Harnessing bee venom for inflammatory diseases management: from traditional medicine to nanotechnology.

Abstract

This review investigates the anti-inflammatory potential of bee venom, a natural compound comprising peptides, enzymes, biogenic amines other bioactive amines, and other bioactive components. It aims to elucidate how bee venom mitigates inflammatory responses caused by tissue injury, infections, and trauma. This study also explores the advancements in nanotechnology to enhance bee venom's therapeutic effects. A systematic review of studies from Google Scholar and PubMed, up to 2025, was conducted. Both in vitro and in vivo research focusing on bee venom's effects on proinflammatory mediators were analyzed. Specific attention was given to its molecular mechanisms, therapeutic impact on inflammatory conditions, and the role of nanotechnology in improving drug delivery and stability. Bee venom and its components, including melittin, apamin, and phospholipase A2 demonstrate robust anti-inflammatory properties by inhibiting key proinflammatory mediators. These effects have been observed in the treatment of chronic inflammatory conditions such as rheumatoid arthritis and skin disorders. Studies show bee venom's capacity to reduce excessive inflammatory responses effectively. Moreover, incorporating nanotechnology significantly enhances its therapeutic benefits by improving delivery, stability, and bioavailability, paving the way for advanced applications. Bee venom offers a natural, powerful approach to combating the inflammation and related chromic disorders. Its ability to regulate inflammatory pathways is promising for therapeutic use. The integration of nanotechnology further amplifies its potential, providing innovative solutions for efficient and targeted treatments. This study also highlights the need for more clinical trials to establish bee venom as a mainstream therapeutic agent in modern medicine.