Rotigaptide

	WikiDoc Resources for Rotigaptide
Articles
Most recent articles on Rotigaptide Most cited articles on Rotigaptide Review articles on Rotigaptide Articles on Rotigaptide in N Eng J Med, Lancet, BMJ
Media
Powerpoint slides on Rotigaptide Images of Rotigaptide Photos of Rotigaptide Podcasts & MP3s on Rotigaptide Videos on Rotigaptide
Evidence Based Medicine
Cochrane Collaboration on Rotigaptide Bandolier on Rotigaptide TRIP on Rotigaptide
Clinical Trials
Ongoing Trials on Rotigaptide at Clinical Trials.gov Trial results on Rotigaptide Clinical Trials on Rotigaptide at Google
Guidelines / Policies / Govt
US National Guidelines Clearinghouse on Rotigaptide NICE Guidance on Rotigaptide NHS PRODIGY Guidance FDA on Rotigaptide CDC on Rotigaptide
Books
Books on Rotigaptide
News
Rotigaptide in the news Be alerted to news on Rotigaptide News trends on Rotigaptide
Commentary
Blogs on Rotigaptide
Definitions
Definitions of Rotigaptide
Patient Resources / Community
Patient resources on Rotigaptide Discussion groups on Rotigaptide Patient Handouts on Rotigaptide Directions to Hospitals Treating Rotigaptide Risk calculators and risk factors for Rotigaptide
Healthcare Provider Resources
Symptoms of Rotigaptide Causes & Risk Factors for Rotigaptide Diagnostic studies for Rotigaptide Treatment of Rotigaptide
Continuing Medical Education (CME)
CME Programs on Rotigaptide
International
Rotigaptide en Espanol Rotigaptide en Francais
Business
Rotigaptide in the Marketplace Patents on Rotigaptide
Experimental / Informatics
List of terms related to Rotigaptide

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Rotigaptide (ZP-123) is a stable gap junction conduction-enhancing antiarrhythmic peptide analog that has been shown to increase gap junction intercellular conductance in cardiac myocytes.^[1] Gap junctions are protein channels that are responsible for conducting electrical impulses between cells in the heart to maintain normal rhythm. It is currently under clinical investigation for the treatment of cardiac arrhythmias – specifically atrial fibrillation. Gap junction modulation is a promising and novel mechanism of action for the treatment of cardiovascular disorders.^[1]

Indications

Rotigaptide is being studied for its antiarrhythmic effects, specifically for treating atrial fibrillation.^[2] Atrial fibrillation is an irregular and often rapid heart rhythm. The irregular rhythm, results from abnormal electrical impulses in the heart. The irregularity can be continuous or intermittent. In atrial fibrillation, multiple impulses travel through the atria at the same time. Instead of a coordinated contraction, the atrial contractions are irregular, disorganized and very rapid.^[2] These irregular impulses reach the AV node in rapid succession, but not all of them make it past the AV node. Therefore, the ventricles beat slower in an irregular rhythm. The resulting rapid, irregular heartbeat causes an irregular pulse and sometimes a sensation of fluttering in the chest.

Mechanism of action

The exact mechanism of action of rotigaptide is not completely understood. However, rotigaptide is believed to exert its effects on cardiomyocyte gap junctions through phosphorylation events. Each gap junction is composed of a series of connexons in close proximity to each other. Each connexon is made up of 6 functional units (connexins) that associate together to form a channel between adjacent cells.^[3] Rotigaptide acts at connexins, preferentially to connexin 43 (Cx43).^[4] Treatment with rotigaptide has been shown to activate various protein kinase C (PKC) isoforms to cause the phosphorylation of Cx43, which aids in proper function of the connexon.^[5] This allows for a smoother conduction to pass through the myocytes to propagate a synchronous contraction.^[6] This has been shown to reduce the occurrence of atrial fibrillation.^[2]

Limitations

A potential limitation for this drug is that animals being used for studies are most commonly anesthetized with isoflurane, which has been shown to be a partial gap junction uncoupler and thus would negate the effects of rotigaptide.^[7] However, this effect can be only minor, as one study showed that a low dose of isoflurane was kept continuous over the progression of the study, indicating that the dose was not high enough to uncouple rotigaptide. Therefore, it may be unlikely that isoflurane plays a role in the results presented.^[2]

References

↑ ^1.0 ^1.1 Shiroshita-Takeshita A, Sakabe M, Haugan K, Hennan J, Nattel S (2007). Model- Dependent Effects of the Gap Junction Conduction–Enhancing Antiarrhythmic Peptide Rotigaptide (ZP123) on Experimental Atrial Fibrillation in Dogs. Circulation. 115: 310- 318.
↑ ^2.0 ^2.1 ^2.2 ^2.3 Guerra J, Everett T, Lee K, Wilson E, Olgin J (2006). Effects of the Gap Junction Modifier Rotigaptide (ZP123) on Atrial Conduction and Vulnerability to Atrial Fibrillation. Circulation. 114: 110-118.
↑ Verheule S, van Kempen MJ, te Welscher PH, Kwak BR, Jongsma HJ (1997). Characterization of gap junction channels in adult rabbit atrial and ventricular myocardium. Circulation Research. 80(5): 673-681.
↑ Hennan K, Swillo R, Morgan G, Keith J, Schaub R, Smith R, Feldman H, Haugan K, Kantrowitz J, Wang P, Abu-Qare A, Butera J, Larsen B, Crandall D (2006). Rotigaptide (ZP123) Prevents Spontaneous Ventricular Arrhythmias and Reduces Infarct Size During Myocardial Ischemia/Reperfusion Injury in Open-Chest Dogs. JPET. 317: 236– 243.
↑ Axelsen L, Stahlhut M, Mohammed S, Due Larsen B, Nielsen M, Holstein-Rathlou NH, Søren Andersen, Jensen O, Hennan J, Kjølbye A (2006). Identification of ischemia-regulated phosphorylation sites in connexin43: A possible target for the antiarrhythmic peptide analogue rotigaptide (ZP123). Journal of Molecular and Cellular Cardiology. 40: 790-798.
↑ Clarke T, Thomas D, Petersen J, Evans W, Martin P (2006). The antiarrhythmic peptide rotigaptide (ZP123) increases gap junction intercellular communication in cardiac myocytes and HeLa cells expressing connexin 43. British Journal of Pharmacology. 147: 486–495.
↑ Mantz J, Cordier J, Giaume C (1993). Effects of general anesthetics on inter-cellular communications mediated by gap junctions between astrocytes in primary culture. Anesthesiology. 78: 892–901.

Template:WikiDoc Sources

[intro-1] 1.0 ^1.1 Shiroshita-Takeshita A, Sakabe M, Haugan K, Hennan J, Nattel S (2007). Model- Dependent Effects of the Gap Junction Conduction–Enhancing Antiarrhythmic Peptide Rotigaptide (ZP123) on Experimental Atrial Fibrillation in Dogs. Circulation. 115: 310- 318.

[indi-2] 2.0 ^2.1 ^2.2 ^2.3 Guerra J, Everett T, Lee K, Wilson E, Olgin J (2006). Effects of the Gap Junction Modifier Rotigaptide (ZP123) on Atrial Conduction and Vulnerability to Atrial Fibrillation. Circulation. 114: 110-118.

[3] Verheule S, van Kempen MJ, te Welscher PH, Kwak BR, Jongsma HJ (1997). Characterization of gap junction channels in adult rabbit atrial and ventricular myocardium. Circulation Research. 80(5): 673-681.

[4] Hennan K, Swillo R, Morgan G, Keith J, Schaub R, Smith R, Feldman H, Haugan K, Kantrowitz J, Wang P, Abu-Qare A, Butera J, Larsen B, Crandall D (2006). Rotigaptide (ZP123) Prevents Spontaneous Ventricular Arrhythmias and Reduces Infarct Size During Myocardial Ischemia/Reperfusion Injury in Open-Chest Dogs. JPET. 317: 236– 243.

[5] Axelsen L, Stahlhut M, Mohammed S, Due Larsen B, Nielsen M, Holstein-Rathlou NH, Søren Andersen, Jensen O, Hennan J, Kjølbye A (2006). Identification of ischemia-regulated phosphorylation sites in connexin43: A possible target for the antiarrhythmic peptide analogue rotigaptide (ZP123). Journal of Molecular and Cellular Cardiology. 40: 790-798.

[6] Clarke T, Thomas D, Petersen J, Evans W, Martin P (2006). The antiarrhythmic peptide rotigaptide (ZP123) increases gap junction intercellular communication in cardiac myocytes and HeLa cells expressing connexin 43. British Journal of Pharmacology. 147: 486–495.

[7] Mantz J, Cordier J, Giaume C (1993). Effects of general anesthetics on inter-cellular communications mediated by gap junctions between astrocytes in primary culture. Anesthesiology. 78: 892–901.

[1]

[2]

[3]

[4]

[5]

[6]

[7]