Abstract
To explore the neuroendocrine mechanisms underlying caste-specific behavior and its evolution from primitive to advanced eusocial bees, the monoamine levels and expression of genes involved in monoamine production and signaling in the brain were compared between the castes of Bombus ignitus. Higher levels of dopamine and its related substances were found in the brains of newly emerged queens than in the brains of emerged workers. The degree of caste differences in B. ignitus was smaller than that reported in Apis mellifera, indicating a link to different social stages in the two species. There was no differential expression in genes involved in dopamine biosynthesis between castes, suggesting that the high dopamine production in queens was not largely influenced by the expression of these genes at emergence, rather it might be influenced by tyrosine supply. Genome-wide analyses of gene expression by RNA-sequencing indicated that a greater number of genes involved in nutrition were actively expressed in the brains of newly emerged queens in comparison to the emerged workers. Some of the expression was confirmed by real-time quantitative PCR. The signaling pathways driven by the expression of these genes may be associated with dopamine signaling or the parallel activation of dopamine production.
Highlights
To explore the neuroendocrine mechanisms underlying caste-specific behavior and its evolution from primitive to advanced eusocial bees, the monoamine levels and expression of genes involved in monoamine production and signaling in the brain were compared between the castes of Bombus ignitus
Findings of the caste differences in the brain physiology of bumble bees are comparable with honey bees and other advanced eusocial species and contribute to an understanding of the evolution of caste-specific behavior
The present study has demonstrated that there were caste differences of monoamine production in the brain, especially large amounts of dopamine in virgin queens in the primitively eusocial bumble bee, B. ignitus
Summary
To explore the neuroendocrine mechanisms underlying caste-specific behavior and its evolution from primitive to advanced eusocial bees, the monoamine levels and expression of genes involved in monoamine production and signaling in the brain were compared between the castes of Bombus ignitus. The differential expression of genes including insulin-signaling and vitellogenin in adult brains has been reported[12]. These different gene expressions are considered to generate caste-specific characteristics in the brain. Findings of the caste differences in the brain physiology of bumble bees are comparable with honey bees and other advanced eusocial species and contribute to an understanding of the evolution of caste-specific behavior. Since the social level in this group with undistinguished morphological castes is more primitive than that in honey bees, smaller differences in dopamine levels may occur in the brain between castes
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