It is widely recognized that the phenotype of familial hyperkalemic hypertension is mainly a consequence of increased activity of the renal Na + -Cl 2 cotransporter (NCC) because of altered regulation by with no-lysine-kinase 1 (WNK1) or WNK4. either by low chloride hypotonic stress or coinjection of oocytes with the solute carrier family 26 (anion exchanger)-member 9 (SLC26A9) cRNA, promoted WNK4 autophosphorylation and increased NCC-dependent Na + transport in a WNK4-dependent manner. Substitution of the leucine with phenylalanine at residue 322 of WNK4, homologous to the chloride-binding pocket in L-WNK1, converted WNK4 into a constitutively autophosphorylated kinase that activated NCC, even without chloride depletion. Elimination of the catalytic activity (D321A or D321K-K186D) or the autophosphorylation site (S335A) in mutant WNK4-L322F abrogated the positive effect on NCC. These observations suggest that WNK4 can exert differential effects on NCC, depending on the intracellular chloride concentration.
Familial hyperkalemic hypertension (FHHt) can be mainly attributed to increased activity of the renal Na:Cl cotransporter (NCC), which is caused by altered expression and regulation of the with-no-lysine (K) 1 (WNK1) or WNK4 kinases. The WNK1 gene gives rise to a kidney-specific isoform that lacks the kinase domain (KS-WNK1), the expression of which occurs primarily in the distal convoluted tubule. The role played by KS-WNK1 in the modulation of the WNK/STE20-proline-alanine rich kinase (SPAK)/NCC pathway remains elusive. In the present study, we assessed the effect of human KS-WNK1 on NCC activity and on the WNK4-SPAK pathway. Microinjection of oocytes with human KS-WNK1 cRNA induces remarkable activation and phosphorylation of SPAK and NCC. The effect of KS-WNK1 was abrogated by eliminating a WNK-WNK-interacting domain and by a specific WNK inhibitor, WNK463, indicating that the activation of SPAK/NCC by KS-WNK1 is due to interaction with another WNK kinase. Under control conditions in oocytes, the activating serine 335 of the WNK4 T loop is not phosphorylated. In contrast, this serine becomes phosphorylated when the intracellular chloride concentration ([Cl]) is reduced or when KS-WNK1 is coexpressed with WNK4. KS-WNK1-mediated activation of WNK4 is not due to a decrease of the [Cl]. Coimmunoprecipitation analysis revealed that KS-WNK1 and WNK4 interact with each other and that WNK4 becomes autophosphorylated at serine 335 when it is associated with KS-WNK1. Together, these observations suggest that WNK4 becomes active in the presence of KS-WNK1, despite a constant [Cl].
A novel peptide from Centruroides noxius Hoffmann scorpion venom was isolated and sequenced. The 37 amino acid peptide belongs to the charybdotoxin sub-family (K KKTx1) and was numbered member 11. K KKTx1.11 has 75% sequence identity with iberiotoxin and 54% with charybdotoxin. K KKTx1.11 revealed specificity for mammalian MaxiK channels (hSlo), thus, was named slotoxin. Slotoxin blocks the MaxiK pore-) channels was V V10 times slower than iberiotoxin and charybdotoxin, leading to a lack of effect on K K+L L4 when tested at 100 nM for 5 min. Thus, slotoxin is a better tool to distinguish MaxiK K K+L L complexes. ß
We show here that ergtoxin (ErgTx) is a bona fide, specific blocker of the human ether-a-go-go-related gene (HERG) channels. It does not affect the function of either Meag or M-elk channels. A chimeric construction containing a segment of the P-region of M-eag channel inserted into the HERG channel drastically diminished or completely abolished the inhibitory effect of ErgTx, whereas chimeras of the P-region of HERG channel into M-eag channels recovered the inhibitory effect. From the P-region point mutants of HERG channel assays, only the mutant N598Q shows about 25% decrement of the ErgTx inhibitory effect. ErgTx recognizes the P-region of HERG channels, blocking the channel function with a K d in the order of 12 nM. ß 2002 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.
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