H2S Increases Blood Pressure via Activation of L‐Type Calcium Channels with Mediation by HS• Generated from Reactions with Oxyhemoglobin

Taiming Liu; Meijuan Zhang; Shawn Hanson; Rucha Juarez; Sean Wilson; Hobe Schroeder; Qian Li; Lingchao Zhu; Guangyu Zhang; Arlin B. Blood

doi:10.1002/advs.202305866

Advanced Science (Jul 2024)

H2S Increases Blood Pressure via Activation of L‐Type Calcium Channels with Mediation by HS• Generated from Reactions with Oxyhemoglobin

Taiming Liu,
Meijuan Zhang,
Shawn Hanson,
Rucha Juarez,
Sean Wilson,
Hobe Schroeder,
Qian Li,
Lingchao Zhu,
Guangyu Zhang,
Arlin B. Blood

Affiliations

Taiming Liu: Division of Neonatology Department of Pediatrics Loma Linda University School of Medicine Loma Linda CA 92354 USA
Meijuan Zhang: Division of Neonatology Department of Pediatrics Loma Linda University School of Medicine Loma Linda CA 92354 USA
Shawn Hanson: Lawrence D. Longo Center for Perinatal Biology Loma Linda University School of Medicine Loma Linda CA 92354 USA
Rucha Juarez: Lawrence D. Longo Center for Perinatal Biology Loma Linda University School of Medicine Loma Linda CA 92354 USA
Sean Wilson: Lawrence D. Longo Center for Perinatal Biology Loma Linda University School of Medicine Loma Linda CA 92354 USA
Hobe Schroeder: Lawrence D. Longo Center for Perinatal Biology Loma Linda University School of Medicine Loma Linda CA 92354 USA
Qian Li: Department of Medicine Gregory Fleming James Cystic Fibrosis Research Center University of Alabama at Birmingham Birmingham AL 35294 UK
Lingchao Zhu: Department of Chemistry University of California Riverside CA 92521 USA
Guangyu Zhang: Mass spectrometry core facility Loma Linda University Loma Linda CA 92354 USA
Arlin B. Blood: Lawrence D. Longo Center for Perinatal Biology Loma Linda University School of Medicine Loma Linda CA 92354 USA

DOI: https://doi.org/10.1002/advs.202305866
Journal volume & issue: Vol. 11, no. 26
pp. n/a – n/a

Abstract

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Abstract Although the gasotransmitter hydrogen sulfide (H2S) is well known for its vasodilatory effects, H2S also exhibits vasoconstricting properties. Herein, it is demonstrated that administration of H2S as intravenous sodium sulfide (Na2S) increased blood pressure in sheep and rats, and this effect persisted after H2S has disappeared from the blood. Inhibition of the L‐type calcium channel (LTCC) diminished the hypertensive effects. Incubation of Na2S with whole blood, red blood cells, methemoglobin, or oxyhemoglobin produced a hypertensive product of H2S, which is not hydrogen thioperoxide, metHb‐SH− complexes, per‐/poly‐ sulfides, or thiolsulfate, but rather a labile intermediate. One‐electron oxidation of H2S by oxyhemoglobin generated its redox cousin, sulfhydryl radical (HS•). Consistent with the role of HS• as the hypertensive intermediate, scavenging HS• inhibited Na2S‐induced vasoconstriction and activation of LTCCs. In conclusion, H2S causes vasoconstriction that is dependent on the activation of LTCCs and generation of HS• by oxyhemoglobin.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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