B7-33
Aufstrebende ForschungRelaxin-2 Analog | Anti-Fibrotic & Cardiovascular
B7-33 is a single-chain peptide analog of human relaxin-2 that selectively activates the relaxin family peptide receptor 1 (RXFP1).
Molekulare und Forschungsdaten
- Sequenz
- Single-chain analog of relaxin-2 B-chain
- Molekulargewicht
- ~4,000 Da
- Halbwertszeit
- Not well characterized
- Wege (Forschung)
- injectable
- Lagerung
- Lyophilized: freezer long-term. Reconstituted: 2-8 C for up to 28 days
Overview
B7-33 is a single-chain peptide analog of human relaxin-2 that selectively activates the relaxin family peptide receptor 1 (RXFP1). Unlike native relaxin-2, which requires a complex two-chain A/B structure connected by disulfide bonds, B7-33 achieves RXFP1 activation with a much simpler single-chain design. This makes it significantly easier and more cost-effective to synthesize. Preclinical research demonstrates potent anti-fibrotic, vasodilatory, and cardioprotective properties, positioning B7-33 as a promising therapeutic candidate for fibrotic diseases, heart failure, and vascular dysfunction.
Mechanism of action
Selectively activates RXFP1, the primary receptor for relaxin-2, triggering downstream signaling cascades that inhibit fibroblast activation and collagen deposition, promote extracellular matrix remodeling via increased matrix metalloproteinase (MMP) activity, enhance nitric oxide-mediated vasodilation, and reduce inflammatory cytokine expression. B7-33 appears to preferentially engage pERK1/2 signaling pathways while showing reduced cAMP activation compared to native relaxin-2, suggesting biased agonism at RXFP1.
Key research findings
- Potent anti-fibrotic activity across multiple organ systems
- Improved vasodilation and vascular compliance
- Cardioprotective effects and potential to attenuate cardiac remodeling
- Much simpler to synthesize than native two-chain relaxin-2
- Selective RXFP1 agonism with biased signaling profile
- Preclinical efficacy in models of heart failure and fibrosis
Research applications
Cardiovascular
- Cardiac Fibrosis — Reduces myocardial fibrosis and collagen deposition, attenuating adverse cardiac remodeling in preclinical heart failure models.
- Vasodilation — Enhances nitric oxide-mediated vasodilation, reducing vascular resistance and improving blood flow in preclinical studies.
- Heart Failure — Demonstrates cardioprotective effects in animal models of heart failure, improving cardiac function and reducing fibrotic burden.
Anti-Fibrotic
- Organ Fibrosis — Inhibits fibroblast differentiation into myofibroblasts and reduces extracellular matrix deposition in multiple organ systems.
- Renal Fibrosis — Shows protective effects against kidney fibrosis progression in preclinical disease models.
B7-33 Häufig gestellte Fragen
Why is B7-33 easier to synthesize than native relaxin-2?+
B7-33 is a single-chain peptide analog that retains RXFP1 activation while avoiding native relaxin-2's complex two-chain A/B structure connected by disulfide bonds. This simplified single-chain design is significantly easier and more cost-effective to synthesize while achieving equivalent biological activity.
What are the cardiovascular benefits of B7-33 compared to other compounds?+
B7-33 reduces myocardial fibrosis, enhances vasodilation through nitric oxide pathway, and demonstrates cardioprotective effects in heart failure models. These anti-fibrotic and vasoprotective properties position it for potential use in cardiac remodeling, though all current data is preclinical.
Can B7-33 cause dangerous drops in blood pressure like other vasodilators?+
Preclinical research suggests transient hypotension due to vasodilatory effects is possible. Users may experience symptomatic hypotension including dizziness or lightheadedness. Those with pre-existing hypotension or on antihypertensive medications must be cautious. No human data exists on hypotension incidence or management.
Is B7-33 safe in pregnancy given its anti-fibrotic effects?+
No. B7-33 is teratogenic and contraindicated in pregnancy or potential pregnancy. The mechanisms affecting tissue remodeling and fibroblast function create theoretical teratogenic risk. No safety data exists for pregnant or breastfeeding women.
References
- [1]A single-chain peptide derived from the relaxin B-chain selectively activates RXFP1Chemical Science
- [2]The single-chain relaxin mimetic, B7-33, maintains anti-fibrotic activity in liver and kidney fibrosis modelsBritish Journal of Pharmacology
- [3]The relaxin receptor as a therapeutic target -- perspectives from evolution and drug targetingPharmacology & Therapeutics
- [4]B7-33 replicates the vasoprotective effects of relaxin in mouse models of cardiovascular diseaseAnnals of the New York Academy of Sciences
- [5]The role of relaxin and its receptor (RXFP1) in the pathogenesis and treatment of fibrotic diseasesMolecular and Cellular Endocrinology
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