Propolis envelope in Apis mellifera colonies supports honey bees against the pathogen, Paenibacillus larvae

Borba, Renata S.; Spivak, Marla

doi:10.1038/s41598-017-11689-w

Cited by 34 publications

(20 citation statements)

References 48 publications

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“…This observation begs the question of why highly hygienic colonies are rare in nature and whether there are associated fitness costs with the trait (Spivak and Gilliam 1993;Mondragon et al 2005;Bigio et al 2014;Leclercq et al 2017). We speculate that resistance does not depend solely on hygienic behavior but likely involves a combination of other physiological factors in honey bees, including the immune response (Evans and Spivak 2010), transgenerational immune priming (Hernandez Lopez et al 2014), microbiome community (Raymann and Moran 2018), antimicrobial activity of larval food (Rose and Briggs 1969;Borba and Spivak 2017), presence of propolis in the nest (Borba et al 2015), and other factors yet to be discovered.…”

Section: A S S a Y S F O R H O N E Y B E E Hygienic Behaviormentioning

confidence: 91%

Perspectives on hygienic behavior in Apis mellifera and other social insects

Spivak

Danka

2020

Apidologie

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Hygienic behavior in honey bees, Apis mellifera, has been studied for over 80 years with the aim of understanding mechanisms of pathogen and parasite resistance and colony health. This review emphasizes the underlying behavioral mechanisms of hygienic behavior in honey bees and when known, in other social insects. We explore the relationship between honey bee hygienic behavior toward diseased brood and Varroa-parasitized brood (Varroa-sensitive hygiene, VSH); the timing of hygienic removal of diseased, Varroa-infested, and virus-infected brood relative to risk of transmission that can affect colony fitness; and the methods, utility, and odorants associated with different assays used to select colonies for resistance to diseases and Varroa. We also provide avenues for future research that would benefit honey bee health and survivorship.

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Section: A S S a Y S F O R H O N E Y B E E Hygienic Behaviormentioning

confidence: 91%

Perspectives on hygienic behavior in Apis mellifera and other social insects

Spivak

Danka

2020

Apidologie

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“…Previous research has established the benefits of a propolis envelope for colony health and disease resistance. Propolis in the colony is correlated or associated with increases in colony strength, vitellogenin levels, the antimicrobial activity of larval food, adult bee longevity, brood survival rates, hygienic behavior, and honey production [ 6 , 7 , 8 , 9 , 10 , 11 ]. Additionally, a reduction in deformed wing virus titers was found in colonies with propolis (even though Varroa destructor mite infestation did not change [ 12 ]).…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, a reduction in deformed wing virus titers was found in colonies with propolis (even though Varroa destructor mite infestation did not change [ 12 ]). After an experimental pathogen challenge, colonies with a propolis envelope had fewer clinical signs of chalkbrood [ 2 ] and American foulbrood [ 7 ] compared to colonies without a propolis envelope. Simone et al [ 3 ] and Borba et al [ 6 ] found that colonies with a propolis envelope exhibited a reduced investment in individual bee immune function.…”

Section: Introductionmentioning

confidence: 99%

Propolis Envelope Promotes Beneficial Bacteria in the Honey Bee (Apis mellifera) Mouthpart Microbiome

Dalenberg

Maes

Mott

et al. 2020

Insects

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Honey bees collect and apply plant resins to the interior of their nest cavity, in order to form a layer around the nest cavity called a propolis envelope. Propolis displays antimicrobial activity against honey bee pathogens, but the effect of propolis on the honey bee microbiome is unknown. Honey bees do not intentionally consume propolis, but they do manipulate propolis with their mouthparts. Because honey bee mouthparts are used for collecting and storing nectar and pollen, grooming and trophallaxis between adults, feeding larvae, and cleaning the colony, they are an important interface between the bees’ external and internal environments and serve as a transmission route for core gut bacteria and pathogens alike. We hypothesized that the antimicrobial activity of an experimentally applied propolis envelope would influence the bacterial diversity and abundance of the worker mouthpart microbiome. The results revealed that the mouthparts of worker bees in colonies with a propolis envelope exhibited a significantly lower bacterial diversity and significantly higher bacterial abundance compared to the mouthparts of bees in colonies without a propolis envelope. Based on the taxonomic results, the propolis envelope appeared to reduce pathogenic or opportunistic microbes and promote the proliferation of putatively beneficial microbes on the honey bee mouthparts, thus reinforcing the core microbiome of the mouthpart niche.

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“…Bees that collected larger quantities of propolis were reported to be healthier, producing viable broods and displaying superior hygienic behavior compared with the ones that collected less [76,77,81]. It was also found that bees usually respond to pathogens by collecting more propolis to ward off infections, while the immunity of the colony against infection is improved by the propolis envelop [78,82,83]. In addition, the microbiome of the bee colony is stabilized by propolis [84].…”

Section: Evidence For Propolis Protection Against Bee Infectionsmentioning

confidence: 99%

The Strong Anti-Kinetoplastid Properties of Bee Propolis: Composition and Identification of the Active Agents and Their Biochemical Targets

et al. 2020

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The kinetoplastids are protozoa characterized by the presence of a distinctive organelle, called the kinetoplast, which contains a large amount of DNA (kinetoplast DNA (kDNA)) inside their single mitochondrion. Kinetoplastids of medical and veterinary importance include Trypanosoma spp. (the causative agents of human and animal African Trypanosomiasis and of Chagas disease) and Leishmania spp. (the causative agents of the various forms of leishmaniasis). These neglected diseases affect millions of people across the globe, but drug treatment is hampered by the challenges of toxicity and drug resistance, among others. Propolis (a natural product made by bees) and compounds isolated from it are now being investigated as novel treatments of kinetoplastid infections. The anti-kinetoplastid efficacy of propolis is probably a consequence of its reported activity against kinetoplastid parasites of bees. This article presents a review of the reported anti-kinetoplastid potential of propolis, highlighting its anti-kinetoplastid activity in vitro and in vivo regardless of geographical origin. The mode of action of propolis depends on the organism it is acting on and includes growth inhibition, immunomodulation, macrophage activation, perturbation of the cell membrane architecture, phospholipid disturbances, and mitochondrial targets. This gives ample scope for further investigations toward the rational development of sustainable anti-kinetoplastid drugs.

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Propolis envelope in Apis mellifera colonies supports honey bees against the pathogen, Paenibacillus larvae

Cited by 34 publications

References 48 publications

Perspectives on hygienic behavior in Apis mellifera and other social insects

Perspectives on hygienic behavior in Apis mellifera and other social insects

Propolis Envelope Promotes Beneficial Bacteria in the Honey Bee (Apis mellifera) Mouthpart Microbiome

The Strong Anti-Kinetoplastid Properties of Bee Propolis: Composition and Identification of the Active Agents and Their Biochemical Targets

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