Remodeling of Cellular Respiration and Insulin Signaling Are Part of a Shared Stress Response in Divergent Bee Species

Remodeling of Cellular Respiration and Insulin Signaling Are Part of a Shared Stress Response in Divergent Bee Species

The honey bee (<i>Apis mellifera</i>) is of paramount importance to human activities through the pollination services they provide in agricultural settings. Honey bee colonies in the United States have suffered from an increased rate of annual die-off in recent years, stemming from a com...

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Bibliographic Details
Main Authors: Nicole C. Rondeau, Joanna Raup-Collado, Helen V. Kogan, Rachel Cho, Natalie Lovinger, Fatoumata Wague, Allison J. Lopatkin, Noelle G. Texeira, Melissa E. Flores, David Rovnyak, Jonathan W. Snow
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Insects
Subjects:
honey bee
leafcutting bee
heat shock response
lactate dehydrogenase
cellular stress response
Online Access:https://www.mdpi.com/2075-4450/16/3/300
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Summary:The honey bee (<i>Apis mellifera</i>) is of paramount importance to human activities through the pollination services they provide in agricultural settings. Honey bee colonies in the United States have suffered from an increased rate of annual die-off in recent years, stemming from a complex set of interacting stressors that remain poorly described. Defining the cellular responses that are perturbed by divergent stressors represents a key step in understanding these synergies. We found that multiple model stressors induce upregulated expression of the <i>lactate dehydrogenase</i> (<i>Ldh</i>) gene in the midgut of the eusocial honey bee and that the <i>Ldh</i> gene family is expanded in diverse bee species. Alterations in <i>Ldh</i> expression were concomitant with changes in the expression of other genes involved in cellular respiration and genes encoding insulin/insulin-like growth factor signaling (IIS) pathway components. Additionally, changes in metabolites in the midgut after stress, including increased levels of lactate, linked metabolic changes with the observed changes in gene expression. Select transcriptional changes in response to stress were similarly observed in the solitary alfalfa leafcutting bee (<i>Megachile rotundata</i>). Thus, increased <i>Ldh</i> expression may be part of a core stress response remodeling cellular respiration and insulin signaling. These findings suggest that a conserved cellular response that regulates metabolic demands under diverse stressful conditions may play a protective role in bees regardless of life history.
ISSN:2075-4450

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