Renal outer medullary potassium channel knockout models reveal thick ascending limb function and dysfunction

被引:10
|
作者
Wang, Tong [1 ]
机构
[1] Yale Univ, Sch Med, Dept Cellular & Mol Physiol, New Haven, CT 06520 USA
来源
CLINICAL AND EXPERIMENTAL NEPHROLOGY | 2012年 / 16卷 / 01期
关键词
Bartter's syndrome; ROMK knockout mice; Potassium channel functions in the kidney; Sodium and potassium transport; NKCC2; NCC; ENaC; Maxi-K channel; II BARTTERS-SYNDROME; CORTICAL COLLECTING DUCT; MAXI-K CHANNELS; MOUSE MODEL; INTERCALATED CELLS; APICAL MEMBRANE; NACL ABSORPTION; UP-REGULATION; ROMK; EXPRESSION;
D O I
10.1007/s10157-011-0495-0
中图分类号
R5 [内科学]; R69 [泌尿科学(泌尿生殖系疾病)];
学科分类号
1002 ; 100201 ;
摘要
The renal outer medullary potassium channel (ROMK) is an adenosine triphosphate-sensitive inward-rectifier potassium channel (Kir1.1 or KCNJ1) highly expressed in the cortical and medullary thick ascending limbs (TAL), connecting segment (CNT) and cortical collecting duct (CCD) in the mammalian kidney, where it serves to recycle potassium (K+) across the apical membrane in TAL and to secrete K+ in the CNT and CCD. ROMK channel mutations cause type II Bartter's syndrome with salt wasting and dehydration, and ROMK knockout mice display a similar phenotype of Bartter's syndrome in humans. Studies from ROMK null mice indicate that ROMK is required to form both the small-conductance (30pS, SK) K channels and the 70pS (IK) K channels in the TAL. The availability of ROMK-/- mice has made it possible to study electrolyte transport along the nephron in order to understand the TAL function under physiological conditions and the compensatory mechanisms of salt and water transport under the conditions of TAL dysfunction. This review summarizes previous progress in the study of K+ channel activity in the TAL and CCD, ion transporter expression and activities along the nephron, and renal functions under physiological and pathophysiological conditions using ROMK-/- mice.
引用
收藏
页码:49 / 54
页数:6
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