Human With No Lysine Kinase 3 (WNK3): A Target Enabling Package (TEP)
Pinkas, DM; Bufton, JC; Bartual, SG; et al.Chen, Z; Daubner, GM; Schumacher, F-R; Georghiou, G; Zhang, J; Sorrell, FJ; Kurz, T; Alessi, DR; Bullock, AN
Date: 1 June 2018
Publisher
SGC Oxford
Publisher DOI
Abstract
SUMMARY OF PROJECT
Kinases WNK1-4 regulate cation-chloride cotransporters via phosphorylation of SPAK and OSR1 and thereby
control salt homeostasis, cell volume and blood pressure. Gain of function mutations in WNK kinases are
found in Gordon’s hypertension syndrome suggesting the WNK pathway as a therapeutic target. WNK3
inhibition ...
SUMMARY OF PROJECT
Kinases WNK1-4 regulate cation-chloride cotransporters via phosphorylation of SPAK and OSR1 and thereby
control salt homeostasis, cell volume and blood pressure. Gain of function mutations in WNK kinases are
found in Gordon’s hypertension syndrome suggesting the WNK pathway as a therapeutic target. WNK3
inhibition in particular has also been shown to reduce cerebral injury after Ischemic stroke. Here we present
assays and crystal structures that define (i) the molecular basis for disease mutations; (ii) the multiple
functional domains of WNK kinases and their protein interactions; (iii) the binding of small molecule kinase
inhibitors and a potential allosteric pocket.
Institute of Biomedical & Clinical Science
Collections of Former Colleges
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