Toru Yatsuhashi scite author profile

Divalent mercury (Hg(2+)) blocked human skeletal Na(+) channels (hSkM1) in a stable dose-dependent manner (K(d) = 0.96 microM) in the absence of reducing agent. Dithiothreitol (DTT) significantly prevented Hg(2+) block of hSkM1, and Hg(2+) block was also readily reversed by DTT. Both thimerosal and 2,2'-dithiodipyridine had little effect on hSkM1; however, pretreatment with thimerosal attenuated Hg(2+) block of hSkM1. Y401C+E758C rat skeletal muscle Na(+) channels (mu1) that form a disulfide bond spontaneously between two cysteines at the 401 and 758 positions showed a significantly lower sensitivity to Hg(2+) (K(d) = 18 microM). However, Y401C+E758C mu1 after reduction with DTT had a significantly higher sensitivity to Hg(2+) (K(d) = 0.36 microM) than wild-type hSkM1. Mutants C753Amu1 (K(d) = 8.47 microM) or C1521A mu1 (K(d) = 8.63 microM) exhibited significantly lower sensitivity to Hg(2+) than did wild-type hSkM1, suggesting that these two conserved cysteinyl residues of the P-loop region may play an important role in the Hg(2+) block of the hSkM1 isoform. The heart Na(+) channel (hH1) was significantly more sensitive to low-dose Hg(2+) (K(d) = 0.43 microM) than was hSkM1. The C373Y hH1 mutant exhibited higher resistance (K(d) = 1.12 microM) to Hg(2+) than did wild-type hH1. In summary, Hg(2+) probably inhibits the muscle Na(+) channels at more than one cysteinyl residue in the Na(+) channel P-loop region. Hg(2+) exhibits a lower K(d) value (<1. 23 microM) for inhibition by forming a sulfur-Hg-sulfur bridge, as compared to reaction at a single cysteinyl residue with a higher K(d) value (>8.47 microM) by forming sulfur-Hg(+) covalently. The heart Na(+) channel isoform with more than two cysteinyl residues in the P-loop region exhibits an extremely high sensitivity (K(d) < 0. 43 microM) to Hg(+), accounting for heart-specific high sensitivity to the divalent mercury.

show abstract

L-Cysteine Prevents Oxidation-Induced Block of the Cardiac Na+ Channel Via Interaction With Heart-Specific Cysteinyl Residues in the P-Loop Region.

Yatsuhashi

Hisatome

Kurata

et al. 2002

Circ J

View full text Add to dashboard Cite

The present study investigated the protective effects of L-cysteine on the oxidation-induced blockade of Na + channel -subunits, hH1 (cardiac) and hSkM1 (skeletal), expressed in COS7 cells. Na + currents were recorded by the whole-cell patch clamp technique (n = 3-7). L-cysteine alone blocked hH1 and hSkM1 in a dose-dependent manner, with saturating L-cysteine block at 3,000 mol/L. Hg 2+ , a potent sulfhydryl oxidizing agent, blocked hH1 with a time to 50% inhibition (Time50%) of 20 s. Preperfusion of COS7 cells with 100 mol/L Lcysteine significantly slowed the Hg 2+ block of hH1 (Time50% = 179 s). L-cysteine did not prevent Hg 2+ block of hSkM1 (Time50% = 37 s) or the C373Y hH1 mutant (Time50% = 43 s). As for other sulfo-amino acids, homocysteine prevented the Hg 2+ block of hH1, with the Time50% (70 s) being significantly smaller than that of L-cysteine, whereas methionine did not prevent the Hg 2+ block of hH1. L-cysteine did not prevent the Cd 2+ block of hH1. These results indicate that L-cysteine selectively acts on heart-specific Cys 373 in the P-loop region of hH1 to prevent Cys 373 from the oxidation-induced sulfur-Hg-sulfur bridge formation. (Circ J 2002; 66: 846 -850)

show abstract

Current Status of Lipid Management of Hypertensive Patients

et al. 2003

View full text Add to dashboard Cite

Excess Urate Excretion Correlates with Severely Acidic Urine in Patients with Renal Hypouricemia.

et al. 1998

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Toru Yatsuhashi

The Status of Hypertension Management in Japan in 2000.

Block of Sodium Channels by Divalent Mercury: Role of Specific Cysteinyl Residues in the P-Loop Region

L-Cysteine Prevents Oxidation-Induced Block of the Cardiac Na+ Channel Via Interaction With Heart-Specific Cysteinyl Residues in the P-Loop Region.

Current Status of Lipid Management of Hypertensive Patients

Excess Urate Excretion Correlates with Severely Acidic Urine in Patients with Renal Hypouricemia.

Contact Info

Product

Resources

About