WNK1 -related Familial Hyperkalemic Hypertension results from an increased expression of L-WNK1 specifically in the distal nephron

Abstract: Large deletions in the first intron of the With No lysine (K) 1 (WNK1) gene are responsible for Familial Hyperkalemic Hypertension (FHHt), a rare form of human hypertension associated with hyperkalemia and hyperchloremic metabolic acidosis. We generated a mouse model of WNK1-associated FHHt to explore the consequences of this intronic deletion. WNK1 +/FHHt mice display all clinical and biological signs of FHHt. This phenotype results from increased expression of long WNK1 (L-WNK1), the ubiquitous kinase isofor… Show more

“…Although many mechanistic details about the disease remain unclear, WNK1, WNK4, KLHL3, and CUL3 all appeared to affect the abundance and activity of NCC and to modulate the response to dietary salt and potassium challenge. As noted above, most data suggest that mutations in either WNK1 or WNK4 increase the abundance and activity of NCC by activating the intermediary kinase SPAK (4,22,23). In contrast, KLHL3 is an adaptor protein that binds to WNK kinases and, in association with CUL3, facilitates their ubiquitylation and degradation (5)(6)(7)(8).…”

“…These kinases, in turn, phosphorylate and activate NCC directly, causing both hyperkalemia and hypertension. The described mutations in WNK1 are intronic (and hence noncoding) mutations; these increase expression of the kinase-active form of WNK1 along the distal convoluted tubule (DCT), a nephron segment where its expression levels are typically low (4), thereby activating SPAK and NCC (4). WNK4 mutations are missense mutations in 1 of 2 coiledcoiled motifs.…”

Hyperkalemic hypertension–associated cullin 3 promotes WNK signaling by degrading KLHL3

“…Although many mechanistic details about the disease remain unclear, WNK1, WNK4, KLHL3, and CUL3 all appeared to affect the abundance and activity of NCC and to modulate the response to dietary salt and potassium challenge. As noted above, most data suggest that mutations in either WNK1 or WNK4 increase the abundance and activity of NCC by activating the intermediary kinase SPAK (4,22,23). In contrast, KLHL3 is an adaptor protein that binds to WNK kinases and, in association with CUL3, facilitates their ubiquitylation and degradation (5)(6)(7)(8).…”

“…These kinases, in turn, phosphorylate and activate NCC directly, causing both hyperkalemia and hypertension. The described mutations in WNK1 are intronic (and hence noncoding) mutations; these increase expression of the kinase-active form of WNK1 along the distal convoluted tubule (DCT), a nephron segment where its expression levels are typically low (4), thereby activating SPAK and NCC (4). WNK4 mutations are missense mutations in 1 of 2 coiledcoiled motifs.…”

Hyperkalemic hypertension–associated cullin 3 promotes WNK signaling by degrading KLHL3

“…With regards to NCC regulation, L-WNK1 is a stimulator (28,56), while KS-WNK1 (35). Although NEDD4-2 and NCC formed complexes that could be disrupted by SGK1, the exact nature of the interaction remains undefined, as NCC contains no canonical PY motif.…”

Alternatively spliced proline-rich cassettes link WNK1 to aldosterone action

“…Instead, these mutations increase total WNK1 mRNA and protein expression (41). The increased protein expression overrides ubiquitination and degradation by the KLHL3/CUL3 complex, and the net effect of the mutation is to increase total WNK1 kinase activity (55). Thus, in FHHt caused by mutations of WNK1, increased WNK1 protein expression should suppress the inhibitory effect of WNK4 on NCC traffic while stimulating SPAK and OSR1, causing NCC to be overactive ( Figure 6C).…”

Distal Convoluted Tubule