adenoviral expression of Cre
under the control of the CMV promoter, or transgenic expression of Cre using non-adipocyte-selective promoters
(Ap2/Fabp4 and Ubc) markedly
attenuated WAT Gipr expression. Analysis
of single nucleus RNA-seq adipose tissue data sets localized Gipr/GIPR
expression predominantly to pericytes and mesothelial cells rather than to
adipocytes. Together, these observations reveal that adipocytes are not the
major GIPR+ cell type within WAT, findings with mechanistic implications for
understanding how GIP and GIP-based co-agonists control adipose tissue biology.
Funding
Government of Canada > Canadian Institutes of Health Research > Institute of Nutrition, Metabolism and Diabetes 154321