• Patchliner

    兼顾科研与工业的全自动膜片钳系统
  • Patchliner

    自主生产与质量控制的耗材
  • Patchliner

    拥有超过10年实验设计与支持的经验
  • Dynamite8

    Automated Dynamic Clamp
  • Patchliner

    拥有所有手动膜片钳的特征与优点

2009 - High-throughput screening reveals a small-molecule inhibitor of the renal outer medullary potassium channel and Kir7.1

icon pl  Patchliner publication in Molecular Pharmacology (2009)

Authors: 
Lewis L.M., Bhave G., Chauder B.A., Banerjee S., Lornsen K.A., Redha R., Fallen K., Lindsley C.W., Weaver C.D., Denton J.S.

Journal: 
Mol. Pharmacol. (2009) 76(5):1094-1103


Abstract: 

The renal outer medullary potassium channel (ROMK) is expressed in the kidney tubule and critically regulates sodium and potassium balance. The physiological functions of other inward rectifying K+ (Kir) channels expressed in the nephron, such as Kir7.1, are less well understood in part due to the lack of selective pharmacological probes targeting inward rectifiers. In an effort to identify Kir channel probes, we performed a fluorescence-based, high-throughput screen (HTS) of 126,009 small molecules for modulators of ROMK function. Several antagonists were identified in the screen. One compound, termed VU590, inhibits ROMK with submicromolar affinity, but has no effect on Kir2.1 or Kir4.1. Low micromolar concentrations inhibit Kir7.1, making VU590 the first small-molecule inhibitor of Kir7.1. Structure-activity relationships of VU590 were defined using small-scale parallel synthesis. Electrophysiological analysis indicates that VU590 is an intracellular pore blocker. VU590 and other compounds identified by HTS will be instrumental in defining Kir channel structure, physiology, and therapeutic potential.


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