Journal of the American Society of Nephrology : JASN
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The form of renal tubular acidosis associated with hyperkalemia is usually attributable to real or apparent hypoaldosteronism. It is therefore a common feature in diabetes and a number of other conditions associated with underproduction of renin or aldosterone. In addition, the close relationship between potassium levels and ammonia production dictates that hyperkalemia per se can lead to acidosis. Here I describe the modern relationship between molecular function of the distal portion of the nephron, pathways of ammoniagenesis, and hyperkalemia.
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Fibroblast growth factor 23 (FGF23) is a phosphaturic factor that suppresses both sodium-dependent phosphate transport and production of 1,25-dihydroxyvitamin D [1,25(OH)(2)D] in the proximal tubule. In vitro studies suggest that FGFR3 is the physiologically relevant receptor for FGF23 in the kidney, but this has not been established in vivo. Here, immunohistochemical analysis of the mouse kidney revealed that the proximal tubule expresses FGF receptor 3 (FGFR3) but not FGFR1, FGFR2, or FGFR4. ⋯ Because the ablation of neither FGFR3 nor FGFR4 inhibited the renal effects of excess FGF23, the kidney localization of FGFR1 was investigated. FGFR1 co-localized with Klotho, the co-factor required for FGF23-dependent FGFR activation, in the distal tubule. In summary, neither FGFR3 nor FGFR4 is the principal mediator of FGF23 effects in the proximal tubule, and co-localization of FGFR1 and Klotho suggests that the distal tubule may be an effector site of FGF23.
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J. Am. Soc. Nephrol. · Sep 2008
Randomized Controlled TrialIntravenous iron exacerbates oxidative DNA damage in peripheral blood lymphocytes in chronic hemodialysis patients.
Patients undergoing maintenance hemodialysis have elevated markers of oxidative stress, but the reasons for this are not fully understood. Intravenous administration of iron, which many of these patients receive, may provoke the generation of bioactive iron, which enhances oxidative stress and lipid peroxidation. In this study, 110 hemodialysis patients were randomly assigned to five groups that were administered single intravenous doses of iron sucrose, ranging from 20 to 500 mg. ⋯ In addition, flow cytometric techniques revealed increased production of reactive oxygen species in lymphocytes among those treated with intravenous iron. Treatment with intravenous iron but not saline was also associated with decreased plasma ascorbate and alpha-tocopherol levels and increased oxidized glutathione/reduced glutathione ratio (P < 0.05). In summary, intravenous iron sucrose provokes oxidative damage to peripheral blood lymphocyte DNA in hemodialysis patients, especially among those with high levels of ferritin.