Secondary Metabolites Produced by Honey Bee-Associated Bacteria for Apiary Health: Potential Activity of Platynecine

Secondary metabolites of bacteria associated with honey bees were evaluated as part of an investigation on their potentiality for apiary health. Low molecular weight compounds released into culture filtrates by the four bacterial isolates taken from surface of healthy honey bees were analyzed using...

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Bibliographic Details
Published in:Current microbiology 2020-11, Vol.77 (11), p.3441-3449
Main Authors: Manici, L. M., SaccĂ , M. L., Lodesani, M.
Format: Article
Language:English
Subjects:
Animals
Apis mellifera
Bacteria
Bees
Bifidobacterium
Biomedical and Life Sciences
Biotechnology
Filtrate
Heterocyclic Compounds, 2-Ring
Honey
Lactobacillus
Life Sciences
Low molecular weights
Mass spectrometry
Mass spectroscopy
Metabolites
Microbiology
Mites
Molecular weight
Secondary metabolites
Toxicity
Varroidae
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Summary:Secondary metabolites of bacteria associated with honey bees were evaluated as part of an investigation on their potentiality for apiary health. Low molecular weight compounds released into culture filtrates by the four bacterial isolates taken from surface of healthy honey bees were analyzed using time-of-flight mass spectrometry. Only one low molecular weight compound was found in the culture filtrate of each isolate. Bacillus thuringiensis, Bifidobacterium asteroides and Acetobacteraceae bacterium , released into culture filtrates platynecine, a pyrrolizidine alkaloid of plant origin, which, until now, had never been reported as produced by bacteria. Lactobacillus kunkeei produced a 3,5-dinitropyridine, of unknown biological action never associated so far to bacteria. The highest relative concentration of platynecine was detected in B. thuringiensis (100%), B. asteroides and A. bacterium showed a concentration above 50% and below 25% that concentration. An in vitro assay on the potential for controlling the parasitic mite Varroa destructor by the culture filtrates of the three platynecine-producing bacteria was performed. Varroa mite mortality was proportional to the platynecine relative concentration into culture filtrate. Although miticidal activity of B. thuringiensis might be associated to other toxic proteins produced by this species, B. asteroides toxicity toward V. destructor along with the other findings of this study support the hypothesis that platynecine plays a direct or an indirect role in controlling varroa. Findings of this study suggest that secondary metabolites released by honey bee-associated bacteria represent a source of natural compounds to be considered in the challenge for counteracting the colony decline.
ISSN:0343-8651
1432-0991
DOI:10.1007/s00284-020-02153-6