Abstract
Inactivation of Kcc3 in a mixed 129/Sv×C57BL/6 mouse background has been previously found to increase systemic blood pressure (BP) through presumed neurogenic mechanisms. Yet, while this background is generally not considered ideal to investigate the cardiovascular system, KCC3 is also expressed in the arterial wall and proximal nephron. In the current study, the effects of Kcc3 ablation was investigated in a pure rather than mixed C57BL/6J background under regular- and high-salt diets to determine whether they could be mediated through vasculogenic and nephrogenic mechanisms. Aortas were also assessed for reactivity to pharmacological agents while isolated from the influence of sympathetic ganglia. This approach led to the identification of unforeseen abnormalities such as lower pulse pressure, heart rate, aortic reactivity and aortic wall thickness, but higher diastolic BP, left ventricular mass and urinary output in the absence of increased catecholamine levels. Salt loading also led systolic BP to be higher, but to no further changes in hemodynamic parameters. Importantly, aortic vascular smooth muscle cells and cardiomyocytes were both found to express KCC3 abundantly in heterozygous mice. Hence, Kcc3 inactivation in our model caused systemic vascular resistance and ventricular mass to increase while preventing extracellular fluid volume to accumulate. Given that it also affected the physiological properties of aortas in vitro, vasculogenic mechanisms could therefore account for a number of the hemodynamic abnormalities observed.
Highlights
The cation-Cl− cotransporter (CCC) family is comprised of nine members that are highly homologous to each other and that play important physiological roles
To determine whether blood pressure (BP) in the pure Kcc3−/−C57BL/6J mouse model was elevated and salt-sensitive as in many models of systemic hypertension, hemodynamic measurements were obtained by tail-cuff sphygmomanometry over several days under regular- and high-salt diets
Under a regular-salt diet, it is seen that mean arterial pressure (MAP) and diastolic BP (DBP) in Kcc3−/− mice are significantly higher than in WT littermates while systolic BP (SBP) are similar and pulse pressure (PP) lower
Summary
The cation-Cl− cotransporter (CCC) family (or Slc12a family) is comprised of nine members that are highly homologous to each other and that play important physiological roles. IC087830 and IC090498]; Kidney Foundation of Canada. Garneau was supported through a Master’s Training Award from the Fonds de recherche du Québec – Santé [award number 22593]. Dr Paul Isenring holds a CFI-CIHR research chair in molecular physiology
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