Hypertension
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Dietary sodium intake is associated with hypertension and cardiovascular risk in the general population. In patients with chronic kidney disease, sodium intake has been associated with progressive renal disease, but not independently of proteinuria. We studied the relationship between urinary sodium (UNa) excretion and UNa to creatinine ratio and mortality or requirement for renal replacement therapy in chronic kidney disease. ⋯ There was no association between low UNa and risk, as observed in some studies. This study demonstrates an association between UNa excretion and mortality in chronic kidney disease, with a cumulative relationship between sodium excretion, albuminuria, and reduced survival. These data support reducing dietary sodium intake in chronic kidney disease, but additional study is required to determine the target sodium intake.
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Excessive renal efferent sympathetic nerve activity contributes to hypertension in many circumstances. Although both hemodynamic and tubular effects likely participate, most evidence supports a major role for α-adrenergic receptors in mediating the direct epithelial stimulation of sodium retention. Recently, it was reported, however, that norepinephrine activates the thiazide-sensitive NaCl cotransporter (NCC) by stimulating β-adrenergic receptors. ⋯ We confirmed that STE20p-related proline- and alanine-rich kinase is not required for NCC activation, using STK39 knockout mice. Together, the data provide strong support for a signaling system involving β₁-receptors in the distal convoluted tubule that activates NCC, at least in part via oxidative stress-response kinase 1. The results have implications about device- and drug-based treatment of hypertension.