Hiroshi Maejima scite author profile

Grayanotoxin (GTX) exerts selective effects on voltagedependent sodium channels by eliminating fast sodium inactivation and causing a hyperpolarizing shift in voltage dependence of channel activation. In this study, we adopted a newly developed protocol that provides independent estimates of the binding and unbinding rate constants of GTX (k on and k off ) to GTX sites on the sodium channel protein, important in the molecular analysis of channel modification. Novel GTX sites were determined in D2S6 (Asn-784) and D3S6 (Ser-1276) by means of site-directed mutagenesis; the results suggested that the GTX receptor consists of the S6 transmembrane segments of four homologous domains facing the ion-conducting pore. We systematically introduced at two sites in D4S6 (Na v 1.4-Phe-1579 and Na v 1.4-Tyr-1586) amino acid substituents with residues containing hydrophobic, aromatic, charged, or polar groups. Generally, substitutions at Phe-1579 increased both k on and k off , resulting in no prominent change in dissociation constant (K d ). It seems that the smaller the molecular size of the residue at Na v 1.4-Phe-1579, the larger the rates of k on and k off , indicating that this site acts as a gate regulating access of toxin molecules to a receptor site. Substitutions at Tyr-1586 selectively increased k off but had virtually no effect on k on , thus causing a drastic increase in K d . At position Tyr-1586, a hydrophobic or aromatic amino acid side chain was required to maintain normal sensitivity to GTX. These results suggest that the residue at position Tyr-1586 has a more critical role in mediating GTX binding than the one at position Phe-1579. Here, we propose that the affinity of GTX to Na v 1.4 sodium channels might be regulated by two residues (Phe and Tyr) at positions Phe-1579 and Tyr-1586, which, respectively, control access and binding of GTX to its receptor.

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Novel Wasp Toxin Discriminates between Neuronal and Cardiac Sodium Channels

Kinoshita

Maejima

Yamaoka

et al. 2001

Mol Pharmacol

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Pompilidotoxins (PMTXs), derived from the venom of solitary wasp has been known to facilitate synaptic transmission in the lobster neuromuscular junction, and a recent further study from rat trigeminal neurons revealed that the toxin slows Na+ channel inactivation without modifying activation process. Here we report that beta-PMTX modifies rat brain type II Na+ channel alpha-subunit (rBII) expressed in human embryonic kidney cells but fails to act on the rat heart alpha-subunit (rH1) at similar concentrations. We constructed a series of chimeric mutants of rBII and rH1 Na+ channels and compared modification of the steady-state Na+ currents by beta-PMTX. We found that a difference in a single amino acid between Glu-1616 in rBII and Gln-1615 in rH1 at the extracellular loop of D4S3-S4 is crucial for the action of beta-PMTX. PMTXs, which are small peptides with 13 amino acids, would be a potential tool for exploring a new functional moiety of Na+ channels.

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Effects of unloading bracing on knee and hip joints for patients with medial compartment knee osteoarthritis

Toriyama

Deie

Shimada

et al. 2011

Clinical Biomechanics

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Hiroshi Maejima

Distinct Sites Regulating Grayanotoxin Binding and Unbinding to D4S6 of Nav1.4 Sodium Channel as Revealed by Improved Estimation of Toxin Sensitivity

Novel Wasp Toxin Discriminates between Neuronal and Cardiac Sodium Channels

Effects of unloading bracing on knee and hip joints for patients with medial compartment knee osteoarthritis

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