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Literature DB >> 25550314

Working with nitric oxide and hydrogen sulfide in biological systems.

Shuai Yuan¹, Rakesh P Patel², Christopher G Kevil¹.

Abstract

Nitric oxide (NO) and hydrogen sulfide (H2S) are gasotransmitter molecules important in numerous physiological and pathological processes. Although these molecules were first known as environmental toxicants, it is now evident that that they are intricately involved in diverse cellular functions with impact on numerous physiological and pathogenic processes. NO and H2S share some common characteristics but also have unique chemical properties that suggest potential complementary interactions between the two in affecting cellular biochemistry and metabolism. Central among these is the interactions between NO, H2S, and thiols that constitute new ways to regulate protein function, signaling, and cellular responses. In this review, we discuss fundamental biochemical principals, molecular functions, measurement methods, and the pathophysiological relevance of NO and H2S.

Entities: Chemical

Keywords: cardiovascular; oxidation; pulmonary; redox; thiol

Mesh：

Substances：

Year: 2014 PMID： 25550314 PMCID： PMC4346774 DOI： 10.1152/ajplung.00327.2014

Source DB: PubMed Journal: Am J Physiol Lung Cell Mol Physiol ISSN： 1040-0605 Impact factor: 5.464

137 in total

1. Enhanced S-nitroso-albumin formation from inhaled NO during ischemia/reperfusion.

Authors: Ella S M Ng; David Jourd'heuil; Joe M McCord; Daniel Hernandez; Mitsukuni Yasui; Derrice Knight; Paul Kubes
Journal: Circ Res Date: 2004-01-22 Impact factor: 17.367

2. Hydrogen sulfide as an endothelium-derived hyperpolarizing factor in rodent mesenteric arteries.

Authors: Gillian Edwards; Michel Félétou; Arthur H Weston
Journal: Circ Res Date: 2012-01-06 Impact factor: 17.367

3. Two's company, three's a crowd: can H2S be the third endogenous gaseous transmitter?

Authors: Rui Wang
Journal: FASEB J Date: 2002-11 Impact factor: 5.191

4. AP39, a novel mitochondria-targeted hydrogen sulfide donor, stimulates cellular bioenergetics, exerts cytoprotective effects and protects against the loss of mitochondrial DNA integrity in oxidatively stressed endothelial cells in vitro.

Authors: Bartosz Szczesny; Katalin Módis; Kazunori Yanagi; Ciro Coletta; Sophie Le Trionnaire; Alexis Perry; Mark E Wood; Matthew Whiteman; Csaba Szabo
Journal: Nitric Oxide Date: 2014-04-19 Impact factor: 4.427

5. Protein S-nitrosylation: a physiological signal for neuronal nitric oxide.

Authors: S R Jaffrey; H Erdjument-Bromage; C D Ferris; P Tempst; S H Snyder
Journal: Nat Cell Biol Date: 2001-02 Impact factor: 28.824

Review 6. Biological nitric oxide signalling: chemistry and terminology.

Authors: Tassiele A Heinrich; Roberto S da Silva; Katrina M Miranda; Christopher H Switzer; David A Wink; Jon M Fukuto
Journal: Br J Pharmacol Date: 2013-08 Impact factor: 8.739

7. Are H2S-trapping compounds pertinent to the treatment of sulfide poisoning?

Authors: Philippe Haouzi; Bruno Chenuel; Takashi Sonobe; Candice M Klingerman
Journal: Clin Toxicol (Phila) Date: 2014-06-04 Impact factor: 4.467

8. Complexity of inducible nitric oxide synthase: cellular source determines benefit versus toxicity.

Authors: Betty Y Poon; Eko Raharjo; Kamala D Patel; Samantha Tavener; Paul Kubes
Journal: Circulation Date: 2003-08-18 Impact factor: 29.690

9. Exogenous hydrogen sulfide (H2S) protects alveolar growth in experimental O2-induced neonatal lung injury.

Authors: Arul Vadivel; Rajesh S Alphonse; Lavinia Ionescu; Desiree S Machado; Megan O'Reilly; Farah Eaton; Al Haromy; Evangelos D Michelakis; Bernard Thébaud
Journal: PLoS One Date: 2014-03-06 Impact factor: 3.240

10. Cardioprotection by S-nitrosation of a cysteine switch on mitochondrial complex I.

Authors: Edward T Chouchani; Carmen Methner; Sergiy M Nadtochiy; Angela Logan; Victoria R Pell; Shujing Ding; Andrew M James; Helena M Cochemé; Johannes Reinhold; Kathryn S Lilley; Linda Partridge; Ian M Fearnley; Alan J Robinson; Richard C Hartley; Robin A J Smith; Thomas Krieg; Paul S Brookes; Michael P Murphy
Journal: Nat Med Date: 2013-05-26 Impact factor: 53.440

18 in total

Review 1. Oxidative Modifications in Tissue Pathology and Autoimmune Disease.

Authors: Mei-Ling Yang; Hester A Doyle; Steven G Clarke; Kevan C Herold; Mark J Mamula
Journal: Antioxid Redox Signal Date: 2017-12-11 Impact factor: 8.401

Review 2. Emerging Roles of Carbonyl Sulfide in Chemical Biology: Sulfide Transporter or Gasotransmitter?

Authors: Andrea K Steiger; Yu Zhao; Michael D Pluth
Journal: Antioxid Redox Signal Date: 2017-05-18 Impact factor: 8.401

3. Gasotransmitter Heterocellular Signaling.

Authors: Gopi K Kolluru; Xinggui Shen; Shuai Yuan; Christopher G Kevil
Journal: Antioxid Redox Signal Date: 2017-04-06 Impact factor: 8.401

Review 4. Nitric Oxide and Hydrogen Sulfide Regulation of Ischemic Vascular Growth and Remodeling.

Authors: Saranya Rajendran; Xinggui Shen; John Glawe; Gopi K Kolluru; Christopher G Kevil
Journal: Compr Physiol Date: 2019-06-12 Impact factor: 9.090

5. Preparation of Au Nanoclusters-Modified Polylactic Acid Fiber with Bright Red Fluorescence and its Use as Sensing Probe.

Authors: Wenli Zhu; Huili Li; Ajun Wan; Lanbo Liu
Journal: J Fluoresc Date: 2016-10-26 Impact factor: 2.217

10. Quantification of nitric oxide by high-performance liquid chromatography-fluorometric method in subgenomic hepatitis C virus-replicon expressing Huh7 cells upon treatment with acetylsalicylic acid.

Authors: Clara Patricia Rios-Ibarra; Victor Torres-De La Cruz; Andrea Gabriela Ochoa-Ruiz; Ana María Rivas-Estilla
Journal: Exp Ther Med Date: 2018-07-24 Impact factor: 2.447