Rotigaptide
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Rotigaptide

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Rotigaptide is a peptide drug used to treat arrhythmia.

Category
Peptide APIs
Catalog number
BAT-010054
CAS number
355151-12-1
Molecular Formula
C28H39N7O9
Molecular Weight
617.65
Rotigaptide
IUPAC Name
(2R,4S)-1-[(2R)-1-[(2R)-2-acetamido-3-(4-hydroxyphenyl)propanoyl]pyrrolidine-2-carbonyl]-N-[2-[[(2R)-1-[(2-amino-2-oxoethyl)amino]-1-oxopropan-2-yl]amino]-2-oxoethyl]-4-hydroxypyrrolidine-2-carboxamide
Synonyms
CHEMBL450656; GAP-486; ZP-123; ZP 123; ZP123 peptide; ZP-123 (ZEALAND); acetyl-tyrosyl-prolyl-hydroxyprolyl-glycyl-alanyl-glycinamide
Appearance
Solid Powder
Purity
>98%
Density
1.396±0.06 g/cm3(Predicted)
Boiling Point
1187.3±65.0°C at 760 mmHg
Sequence
Ac-D-Tyr-D-Pro-D-Hyp-Gly-D-Ala-Gly-NH2
Storage
Store at -20°C
Solubility
Soluble in DMSO
InChI
InChI=1S/C28H39N7O9/c1-15(25(41)30-12-23(29)39)32-24(40)13-31-26(42)22-11-19(38)14-35(22)28(44)21-4-3-9-34(21)27(43)20(33-16(2)36)10-17-5-7-18(37)8-6-17/h5-8,15,19-22,37-38H,3-4,9-14H2,1-2H3,(H2,29,39)(H,30,41)(H,31,42)(H,32,40)(H,33,36)/t15-,19+,20-,21-,22-/m1/s1
InChI Key
GFJRASPBQLDRRY-TWTQBQJDSA-N
Canonical SMILES
CC(C(=O)NCC(=O)N)NC(=O)CNC(=O)C1CC(CN1C(=O)C2CCCN2C(=O)C(CC3=CC=C(C=C3)O)NC(=O)C)O
1. Beneficial Electrophysiological Effects of Rotigaptide Are Unable to Suppress Therapeutic Hypothermia-Provoked Ventricular Fibrillation in Failing Rabbit Hearts With Acute Ischemia-Reperfusion Injury
Hui-Ling Lee, Po-Cheng Chang, Hung-Ta Wo, Hao-Tien Liu, Ming-Shien Wen, Chung-Chuan Chou Front Physiol. 2021 Sep 13;12:726389. doi: 10.3389/fphys.2021.726389. eCollection 2021.
Aims: Whether therapeutic hypothermia (TH) is proarrhythmic in preexisting failing hearts with acute ischemia-reperfusion (IR) injury is unknown. Additionally, the effectiveness of rotigaptide on improving conduction slowing in hearts with IR injury is ambiguous. We investigated the electrophysiological effects of TH and rotigaptide in failing rabbit hearts with acute IR injury and determined the underlying molecular mechanisms. Methods and Results: Heart failure was induced by right ventricular pacing (320 beats/min, 4 weeks). Rabbits with pacing-induced heart failure were randomly divided into TH (n = 14) and non-TH (n = 7) groups. The IR rabbit model was created by ligating the coronary artery for 60 min, followed by reperfusion for 15 min in vivo. Then, the hearts were excised quickly and Langendorff-perfused for simultaneous voltage and intracellular Ca2+ (Cai) optical mapping. Electrophysiological studies were conducted, and vulnerability to ventricular fibrillation (VF) was evaluated using pacing protocols. TH (33°C) was instituted after baseline studies, and electrophysiological studies were repeated. Rotigaptide (300 nM) was infused for 20 min, and electrophysiological studies were repeated under TH. Cardiac tissues were sampled for Western blotting. TH increased the dispersion and beat-to-beat variability of action potential duration (APD), aggravated conduction slowing, and prolonged Cai decay to facilitate spatially discordant alternans (SDA) and VF induction. Rotigaptide reduced the dispersion and beat-to-beat variability of APD and improved slowed conduction to defer the onset of arrhythmogenic SDA by dynamic pacing and elevate the pacing threshold of VF during TH. However, the effect of rotigaptide on TH-enhanced VF inducibility was statistically insignificant. TH attenuated IR-induced dysregulation of protein expression, but its functional role remained uncertain. Conclusion: Therapeutic hypothermia is proarrhythmic in failing hearts with acute IR injury. Rotigaptide improves TH-induced APD dispersion and beat-to-beat variability and conduction disturbance to defer the onset of arrhythmogenic SDA and elevate the VF threshold by dynamic pacing, but these beneficial electrophysiological effects are unable to suppress TH-enhanced VF inducibility significantly.
2. Rotigaptide protects the myocardium and arterial vasculature from ischaemia reperfusion injury
Christian M Pedersen, et al. Br J Clin Pharmacol. 2016 Jun;81(6):1037-45. doi: 10.1111/bcp.12882. Epub 2016 Mar 10.
Aim: Ischaemia-reperfusion injury (IRI) causes impaired endothelial function and is a major component of the adverse effects of reperfusion following myocardial infarction. Rotigaptide increases gap junction conductance via connexin-43. We tested the hypothesis that rotigaptide reduces experimental myocardial infarction size and ameliorates endothelial IRI in humans. Methods: Myocardial infarction study: porcine myocardial infarction was achieved by catheter-induced occlusion of the left anterior descending artery. In a randomized double-blind study, rotigaptide (n = 9) or placebo (n = 10) was administered intravenously as a 10 min bolus prior to reperfusion and continuously during 2 h of reperfusion. Myocardial infarction size (IS) was assessed as proportion of the area at risk (AAR). Human translational study: forearm IRI was induced in the presence or absence of intra-arterial rotigaptide. In a randomized double-blind study, forearm arterial blood flow was measured at rest and during intra-arterial infusion of acetylcholine (5-20 μg min(-1) ; n = 11) or sodium nitroprusside (2-8 mg min(-1) ; n = 10) before and after intra-arterial infusion of placebo or rotigaptide, and again following IRI. Results: Myocardial infarction study: Rotigaptide treatment was associated with a reduction of infarct size (IS/AAR[%]: 18.7 ± 4.1 [rotigaptide] vs. 43.6 ± 4.2 [placebo], P = 0.006). Human translational study: Endothelium-dependent vasodilatation to acetylcholine was attenuated after ischaemia-reperfusion in the presence of placebo (P = 0.007), but not in the presence of rotigaptide (P = NS). Endothelium-independent vasodilatation evoked by sodium nitroprusside was unaffected by IRI or rotigaptide (P = NS). Conclusions: Rotigaptide reduces myocardial infarction size in a porcine model and protects from IRI-related endothelial dysfunction in man. Rotigaptide may have therapeutic potential in the treatment of myocardial infarction.
3. Rotigaptide Infusion for the First 7 Days After Myocardial Infarction-Reperfusion Reduced Late Complexity of Myocardial Architecture of the Healing Border-Zone and Arrhythmia Inducibility
Rasheda A Chowdhury, et al. J Am Heart Assoc. 2021 May 4;10(9):e020006. doi: 10.1161/JAHA.120.020006. Epub 2021 Apr 17.
Background Survivors of myocardial infarction are at increased risk of late ventricular arrhythmias, with infarct size and scar heterogeneity being key determinants of arrhythmic risk. Gap junctions facilitate the passage of small ions and morphogenic cell signaling between myocytes. We hypothesized that gap junctions enhancement during infarction-reperfusion modulates structural and electrophysiological remodeling and reduces late arrhythmogenesis. Methods and Results Infarction-reperfusion surgery was carried out in male Sprague-Dawley rats followed by 7 days of rotigaptide or saline administration. The in vivo and ex vivo arrhythmogenicity was characterized by programmed electrical stimulation 3 weeks later, followed by diffusion-weighted magnetic resonance imaging and Masson's trichrome histology. Three weeks after 7-day postinfarction administration of rotigaptide, ventricular tachycardia/ventricular fibrillation was induced on programmed electrical stimulation in 20% and 53% of rats, respectively (rotigaptide versus control), resulting in reduction of arrhythmia score (3.2 versus 1.4, P=0.018), associated with the reduced magnetic resonance imaging parameters fractional anisotropy (fractional anisotropy: -5% versus -15%; P=0.062) and mean diffusivity (mean diffusivity: 2% versus 6%, P=0.042), and remodeling of the 3-dimensional laminar structure of the infarct border zone with reduction of the mean (16° versus 19°, P=0.013) and the dispersion (9° versus 12°, P=0.015) of the myofiber transverse angle. There was no change in ECG features, spontaneous arrhythmias, or mortality. Conclusions Enhancement of gap junctions function by rotigaptide administered during the early healing phase in reperfused infarction reduces later complexity of infarct scar morphology and programmed electrical stimulation-induced arrhythmias, and merits further exploration as a feasible and practicable intervention in the acute myocardial infarction management to reduce late arrhythmic risk.
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