Abstract

Sustained sympathoexcitation is a hallmark of heart failure, with equally sustained activation of downstream signaling pathways involving Gs- and Gi/o-coupled β-adrenergic receptors (βAR) stimulating cAMP production and PKA activation. A critical mechanism controlling G protein-mediated βAR signaling is the activity of regulator of G protein signaling (RGS) proteins, including members of the B/R4 subfamily, which accelerate the termination of Gq/11 and Gi/o protein signaling. Previous studies by us and others reported that moderation of Gi/o activity separately by RGS2 and RGS5 of the R4 subfamily is key to maintaining normal ventricular rhythm. The loss of one or both R4 RGS proteins also results in left ventricular (LV) dilation and reduced ejection fraction. Here, we tested the hypothesis that the LV structural remodeling is due to the disruption of the coordinated activity of RGS2 and 5 resulting in sensitization of βAR signaling. To test this hypothesis, we challenged wild type (WT), Rgs2 KO ,Rgs5 KO, and Rgs2/5 double knockout (dbKO) adult male mice with sub-chronic infusion of isoproterenol (ISO, 30 mg/kg/day, 3 days) via a peritoneal osmotic minipump implantation. Rgs2 KO and Rgs5 KO mice showed increased LV chamber size at baseline, which was unchanged by ISO administration. In saline-treated animals, the loss of Rgs2 increased Rgs5 mRNA expression, while Rgs5 absence increased Rgs4 mRNA expression. ISO infusion induced concentric cardiac hypertrophy in WT mice, as evidenced by increased heart weight/tibia length (HW/TL) ratio and cardiomyocyte cross sectional area. While ISO infusion increased interstitial fibrosis in midventricular tissue and HW/TL ratio in dbKO mice, it did not affect cardiomyocyte cross sectional area or exacerbate LV dilation, despite increased expression of the cardiac fetal gene Nppa as well as the sarcomeric protein α-actinin and Ca2+/calmodulin-dependent kinase II (CaMKII). Cardiact tissue from saline-treated Rgs2 KO and Rgs5 KO mice had markedly increased CD45+ cells vs WT, while tissue from Rgs5 KO mice showed increased CD68+ cells, as revealed by immunohistochemistry. Taken together, these results indicate that ventricular remodeling seen in Rgs2 KO, Rgs5 KO, and Rgs2/5 dbKO mice is insensitive to sustained βAR stimulation but may be due to increased cardiac resident immune cell population. This work was supported by NIH R56 DK132859-01A1 and R01 HL139754, and Craig H. Neilsen Foundation Grant 382566 to Patrick Osei-Owusu. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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