Abstract Body: Introduction: The Dahl salt-sensitive (DahlSS) rat is a valuable model for studying hypertension and blood pressure regulation. To create new genetic tools for probing gene function specifically within adipose tissues in this model, we engineered a constitutive Adipoq-Cre rat on a DahlSS genomic background using CRISPR-Cas9 genome editing.

Methods: A P2A-Cre cassette was inserted in-frame with the endogenous Adiponectin gene (ENSRNOG00065003537) to enable bicistronic expression from the major transcript (Adipoq-201; ENSRNOT00060022350.1). CRISPR targeting was achieved by microinjecting rat zygotes with a ribonucleoprotein (RNP) complex consisting of Cas9 protein and single guide RNA with a target near the stop codon, and a homology-directed repair plasmid template carrying the Cre recombinase cassette. To evaluate the pattern of Cre expression, Adipoq-Cre DahlSS rats were crossed with a Rosa-CAG-LSL-tdTomato LE reporter line (RRRC#: 009389). The progeny were analyzed for tdTomato reporter expression by cryo-fluorescence tomography (CFT) at postnatal day 10 (P10) and 10 weeks of age, using a Xerra^TM EMIT imaging platform (50um sections). A Zeiss LSM 880 system was used to image fresh Vectashield-mounted tissues with a Plan-Apochromat 20x objective and a 561nm laser.

Results: Strong CFT signal was detected in all examined adipose depots including subcutaneous, gonadal, and retroperitoneal white adipose tissue, interscapular brown adipose tissue, and perivascular adipose tissue (PVAT). Expression was also detected in the CNS. Confocal imaging of mesenteric PVAT and thoracic aorta PVAT revealed expression in adipocytes, endothelial cells, and peripheral nerves.

Conclusion: The newly developed constitutive DahlSS Adipoq-Cre recombinase knockin drives expression in white and brown adipose depots but the presence of expression in non-adipocyte cells suggests either developmental or adult adiponectin expression in endothelial and neuronal lineages, limiting its ability to drive strictly adipose-specific gene expression.