The Triad Na+ Activated Na+ Channel (Nax)—Salt Inducible KINASE (SIK) and (Na+ + K+)-ATPase: Targeting the Villains to Treat Salt Resistant and Sensitive Hypertension

Abstract: The Na+-activated Na+ channel (Nax) and salt-inducible kinase (SIK) are stimulated by increases in local Na+ concentration, affecting (Na+ + K+)-ATPase activity. To test the hypothesis that the triad Nax/SIK/(Na+ + K+)-ATPase contributes to kidney injury and salt-sensitive hypertension (HTN), uninephrectomized male Wistar rats (200 g; n = 20) were randomly divided into 4 groups based on a salt diet (normal salt diet; NSD—0.5% NaCl—or high-salt diet; HSD—4% NaCl) and subcutaneous administration of saline (0.9% … Show more

“…Concerning rostafuroxin, the influence of the drug on proximal tubules (Na + +K + )ATPase (Figure 7a ) matches the Na + balance in CTRL rats, and the pronounced rostafuroxin‐induced inhibition encountered in the undernourished group could contribute to the normalization of systolic blood pressure. On the other hand, the positive Na + balance in the RBD rostafuroxin‐treated rats needs to point to Figure 4c , which shows a very low Na + excretion that cannot be explained by the effects of the drug on proximal tubules (Na + +K + )ATPase, but rather by an influence on the pump resident other segments, such as the distal tubule, which plays a central role in the genesis of hypertension and the regulation of bodily Na + handling (Gonsalez et al, 2023 ).…”

Different antihypertensive and metabolic responses to rostafuroxin in undernourished and normonourished male rats: Outcomes on bodily Na⁺ handling

“…Concerning rostafuroxin, the influence of the drug on proximal tubules (Na + +K + )ATPase (Figure 7a ) matches the Na + balance in CTRL rats, and the pronounced rostafuroxin‐induced inhibition encountered in the undernourished group could contribute to the normalization of systolic blood pressure. On the other hand, the positive Na + balance in the RBD rostafuroxin‐treated rats needs to point to Figure 4c , which shows a very low Na + excretion that cannot be explained by the effects of the drug on proximal tubules (Na + +K + )ATPase, but rather by an influence on the pump resident other segments, such as the distal tubule, which plays a central role in the genesis of hypertension and the regulation of bodily Na + handling (Gonsalez et al, 2023 ).…”

Different antihypertensive and metabolic responses to rostafuroxin in undernourished and normonourished male rats: Outcomes on bodily Na⁺ handling