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Literature DB >> 23563656

Cardiovascular effects of sphingosine-1-phosphate (S1P).

Abstract

Sphingosine-1-phosphate (S1P) regulates important functions in cardiac and vascular homeostasis. It has been implied to play causal roles in the pathogenesis of many cardiovascular disorders such as coronary artery disease, atherosclerosis, myocardial infarction, and heart failure. The majority of S1P in plasma is associated with high-density lipoproteins (HDL), and their S1P content has been shown to be responsible, at least in part, for several of the beneficial effects of HDL on cardiovascular risk. The attractiveness of S1P-based drugs for potential cardiovascular applications is increasing in the wake of the clinical approval of FTY720, but answers to important questions on the effects of S1P in cardiovascular biology and medicine must still be found. This chapter focuses on the current understanding of the role of S1P and its receptors in cardiovascular physiology, pathology, and disease.

Entities: Chemical Disease

Mesh：

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Year: 2013 PMID： 23563656 DOI： 10.1007/978-3-7091-1511-4_8

Source DB: PubMed Journal: Handb Exp Pharmacol ISSN： 0171-2004

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Cited

11 in total

1. Phospholipid transfer protein deficiency decreases the content of S1P in HDL via the loss of its transfer capability.

Authors: Yang Yu; Shoudong Guo; Yumei Feng; Lei Feng; Yingjie Cui; Guohua Song; Tian Luo; Ke Zhang; Yiwei Wang; Xian-Cheng Jiang; Shucun Qin
Journal: Lipids Date: 2013-10-25 Impact factor: 1.880

2. Altering Sphingolipid Metabolism Attenuates Cell Death and Inflammatory Response After Myocardial Infarction.

Authors: Yoav Hadas; Adam S Vincek; Elias Youssef; Magdalena M Żak; Elena Chepurko; Nishat Sultana; Mohammad Tofael Kabir Sharkar; Ningning Guo; Rinat Komargodski; Ann Anu Kurian; Keerat Kaur; Ajit Magadum; Anthony Fargnoli; Michael G Katz; Nadia Hossain; Ephraim Kenigsberg; Nicole C Dubois; Eric Schadt; Roger Hajjar; Efrat Eliyahu; Lior Zangi
Journal: Circulation Date: 2020-01-29 Impact factor: 29.690

Review 3. The role of dihydrosphingolipids in disease.

Authors: Ruth R Magaye; Feby Savira; Yue Hua; Darren J Kelly; Christopher Reid; Bernard Flynn; Danny Liew; Bing H Wang
Journal: Cell Mol Life Sci Date: 2018-12-06 Impact factor: 9.261

4. Sphingolipid regulators of cellular dysfunction in Type 2 diabetes mellitus: a systems overview.

Authors: Jessica S Ross; Sarah B Russo; Georgia C Chavis; Lauren A Cowart
Journal: Clin Lipidol Date: 2017-01-18

Review 5. Sphingolipids in the Heart: From Cradle to Grave.

Authors: Anna Kovilakath; Maryam Jamil; Lauren Ashley Cowart
Journal: Front Endocrinol (Lausanne) Date: 2020-09-15 Impact factor: 5.555

6. Sphingosine-1-Phosphate Receptor 1 Regulates Cardiac Function by Modulating Ca2+ Sensitivity and Na+/H+ Exchange and Mediates Protection by Ischemic Preconditioning.

Authors: Petra Keul; Marcel M G J van Borren; Alexander Ghanem; Frank Ulrich Müller; Antonius Baartscheer; Arie O Verkerk; Frank Stümpel; Jan Sebastian Schulte; Nazha Hamdani; Wolfgang A Linke; Pieter van Loenen; Marek Matus; Wilhelm Schmitz; Jörg Stypmann; Klaus Tiemann; Jan-Hindrik Ravesloot; Astrid E Alewijnse; Sven Hermann; Léon J A Spijkers; Karl-Heinz Hiller; Deron Herr; Gerd Heusch; Michael Schäfers; Stephan L M Peters; Jerold Chun; Bodo Levkau
Journal: J Am Heart Assoc Date: 2016-05-20 Impact factor: 5.501

7. Metabolomics reveals the mechanisms for the cardiotoxicity of Pinelliae Rhizoma and the toxicity-reducing effect of processing.

Authors: Tao Su; Yong Tan; Man-Shan Tsui; Hua Yi; Xiu-Qiong Fu; Ting Li; Chi Leung Chan; Hui Guo; Ya-Xi Li; Pei-Li Zhu; Anfernee Kai Wing Tse; Hui Cao; Ai-Ping Lu; Zhi-Ling Yu
Journal: Sci Rep Date: 2016-10-04 Impact factor: 4.379