Purpose Of Review: Sodium and chloride transport play a fundamental role in many physiological processes. In the kidney, sodium secretion and reabsorption are essential to maintain the extracellular volume and, thus, blood pressure (BP). In vascular smooth muscle, it is important for contractility and in the nervous system for the functioning of GABAergic neurons. Hence, the emergence of a WNK/SPAK/OSR1 kinase cascade that activates NaCl cotransporters has widespread physiological implications. This review gives an overview of the actions of SPAK and OSR1 kinases on NaCl cotransporters and highlights their possible therapeutic potential.
Recent Findings: Evidence has emerged from in-vitro phosphorylation assays that WNK kinases can activate SPAK and OSR1 kinases by phosphorylation of a key Thr residue in their catalytic domains. Once activated, SPAK and OSR1 in turn activate members of the SCL12A family of solute carriers by phosphorylation of conserved Ser/Thr residues in the N-terminal domain of these carrier proteins. The importance of this pathway has recently emerged from studies on mice that lack a catalytically active SPAK enzyme. These models are strikingly hypotensive with marked reduction in the phosphorylation of Na⁺/Cl⁻ cotransporter (NCC) in the kidney, and reduced Na⁺/K⁺/2Cl⁻ cotransporter (NKCC1) phosphorylation in the vessel wall.
Summary: SPAK and OSR1 kinases regulate SCL12A transporters with important physiological effects for sodium homeostasis by the kidney, aortic contractility and neuronal excitability. In vivo, SPAK plays a major role in the regulation of blood pressure and represents a potential target for the development of novel diuretics.
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View Article and Find Full Text PDFArticle Synopsis
- The study investigates the WNK-OSR1/SPAK protein kinase signaling pathway, which is known to regulate ion homeostasis and cell volume, to discover its other potential signaling roles.
- Researchers analyzed the binding specificity of the conserved C-terminal (CCT) domains of OSR1 and SPAK to identify possible interaction motifs in human proteins, highlighting key consensus sequences and ranking about 3,700 identified motifs.
- The findings reveal not only that a significant portion of previously known motifs align with predicted ones but also introduce new variants lacking a previously essential arginine, showing an expanded functionality of CCT domains in linking WNK signaling to various cellular functions.
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