The reluctant visitor: an alkaloid in toxic nectar can reduce olfactory learning and memory in Asian honey bees

AbstractSince their discovery in insects, pheromones are considered as ubiquitous and stereotyped chemical messengers acting in intraspecific animal communication. Here we studied the effect of pheromones in a different context as we investigated their capacity to induce persistent modulations of associative learning and memory. We used honey bees, Apis mellifera, and combined olfactory conditioning and pheromone preexposure with disruption of neural activity and two-photon imaging of olfactory brain circuits, to characterize the effect of pheromones on olfactory learning and memory. Geraniol, an attractive pheromone component, and 2-heptanone, an aversive pheromone, improved and impaired, respectively, olfactory learning and memory via a durable modulation of appetitive motivation, which left odor processing unaffected. Consistently, interfering with aminergic circuits mediating appetitive motivation rescued or diminished the cognitive effects induced by pheromone components. We thus show that these chemical messengers act as important modulators of motivational processes and influence thereby animal cognition.

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Nosema ceranaeparasitism impacts olfactory learning and memory and neurochemistry in honey bees (Apis mellifera)

Journal of Experimental Biology ◽

10.1242/jeb.161489 ◽

2017 ◽

Vol 221 (4) ◽

pp. jeb161489 ◽

Cited By ~ 7

Author(s):

Stephanie L. Gage ◽

Catherine Kramer ◽

Samantha Calle ◽

Mark Carroll ◽

Michael Heien ◽

...

Keyword(s):

Apis Mellifera ◽

Learning And Memory ◽

Honey Bees ◽

Olfactory Learning

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Nectar non-protein amino acids (NPAAs) do not change nectar palatability but enhance learning and memory in honey bees

Scientific Reports ◽

10.1038/s41598-021-90895-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Daniele Carlesso ◽

Stefania Smargiassi ◽

Elisa Pasquini ◽

Giacomo Bertelli ◽

David Baracchi

Keyword(s):

Amino Acids ◽

Learning And Memory ◽

Honey Bees ◽

Feeding Preference ◽

Memory Retention ◽

Floral Nectar ◽

Olfactory Conditioning ◽

Specific Memory ◽

Protein Amino Acids ◽

Valuable Compounds

AbstractFloral nectar is a pivotal element of the intimate relationship between plants and pollinators. Nectars are composed of a plethora of nutritionally valuable compounds but also hundreds of secondary metabolites (SMs) whose function remains elusive. Here we performed a set of behavioural experiments to study whether five ubiquitous nectar non-protein amino acids (NPAAs: β-alanine, GABA, citrulline, ornithine and taurine) interact with gustation, feeding preference, and learning and memory in Apis mellifera. We showed that foragers were unable to discriminate NPAAs from water when only accessing antennal chemo-tactile information and that freely moving bees did not exhibit innate feeding preferences for NPAAs. Also, NPAAs did not alter food consumption or longevity in caged bees over 10 days. Taken together our data suggest that natural concentrations of NPAAs did not alter nectar palatability to bees. Olfactory conditioning assays showed that honey bees were more likely to learn a scent when it signalled a sucrose reward containing either β-alanine or GABA, and that GABA enhanced specific memory retention. Conversely, when ingested two hours prior to conditioning, GABA, β-alanine, and taurine weakened bees’ acquisition performances but not specific memory retention, which was enhanced in the case of β-alanine and taurine. Neither citrulline nor ornithine affected learning and memory. NPAAs in nectars may represent a cooperative strategy adopted by plants to attract beneficial pollinators.

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Effects of Nosema ceranae (Dissociodihaplophasida: Nosematidae) and Flupyradifurone on Olfactory Learning in Honey Bees, Apis mellifera (Hymenoptera: Apidae)

Journal of Insect Science ◽

10.1093/jisesa/ieaa130 ◽

2020 ◽

Vol 20 (6) ◽

Author(s):

Heather Christine Bell ◽

Corina N Montgomery ◽

Jaime E Benavides ◽

James C Nieh

Keyword(s):

Apis Mellifera ◽

Learning And Memory ◽

Honey Bees ◽

Food Reward ◽

Nosema Ceranae ◽

Olfactory Conditioning ◽

Agricultural Use ◽

High Doses ◽

Neonicotinoid Pesticides ◽

Term Field

Abstract The health of insect pollinators, particularly the honey bee, Apis mellifera (Linnaeus, 1758), is a major concern for agriculture and ecosystem health. In response to mounting evidence supporting the detrimental effects of neonicotinoid pesticides on pollinators, a novel ‘bee safe’ butenolide compound, flupyradifurone (FPF) has been registered for use in agricultural use. Although FPF is not a neonicotinoid, like neonicotinoids, it is an excitotoxic nicotinic acetylcholine receptor agonist. In addition, A. mellifera faces threats from pathogens, such as the microsporidian endoparasite, Nosema ceranae (Fries et al. 1996). We therefore sought 1) to increase our understanding of the potential effects of FPF on honey bees by focusing on a crucial behavior, the ability to learn and remember an odor associated with a food reward, and 2) to test for a potential synergistic effect on such learning by exposure to FPF and infection with N. ceranae. We found little evidence that FPF significantly alters learning and memory at short-term field-realistic doses. However, at high doses and at chronic, field-realistic exposure, FPF did reduce learning and memory in an olfactory conditioning task. Infection with N. ceranae also reduced learning, but there was no synergy (no significant interaction) between N. ceranae and exposure to FPF. These results suggest the importance of continued studies on the chronic effects of FPF.

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Brain composition and olfactory learning in honey bees

Neurobiology of Learning and Memory ◽

10.1016/j.nlm.2010.01.001 ◽

2010 ◽

Vol 93 (3) ◽

pp. 435-443 ◽

Cited By ~ 15

Author(s):

Wulfila Gronenberg ◽

Margaret J. Couvillon

Keyword(s):

Honey Bees ◽

Olfactory Learning

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A method to study honeybee foraging regulatory molecules at different times during foraging

10.1101/2021.05.28.446211 ◽

2021 ◽

Author(s):

Asem Surindro Singh ◽

Machathoibi Chanu Takhellambam

Keyword(s):

Social Interaction ◽

Learning And Memory ◽

Honey Bee ◽

Honey Bees ◽

Immediate Early ◽

Sample Collection ◽

Time Space ◽

Behavioral Studies ◽

Bee Foraging ◽

Honey Bee Foraging

The foraging of honey bees is one of the most well organized and admirable behaviors that exist among social insects. In behavioral studies, these beautiful insects have been extensively used for understanding time-space learning, landmark use and concept of learning etc. Highly organized behaviors such as social interaction and communication are systematically well organized behavioral components of honeybee foraging. Over the last two decades, understanding the regulatory mechanisms underlying honey bee foraging at the cellular and molecular levels has been increasingly interested to several researchers. Upon the search of regulatory genes of brain and behavior, immediate early (IE) genes are considered as tool to begin the investigation. Our two recent studies, have demonstrated three IE genes namely Egr-1, Hr38 and kakusei having a role in the daily foraging of bees and their association with learning and memory during the foraging. These studies further evidence that IE genes can be used as a tool in finding the specific molecular/cellular players of foraging in honey bees and its behavioral components such as learning, memory, social interaction, social communication etc. In this article we provide the details of the method of sample collection at different times during foraging to investigate the foraging regulatory molecules. Key words: Honey bee foraging, learning and memory, immediate early genes, Egr-1, Hr38, Kakusei.

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The Optic Lobes Regulate Circadian Rhythms of Olfactory Learning and Memory in the Cockroach

Journal of Biological Rhythms ◽

10.1177/0748730415622710 ◽

2015 ◽

Vol 31 (2) ◽

pp. 161-169 ◽

Cited By ~ 1

Author(s):

Alexander J. Lubinski ◽

Terry L. Page

Keyword(s):

Circadian Rhythms ◽

Learning And Memory ◽

Olfactory Learning ◽

Optic Lobes

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Distributed Plasticity for Olfactory Learning and Memory in the Honey Bee Brain

Honeybee Neurobiology and Behavior ◽

10.1007/978-94-007-2099-2_30 ◽

2011 ◽

pp. 393-408 ◽

Cited By ~ 9

Author(s):

Brian H. Smith ◽

Ramón Huerta ◽

Maxim Bazhenov ◽

Irina Sinakevitch

Keyword(s):

Learning And Memory ◽

Honey Bee ◽

Olfactory Learning

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Effect of Astragalus membranaceus Oral Solution on Lifespan and Learning and Memory Ability of Honey Bees

BioMed Research International ◽

10.1155/2020/5745048 ◽

2020 ◽

Vol 2020 ◽

pp. 1-7

Author(s):

Tao Hong ◽

Long-Xue Li ◽

Xiao-ping Han ◽

Jing-liang Shi ◽

Cai-yun Dan ◽

...

Keyword(s):

Learning And Memory ◽

Honey Bees ◽

Dose Group ◽

Low Dose ◽

Oral Solution ◽

Astragalus Membranaceus ◽

Control Group ◽

High Dose ◽

The Mean ◽

And Control

In this study, the effects of Astragalus membranaceus oral solution on lifespan and learning and memory abilities of honey bees were evaluated. Two groups of bees were fed with sucrose syrup (50%) containing low dose (1.33%) and high dose (13.3%) of A. membranaceus oral solution, respectively. The proboscis extension response (PER) analysis was applied to examine the learning and memory capabilities of bees. Two genes related to memory formation in honey bees were determined by real-time PCR. High dose (13.3%) of A. membranaceus significantly decreased the mean lifespan of bees compared to the bees fed with low dose (1.33%) and control bees. No significant differences in lifespan of bees were found between low-dose-fed bees and control bees. The results of PER experiments showed apparent improvement in the memorizing ability of the high-dose group (in comparison with the control group). Moreover, the relative expression levels of Nmdar1 in the low-dose group and control group were significantly lower than those in the high-dose group. It is preliminarily concluded that A. membranaceus has an adverse effect on the mean lifespan of honey bees but might be helpful in strengthening memories.

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