Hypertension-induced Cardiac Pro-Arrhythmic Disorders of Connexin-43 and Extracellular Matrix Are Attenuated in Hairless Versus Wild-Type of Spontaneously Hypertensive Rats

Type of funding sources: Public grant(s) – National budget only. Main funding source(s): Development Agency under the contract no. 21-0410 VEGA grants no. 2/0002/20, 2/0006/23 Mechanical dysfunction and occurrence of malignant ventricular fibrillation (VF) are hallmarks of hypertensive heart disease and major health issue. Spontaneously hypertensive rats (SHR) that imitates human primary hypertension are prone to develop VF, mainly due to myocardial remodelling associated with disorders of electrical coupling protein connexin-43 (Cx43) and extracellular matrix (ECM) resulting in electrical instability. However, it is not known whether postnatal acclimation of hairless strain of SHR to surrounding temperature may induce cardio-protection. Therefore, we aimed to explore Cx43 and ECM alterations as well as susceptibility to inducible VF in hairless versus wild type SHR. Six-month-old wild type SHR males and females and hairless SHR housed at standard 22°C were examined. Biometric parameters, including electro- and echocardiography were registered. Left ventricular tissue was used for immunolabeling of Cx43 to reveal its topology and for western blotting to determine protein levels of Cx43 and its function modulating protein kinases, PKCε, PKCδ and PKCα as well as for ECM markers, TGF-β, SMAD2/3, MMP-2, collagen-1 and its histological deposition. Susceptibility of the heart to electrically-inducible VF was tested using isolated perfused heart technique. Comparing to wild type males, hairless SHR exhibited less pronounced prolongation of QT and QRS interval as well as an increase of ejection fraction. Myocardial Cx43 and its variant phosphorylated at serine-368, which preserve electrical coupling, were increased and pro-arrhythmic cardiomyocyte Cx43 topology was attenuated in males and females hairless vs wild type SHR. Moreover, the level of β-catenin, which ensures mechano-electrical coupling, was also increased in hairless SHR. On the other hand, collagen-1 and hydroxyproline were lower and the TGF-β1 and SMAD2/3 proteins were suppressed in males hairless vs wild type SHR. Myocardial ECM remodelling was less pronounced in females regardless rat strain. Hairless SHR males were less susceptible to inducible VF compared to wild type SHR, while females were less prone to develop VF regardless the strain. In conclusion, our findings imply that postnatal acclimation of hairless SHR is accompanied by attenuation of hypertension-induced adverse down-regulation of Cx43 and up-regulation of extracellular matrix proteins. It may contribute, at least in part, to the protection from malignant cardiac arrhythmias and mechanical dysfunction.