Abstract
The neurological disorder familial hemiplegic migraine type II (FHM2) is caused by mutations in the α2-isoform of the Na(+),K(+)-ATPase. We have studied the partial reaction steps of the Na(+),K(+)-pump cycle in nine FHM2 mutants retaining overall activity at a level still compatible with cell growth. Although it is believed that the pathophysiology of FHM2 results from reduced extracellular K(+) clearance and/or changes in Na(+) gradient-dependent transport processes in neuroglia, a reduced affinity for K(+) or Na(+) is not a general finding with the FHM2 mutants. Six of the FHM2 mutations markedly affect the maximal rate of phosphorylation from ATP leading to inhibition by intracellular K(+), thereby likely compromising pump function under physiological conditions. In mutants R593W, V628M, and M731T, the defective phosphorylation is caused by local perturbations within the Rossmann fold, possibly interfering with the bending of the P-domain during phosphoryl transfer. In mutants V138A, T345A, and R834Q, long range effects reaching from as far away as the M2 transmembrane helix perturb the function of the catalytic site. Mutant E700K exhibits a reduced rate of E(2)P dephosphorylation without effect on phosphorylation from ATP. An extremely reduced vanadate affinity of this mutant indicates that the slow dephosphorylation reflects a destabilization of the phosphoryl transition state. This seems to be caused by insertion of the lysine between two other positively charged residues of the Rossmann fold. In mutants R202Q and T263M, effects on the A-domain structure are responsible for a reduced rate of the E(1)P to E(2)P transition.
Highlights
Familial hemiplegic migraine type II (FHM2) is caused by mutations in the Naϩ,Kϩ-ATPase ␣2-isoform
Four of the mutations investigated here are located in the P-domain (R593W, V628M, E700K, and M731T), two are in the A-domain (R202Q and T263M), one is in M2 (V138A), another is in M4 near the interface to the P-domain (T345A), and the last is in the L6 –7 loop between M6 and M7 close to the P-domain (R834Q) (Fig. 1)
Overall Function—The nine FHM2 mutations were introduced into the ouabain-resistant version of the human ␣2-isoform, and the mutants were expressed in mammalian COS-1 cells and subjected to ouabain-selection pressure [20], taking advantage of the Ͼ100-fold difference between the ouabain affinities of the exogenous Naϩ,Kϩ-ATPase and the endogenous COS cell enzyme
Summary
Familial hemiplegic migraine type II (FHM2) is caused by mutations in the Naϩ,Kϩ-ATPase ␣2-isoform. Familial hemiplegic migraine has been associated with mutations in the ␣2-isoform of the Naϩ,Kϩ-ATPase (FHM2) [1]. Four of the mutations investigated here are located in the P-domain (R593W, V628M, E700K, and M731T), two are in the A-domain (R202Q and T263M), one is in M2 (V138A), another is in M4 near the interface to the P-domain (T345A), and the last is in the L6 –7 loop between M6 and M7 close to the P-domain (R834Q) (Fig. 1) We assessed their functional impact in a panel of analyses of the partial reaction steps (cf Scheme 1), using both steady-state and transient kinetic measurements, the latter allowing determination of the rates of the EXPERIMENTAL PROCEDURES.
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