Sequence specific assignment and determination of OSR1 C-terminal domain structure by NMR.

The binding of and OSR1 kinases to their upstream WNK kinases is mediated by the interaction of their highly conserved duanyu1842K and OSR1 C-terminal domain (CTD) to RFx [V/I] peptide sequences from WNK kinases. A duanyu1842K CTD knock-in mouse, where duanyu1842K was unable to bind WNK kinases, exhibited low blood pressure. This highlighted the inhibition of duanyu1842K and OSR1 kinases binding to their upstream WNK kinases as a plausible strategy in the discovery of new antihypertensive agents. To facilitate such endeavour, we herein report the optimisation and expression of isotopically labelled OSR1 CTD in E.coli and a structural model based on the sequence specific NMR assignments giving insights into the structure of apo OSR1 CTD. Additionally, we identified the OSR1 CTD amino acid residues that are important for the binding of an 18-mer RFQV peptide derived from human WNK4. Collectively, the NMR backbone assignments and the generated OSR1 CTD 3D model reported in this work will be a powerful resource for the NMR-based discovery of small molecule OSR1 (and kinase inhibitors as potential antihypertensive agents.

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