Propolis Consumption Reduces Nosema ceranae Infection of European Honey Bees ( Apis mellifera )

is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( ), including the Western honey bee , in which it may lead to colony death. It can be controlled in by feeding the antibiotic fumagillin to a colony, though this product is toxic to humans and its use ha...

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Published inInsects (Basel, Switzerland) Vol. 11; no. 2; p. 124
Main Authors Mura, Alessandra, Pusceddu, Michelina, Theodorou, Panagiotis, Angioni, Alberto, Floris, Ignazio, Paxton, Robert J, Satta, Alberto
Format Journal Article
LanguageEnglish
Published Switzerland MDPI 15.02.2020
MDPI AG
Subjects
ethanol extract
honey bee health
infection
microsporidia
nosemosis
self-medication
self-medication
infection
ethanol extract
nosemosis
microsporidia
honey bee health
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Abstract is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( ), including the Western honey bee , in which it may lead to colony death. It can be controlled in by feeding the antibiotic fumagillin to a colony, though this product is toxic to humans and its use has now been banned in many countries, so in beekeeping, there exists a need for alternative and safe products effective against . Honeybees produce propolis from resinous substances collected from plants and use it to protect their nest from parasites and pathogens; propolis is thought to decrease the microbial load of the hive. We hypothesized that propolis might also reduce infection of individual bees and that they might consume propolis as a form of self-medication. To test these hypotheses, we evaluated the effects of an ethanolic extract of propolis administered orally on the longevity and spore load of experimentally -infected worker bees and also tested whether infected bees were more attracted to, and consumed a greater proportion of, a diet containing propolis in comparison to uninfected bees. Propolis extracts and ethanol (solvent control) increased the lifespan of -infected bees, but only propolis extract significantly reduced spore load. Our propolis extract primarily contained derivatives of caffeic acid, ferulic acid, ellagic acid and quercetin. Choice, scan sampling and food consumption tests did not reveal any preference of -infected bees for commercial candy containing propolis. Our research supports the hypothesis that propolis represents an effective and safe product to control but worker bees seem not to use it to self-medicate when infected with this pathogen.
AbstractList Nosema ceranae is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee (Apis), including the Western honey bee Apis mellifera, in which it may lead to colony death. It can be controlled in A. mellifera by feeding the antibiotic fumagillin to a colony, though this product is toxic to humans and its use has now been banned in many countries, so in beekeeping, there exists a need for alternative and safe products effective against N. ceranae. Honeybees produce propolis from resinous substances collected from plants and use it to protect their nest from parasites and pathogens; propolis is thought to decrease the microbial load of the hive. We hypothesized that propolis might also reduce N. ceranae infection of individual bees and that they might consume propolis as a form of self-medication. To test these hypotheses, we evaluated the effects of an ethanolic extract of propolis administered orally on the longevity and spore load of experimentally N. ceranae-infected worker bees and also tested whether infected bees were more attracted to, and consumed a greater proportion of, a diet containing propolis in comparison to uninfected bees. Propolis extracts and ethanol (solvent control) increased the lifespan of N. ceranae-infected bees, but only propolis extract significantly reduced spore load. Our propolis extract primarily contained derivatives of caffeic acid, ferulic acid, ellagic acid and quercetin. Choice, scan sampling and food consumption tests did not reveal any preference of N. ceranae-infected bees for commercial candy containing propolis. Our research supports the hypothesis that propolis represents an effective and safe product to control N. ceranae but worker bees seem not to use it to self-medicate when infected with this pathogen.
Nosema ceranae is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( Apis ), including the Western honey bee Apis mellifera , in which it may lead to colony death. It can be controlled in A. mellifera by feeding the antibiotic fumagillin to a colony, though this product is toxic to humans and its use has now been banned in many countries, so in beekeeping, there exists a need for alternative and safe products effective against N. ceranae . Honeybees produce propolis from resinous substances collected from plants and use it to protect their nest from parasites and pathogens; propolis is thought to decrease the microbial load of the hive. We hypothesized that propolis might also reduce N. ceranae infection of individual bees and that they might consume propolis as a form of self-medication. To test these hypotheses, we evaluated the effects of an ethanolic extract of propolis administered orally on the longevity and spore load of experimentally N. ceranae -infected worker bees and also tested whether infected bees were more attracted to, and consumed a greater proportion of, a diet containing propolis in comparison to uninfected bees. Propolis extracts and ethanol (solvent control) increased the lifespan of N. ceranae -infected bees, but only propolis extract significantly reduced spore load. Our propolis extract primarily contained derivatives of caffeic acid, ferulic acid, ellagic acid and quercetin. Choice, scan sampling and food consumption tests did not reveal any preference of N. ceranae -infected bees for commercial candy containing propolis. Our research supports the hypothesis that propolis represents an effective and safe product to control N. ceranae but worker bees seem not to use it to self-medicate when infected with this pathogen.
is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( ), including the Western honey bee , in which it may lead to colony death. It can be controlled in by feeding the antibiotic fumagillin to a colony, though this product is toxic to humans and its use has now been banned in many countries, so in beekeeping, there exists a need for alternative and safe products effective against . Honeybees produce propolis from resinous substances collected from plants and use it to protect their nest from parasites and pathogens; propolis is thought to decrease the microbial load of the hive. We hypothesized that propolis might also reduce infection of individual bees and that they might consume propolis as a form of self-medication. To test these hypotheses, we evaluated the effects of an ethanolic extract of propolis administered orally on the longevity and spore load of experimentally -infected worker bees and also tested whether infected bees were more attracted to, and consumed a greater proportion of, a diet containing propolis in comparison to uninfected bees. Propolis extracts and ethanol (solvent control) increased the lifespan of -infected bees, but only propolis extract significantly reduced spore load. Our propolis extract primarily contained derivatives of caffeic acid, ferulic acid, ellagic acid and quercetin. Choice, scan sampling and food consumption tests did not reveal any preference of -infected bees for commercial candy containing propolis. Our research supports the hypothesis that propolis represents an effective and safe product to control but worker bees seem not to use it to self-medicate when infected with this pathogen.
Author Angioni, Alberto
Paxton, Robert J
Satta, Alberto
Mura, Alessandra
Theodorou, Panagiotis
Floris, Ignazio
Pusceddu, Michelina
AuthorAffiliation 1 Department of Agricultural Sciences, University of Sassari, 07100 Sassari, Italy; amura1@uniss.it (A.M.); mpusceddu@uniss.it (M.P.); ifloris@uniss.it (I.F.)
3 Department of Life and Environmental Sciences, University of Cagliari, 09124 Cagliari, Italy; aangioni@unica.it
2 General Zoology, Institute of Biology, Martin Luther University Halle-Wittenberg, Hoher Weg 8, 06120 Halle (Saale), Germany; panatheod@gmail.com (P.T.); robert.paxton@zoologie.uni-halle.de (R.J.P.)
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– name: 2 General Zoology, Institute of Biology, Martin Luther University Halle-Wittenberg, Hoher Weg 8, 06120 Halle (Saale), Germany; panatheod@gmail.com (P.T.); robert.paxton@zoologie.uni-halle.de (R.J.P.)
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/32075232$$D View this record in MEDLINE/PubMed
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Issue 2
Keywords self-medication
infection
ethanol extract
nosemosis
microsporidia
honey bee health
Language English
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Snippet is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( ), including the Western honey bee , in which it may lead to...
Nosema ceranae is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee (Apis), including the Western honey bee Apis...
Nosema ceranae is a widespread obligate intracellular parasite of the ventriculus of many species of honey bee ( Apis ), including the Western honey bee Apis...
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StartPage 124
SubjectTerms ethanol extract
honey bee health
infection
microsporidia
nosemosis
self-medication
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Title Propolis Consumption Reduces Nosema ceranae Infection of European Honey Bees ( Apis mellifera )
URI https://www.ncbi.nlm.nih.gov/pubmed/32075232
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Volume 11
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