Inhibition of methyldigoxin-induced arrhythmias by pentadecapeptide BPC 157: a relation with NO-system.
Balenovic. Dijana D; Bencic. Martina Lovric ML; Udovicic. Mario M; Simonji. Karol K; Hanzevacki. Jadranka Separovic JS; Barisic. Ivan I; Kranjcevic. Stjepan S; Prkacin. Ingrid I; Coric. Vedran V; Brcic. Luka L; Coric. Marijana M; Brcic. Iva I; Borovic. Suzana S; Radic. Bozo B; Drmic. Domagoj D; Vrcic. Hrvoje H; Seiwerth. Sven S; Sikiric. Predrag P
Key Findings
- Giving BPC‑157 (10‑50 µg/kg) before a digitalis dose reduced premature beats, delayed ventricular tachycardia, and shortened AV‑block episodes.
- When administered after severe digitalis toxicity, BPC‑157 cut down ventricular tachycardia, improved survival, and shortened AV‑block duration.
- The protective action involves the nitric‑oxide pathway: blocking NO (with L‑NAME) worsened arrhythmias, while boosting NO (with L‑arginine) or using BPC‑157 mitigated the damage.
Practical Outcomes
- For biohackers, this suggests BPC‑157 could be explored as a heart‑protective supplement, especially against digitalis‑like stressors, with effective doses in the low microgram per kilogram range in animals. However, human studies are missing, so any self‑experiment should proceed with extreme caution, preferably under medical supervision.
Summary
In rats, the peptide BPC‑157 prevented and even reversed dangerous heart rhythm problems caused by a digitalis drug. It worked best when given in tiny microgram doses before or shortly after the toxin, and its effect seems tied to the body's nitric‑oxide system.
Abstract
Pentadecapeptide BPC 157 (GEPPPGKPADDAGLV, MW 1419) reversed congestive heart failure and various arrhythmias, influenced the NO-system and showed no proarrhythmic effect. In therapy analogy, we challenged rats with digitalis, to show attenuation by BPC 157 and the relation between the NO-system and digitalis toxicity. (i). BPC 157 prophylactic effect. Development of cumulative intravenous digitalis toxicity, BPC 157 (50 microg, 10 microg, 10 ng/kg applied intravenously immediately before a methyldigoxin increment regimen (2.0/1.5/1.5/1.0 mg/kg at 15 min-intervals, total dose 6.0 mg/kg/45 min)) reduced the number of ventricular premature beats, prolonged the time before onset of ventricular tachycardia, reduced ventricular tachycardia and AV-block duration (microg-regimes) or reduced mainly the AV-block duration (ng-regimen). (ii). BPC 157 therapy. Advanced methyldigoxin toxicity (6.0 mg/kg i.v. bolus). BPC 157 applied at the 20th second of the grade 3 AV-block shortened AV-blocks, mitigated a further digitalis toxicity course. Ventricular tachycardias were either avoided (50 microg), or markedly reduced (10 microg, 10 ng). Fatal outcome was either avoided (50 microg), reduced (10 microg), or only delayed (10 ng) (iii) BPC 157, L-NAME, l-arginine, L-NAME+l-arginine application. L-NAME-application (5 mg/kg i.p.) aggravated methyldigoxin-arrhythmias. l-arginine (200 mg/kg i.p.) alone had no effect but blunted L-NAME-exaggeration (L-NAME+l-arginine). In this respect, BPC 157 (50 microg/kg i.p.) was prophylactically and therapeutically more effective: the antagonism of L-NAME with BPC 157 produced an effect similar to BPC 157 alone. In conclusion, digitalis-induced arrhythmias in rats could be prevented and counteracted by pentadecapeptide BPC 157, mainly through an interaction with the NO-system.
Study Information
pubmed
2009
2009-05-22T00:00:00.000Z
10.1016/j.regpep.2009.05.008
65
20