Contribution of murine strain background to Na+ reabsorption in the kidney

Kidneys play an essential role in balancing fluid and electrolyte levels. Two mouse strains, C57Bl/6 and 129S2/SV, are routinely used to study renal physiology in laboratory settings, and prior observations suggest that significant differences in salt and water handling exist between them. This study aims to further establish the sources of these observed differences at both expressional and functional levels, in male and female mice. At baseline, male 129S2/SV mice displayed decreased Na+ and increased K+ plasma concentrations compared to C57Bl/6 males, while no statistical differences were observed between female mice. Interestingly, 129S2/SV male mice had lower glomerular density than C57Bl/6 males. Immunoblotting shows that 129S2/SV mice of both sexes had increased expression of NHE3 and NKCC2 compared to their C57Bl/6 counterparts. Both total and phosphorylated NCC were more abundant in female mice as compared to males, indicating sexual dimorphism. Furthermore, 129S2/SV females had higher expression of total and phosphorylated NCC compared to C57Bl/6 females. In contrast, the expression of SGLT2, ENaC subunits, and Na+/K+-ATPase were comparable between C57Bl/6 and 129S2/SV mice of both sexes. When challenged with diuretics intended to block NKCC2, NCC or ENaC, 129S2/SV male mice responded with a smaller diuresis and natriuresis than their C57Bl/6 counterparts. Taken together, our data suggest that differential expression of key Na+ transporters along the nephron contributes to differences in Na+/K+ homeostasis between these two mouse strains. NEW & NOTEWORTHYWe assessed the influence of genetic background on the expression of key Na+ transporters along the nephron in two commonly used inbred mouse strains, C57Bl/6 and 129S2/SV. We found that the kidney expression of NHE3, NKCC2, and NCC are strain dependent. Additionally, murine strain significantly contributes to the diuretic responses induced by hydrochlorothiazide, amiloride, and furosemide.