Odor Experiences during Preimaginal Stages Cause Behavioral and Neural Plasticity in Adult Honeybees

Odor Experiences during Preimaginal Stages Cause Behavioral and Neural Plasticity in Adult Honeybees

In eusocial insects, experiences acquired during the development have long-term consequences on mature behavior. In the honeybee that suffers profound changes associated with metamorphosis, the effect of odor experiences at larval instars on the subsequent physiological and behavioral response is st...

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Bibliographic Details
Published in:Frontiers in behavioral neuroscience Vol. 10; p. 105
Main Authors: Ramírez, Gabriela, Fagundez, Carol, Grosso, Juan P, Argibay, Pablo, Arenas, Andrés, Farina, Walter M
Format: Journal Article
Language:English
Published: Switzerland Frontiers Research Foundation 03-06-2016
Frontiers Media S.A
Subjects:
1-Hexanol
Antennae
Apis mellifera
Associative learning
Bees
Behavior
Behavioral plasticity
Colonies
early experience
Eusociality
Food
Hexanol
Holometabolous insect
Honeybee
Insects
Instars
Metamorphosis
Nervous system
Neural plasticity
Neuroscience
Odor
Olfactory learning
Plasticity and Learning
Sensilla
Sensory evaluation
Young adults
New York
United States > US
Argentina
neurobiology
electrophysiology
behavior
honeybee
preimaginal odor experiences
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Summary:In eusocial insects, experiences acquired during the development have long-term consequences on mature behavior. In the honeybee that suffers profound changes associated with metamorphosis, the effect of odor experiences at larval instars on the subsequent physiological and behavioral response is still unclear. To address the impact of preimaginal experiences on the adult honeybee, colonies containing larvae were fed scented food. The effect of the preimaginal experiences with the food odor was assessed in learning performance, memory retention and generalization in 3-5- and 17-19 day-old bees, in the regulation of their expression of synaptic-related genes and in the perception and morphology of their antennae. Three-five day old bees that experienced 1-hexanol (1-HEX) as food scent responded more to the presentation of the odor during the 1-HEX conditioning than control bees (i.e., bees reared in colonies fed unscented food). Higher levels of proboscis extension response (PER) to 1-HEX in this group also extended to HEXA, the most perceptually similar odor to the experienced one that we tested. These results were not observed for the group tested at older ages. In the brain of young adults, larval experiences triggered similar levels of neurexins (NRXs) and neuroligins (Nlgs) expression, two proteins that have been involved in synaptic formation after associative learning. At the sensory periphery, the experience did not alter the number of the olfactory sensilla placoidea, but did reduce the electrical response of the antennae to the experienced and novel odor. Our study provides a new insight into the effects of preimaginal experiences in the honeybee and the mechanisms underlying olfactory plasticity at larval stage of holometabolous insects.
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content type line 23
Reviewed by: Paul Szyszka, Universität Konstanz, Germany; Ricarda Scheiner, University of Wuerzburg, Germany
Deceased 15 April 2015.
Edited by: Jean-Christophe Sandoz, Centre National de la Recherche Scientifique, France
Co-senior authors.
ISSN:1662-5153
1662-5153
DOI:10.3389/fnbeh.2016.00105