Hoch B S, Shahmehdi S J, Louis B M, Lipner H I
Department of Medicine, Maimonides Medical Center, Brooklyn, New York 11219, USA.
Antimicrob Agents Chemother. 1995 Sep;39(9):2008-12. doi: 10.1128/AAC.39.9.2008.
Therapy with foscarnet is associated with acute renal failure. Prior studies have emphasized foscarnet's proximal tubular toxicity, but there have been isolated reports of foscarnet-induced nephrogenic diabetes insipidus. As a phosphate analog, foscarnet is a competitive inhibitor of NaPO4 cotransport. However, foscarnet's effect on antidiuretic hormone (ADH)-induced transport has not been previously investigated. We studied foscarnet's modulation of transport in the toad urinary bladder. Foscarnet at 10 microM to 10 mM did not alter basal water or urea flux. Urea transport induced by a maximal dose of ADH (24 mIU/ml) was inhibited by 0.1 to 5.0 mM foscarnet. In tissues challenged with 0.5 to 1.0 mIU of ADH per ml, 1.0 to 10 mM foscarnet increased water flow but did not alter urea flux. Foscarnet also increased water flow induced by 1.0 to 10 microM forskolin. In tissues pretreated with 10 microM naproxen, foscarnet did not alter water flow induced by 0.5 to 1.0 mIU of ADH per ml or forskolin. These results indicate that foscarnet stimulates water flow induced by 0.5 to 1.0 mIU of ADH per ml at a site proximal to that of the generation of cyclic AMP and inhibits urea flux induced by a maximal dose of ADH at a separate site. In humans, foscarnet nephrotoxicity is likely not limited to the proximal nephron, but extends to the collecting duct. Patients receiving foscarnet should be closely monitored for disorders of urinary concentration.
膦甲酸治疗与急性肾衰竭相关。既往研究强调了膦甲酸的近端肾小管毒性,但也有关于膦甲酸诱发肾性尿崩症的个别报道。作为一种磷酸盐类似物,膦甲酸是NaPO4共转运的竞争性抑制剂。然而,膦甲酸对抗利尿激素(ADH)诱导的转运的影响此前尚未得到研究。我们研究了膦甲酸对蟾蜍膀胱转运的调节作用。10微摩尔至10毫摩尔的膦甲酸未改变基础水通量或尿素通量。最大剂量ADH(24毫国际单位/毫升)诱导的尿素转运受到0.1至5.0毫摩尔膦甲酸的抑制。在每毫升受到0.5至1.0毫国际单位ADH刺激的组织中,1.0至10毫摩尔膦甲酸增加了水流量,但未改变尿素通量。膦甲酸也增加了由1.0至10微摩尔福斯高林诱导的水流量。在用10微摩尔萘普生预处理的组织中,膦甲酸未改变每毫升0.5至1.0毫国际单位ADH或福斯高林诱导的水流量。这些结果表明,膦甲酸在环磷酸腺苷生成部位的近端刺激每毫升0.5至1.0毫国际单位ADH诱导的水流量,并在一个单独部位抑制最大剂量ADH诱导的尿素通量。在人类中,膦甲酸肾毒性可能不仅限于近端肾单位,还延伸至集合管。接受膦甲酸治疗的患者应密切监测尿浓缩功能障碍。