Abstract
The Na/K/2Cl cotransporter NKCC2 mediates the NaCl reabsorption in the thick ascending limb (TAL). Phosphorylation at Thr-96,101 and traffcking to the surface are increased in the Dahl salt-sensitive (DSS) rat together with SPAK phosphorylation, an upstream kinase for Thr-96,101 in NKCC2. We previously found that deletion of SPAK in the DSS, lowers NKCC2 phosphorylation and blunts salt-sensitive hypertension, but doesn’t completely abolish NKCC2 phosphorylation. Therefore, other kinases may be involved in NKCC2 phosphorylation. We recently found the Traf2 and NCK interacting kinase (TNIK) phosphorylates NKCC2 and is overexpressed in the TALs of DSS rats. We hypothesized that TNIK contributes to salt-sensitive hypertension by increasing NKCC2 hyperphosphorylation in DSS rats. We approached TNIK inhibition in two ways, using a pharmacological inhibitor and its genomic deletion with CRISPR/Cas9. First, we studied the small molecule TNIK inhibitor NCB-0846, and whether it could decrease baseline NKCC2 phosphorylation in TALs from DSS rats. Treating TALs from DSS with NCB-0846 (0.1 μM) for 25 min decreased NKCC2 Thr-96,101 phosphorylation by 21 ± 2% compared to the vehicle group (p<0.001, n=3). To study in vivo effcacy of NCB-0846, we directly infused NCB (or vehicle) into the left kidney via implanted renal medullary catheters connected to minipumps in DSS rats fed 4% NaCl diet. We found that NCB-0846 decreased SBP by 30 mmHg within four days compared to the vehicle-infused group, and BP remained lower for 7 days (n=5, p<0.03 vs control). To decrease TNIK gene expression we used Cas9 mediated gene editing. For this, we designed gRNA sequences targeting TNIK and tested their effcacy in C6 cells. One of the gRNAs designed decreased TNIK expression by 48 ± 22% compared to control (p=0.101, n=3). To decrease TNIK in TALs in vivo, we injected the renal medulla of the left kidney with AAV-gRNA-TNIK together with AAV-NKCC2 promoter-Cas9. After 2 weeks, we isolated medullary TALs and measured TNIK expression and NKCC2 phosphorylation. TNIK expression was decreased by 50 ± 5.5% (n=4, p<0.0001), and pThr-96,101-NKCC2 was decreased by 38.1 ± 10.6% in transduced TALs compared to kidneys transduced with AV-control (n=4, p<0.05). The expression of related kinases SPAK and OSR1 was not modified (SPAK 79.2 ± 18.3%, OSR1 81.3 ± 13.3%, n=4, ns). We conclude that NKCC2 phosphorylation in the DSS rat is in part caused by TNIK and that this new kinase could be a target for salt sensitive hypertension. Future experiments will test the effect of gene editing TNIK in salt sensitive hypertension. 23POST1019882 AHA15GRNT25710369. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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