Exploring bee venom and silver nanoparticles for controlling foulbrood pathogen and enhancing lifespan of honeybees

The beekeeping industry plays a crucial role in local economies, contributing significantly to their growth. However, bee colonies often face the threat of American foulbrood (AFB), a dangerous disease caused by the Gram-positive bacterium Paenibacillus larvae (P. l.). While the antibiotic Tylosin h...

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Bibliographic Details
Published in:Scientific reports 2024-08, Vol.14 (1), p.19013-14
Main Authors: El-Sayied Ali, Sawsan, El-Ghannam, Gamal, Hashish, Mohamed El-Sayied, Elsayed, Hassan, Ali, Ahmed Kamel, Marzouk, Wael Mahmoud, Khattaby, Ahmed Mahmoud, El-Wahab, Ashraf M. Abd, Abdel-Hafez, Shams H., Attia Attia, Yasser
Format: Article
Language:English
Subjects:
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631/326
631/92
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704/4111
American foulbrood
Animals
Anti-Bacterial Agents - pharmacology
Antibacterial agents
Apiculture
Bee venom
Bee Venoms - pharmacology
Beekeeping industry
Bees
Bees - microbiology
Gram-positive bacteria
Honeybee health
Humanities and Social Sciences
Larvae
Life span
Local economy
Longevity - drug effects
Metal Nanoparticles - chemistry
multidisciplinary
Nanocomposites
Nanoparticles
Oral administration
Paenibacillus larvae
Paenibacillus larvae - drug effects
Science
Science (multidisciplinary)
Silver
Silver - chemistry
Silver - pharmacology
Silver nanoparticles
Tylosin
Venom
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Summary:The beekeeping industry plays a crucial role in local economies, contributing significantly to their growth. However, bee colonies often face the threat of American foulbrood (AFB), a dangerous disease caused by the Gram-positive bacterium Paenibacillus larvae (P. l.). While the antibiotic Tylosin has been suggested as a treatment, its bacterial resistance necessitates the search for more effective alternatives. This investigation focused on evaluating the potential of bee venom (BV) and silver nanoparticles (Ag NPs) as antibacterial agents against AFB. In vitro treatments were conducted using isolated AFB bacterial samples, with various concentrations of BV and Ag NPs (average size: 25nm) applied individually and in combination. The treatments were administered under both light and dark conditions. The viability of the treatments was assessed by monitoring the lifespans of treated bees and evaluating the treatment's efficiency within bee populations. Promising results were obtained with the use of Ag NPs, which effectively inhibited the progression of AFB. Moreover, the combination of BV and Ag NPs, known as bee venom/silver nanocomposites (BV/Ag NCs), significantly extended the natural lifespan of bees from 27 to 40 days. Notably, oral administration of BV in varying concentrations (1.53, 3.12, and 6.25 mg/mL) through sugary syrup doubled the bees' lifespan compared to the control group. The study established a significant correlation between the concentration of each treatment and the extent of bacterial inhibition. BV/Ag NCs demonstrated 1.4 times greater bactericidal efficiency under photo-stimulation with visible light compared to darkness, suggesting that light exposure enhances the effectiveness of BV/Ag NCs. The combination of BV and Ag NPs demonstrated enhanced antibacterial efficacy and prolonged honeybee lifespan. These results offer insights that can contribute to the development of safer and more efficient antibacterial agents for maintaining honeybee health.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-67515-7