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Literature DB >> 12461516

Blocking NO synthesis: how, where and why?

Abstract

Nitric oxide (NO) is a key physiological mediator, and the association of disordered NO generation with many pathological conditions has led to much interest in pharmacologically modulating NO levels. However, the wide range of processes in which NO has been implicated, and the fact that increases or decreases in NO levels might be therapeutically desirable depending on the condition or even at different stages of the same condition, pose considerable challenges for drug development. Here, we focus on the rationale and potential for approaches that reduce NO synthesis, which have led to the development of several compounds that will shortly be entering clinical trials.

Entities: Chemical Disease

Mesh：

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Year: 2002 PMID： 12461516 DOI： 10.1038/nrd960

Source DB: PubMed Journal: Nat Rev Drug Discov ISSN： 1474-1776 Impact factor: 84.694

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Cited

84 in total

1. Involvement of nitric oxide in maneb- and paraquat-induced Parkinson's disease phenotype in mouse: is there any link with lipid peroxidation?

Authors: Satya Prakash Gupta; Suman Patel; Sharawan Yadav; Anand Kumar Singh; Seema Singh; Mahendra Pratap Singh
Journal: Neurochem Res Date: 2010-05-09 Impact factor: 3.996

2. Role of an isoform-specific serine residue in FMN-heme electron transfer in inducible nitric oxide synthase.

Authors: Wenbing Li; Weihong Fan; Li Chen; Bradley O Elmore; Mike Piazza; J Guy Guillemette; Changjian Feng
Journal: J Biol Inorg Chem Date: 2012-03-10 Impact factor: 3.358

3. Role of an isoform-specific substrate access channel residue in CO ligand accessibilities of neuronal and inducible nitric oxide synthase isoforms.

Authors: Changjian Feng; Weihong Fan; Dipak K Ghosh; Gordon Tollin
Journal: Biochim Biophys Acta Date: 2010-12-10

4. Role of the oligopeptide permease ABC Transporter of Moraxella catarrhalis in nutrient acquisition and persistence in the respiratory tract.

Authors: Megan M Jones; Antoinette Johnson; Mary Koszelak-Rosenblum; Charmaine Kirkham; Aimee L Brauer; Michael G Malkowski; Timothy F Murphy
Journal: Infect Immun Date: 2014-08-25 Impact factor: 3.441

5. Mechanism of Inactivation of Neuronal Nitric Oxide Synthase by (S)-2-Amino-5-(2-(methylthio)acetimidamido)pentanoic Acid.

Authors: Wei Tang; Huiying Li; Emma H Doud; Yunqiu Chen; Stephanie Choing; Carla Plaza; Neil L Kelleher; Thomas L Poulos; Richard B Silverman
Journal: J Am Chem Soc Date: 2015-05-05 Impact factor: 15.419

6. Unexpected binding modes of nitric oxide synthase inhibitors effective in the prevention of a cerebral palsy phenotype in an animal model.

Authors: Silvia L Delker; Haitao Ji; Huiying Li; Joumana Jamal; Jianguo Fang; Fengtian Xue; Richard B Silverman; Thomas L Poulos
Journal: J Am Chem Soc Date: 2010-04-21 Impact factor: 15.419

Review 7. Nitric oxide synthases and osteoarthritis.

Authors: Jose U Scher; Michael H Pillinger; Steven B Abramson
Journal: Curr Rheumatol Rep Date: 2007-04 Impact factor: 4.592

8. Increased alveolar nitric oxide concentration and high levels of leukotriene B(4) and 8-isoprostane in exhaled breath condensate in patients with asbestosis.

Authors: Hannele Lehtonen; Panu Oksa; Lauri Lehtimäki; Anna Sepponen; Riina Nieminen; Hannu Kankaanranta; Seppo Saarelainen; Ritva Järvenpää; Jukka Uitti; Eeva Moilanen
Journal: Thorax Date: 2007-01-24 Impact factor: 9.139

9. Inhibition of classical PKC isoenzymes downregulates STAT1 activation and iNOS expression in LPS-treated murine J774 macrophages.

Authors: Tiina Salonen; Outi Sareila; Ulla Jalonen; Hannu Kankaanranta; Raimo Tuominen; Eeva Moilanen
Journal: Br J Pharmacol Date: 2006-04 Impact factor: 8.739

10. Structure-guided design of selective inhibitors of neuronal nitric oxide synthase.

Authors: He Huang; Huiying Li; Pavel Martásek; Linda J Roman; Thomas L Poulos; Richard B Silverman
Journal: J Med Chem Date: 2013-03-28 Impact factor: 7.446