How Insects Balance Reproductive Output and Immune Investment

How Insects Balance Reproductive Output and Immune Investment

Insects face the constant challenge of balancing energy allocation between reproduction and immune responses, both of which are highly energy-demanding processes. Immune challenges frequently result in decreased fecundity, reduced egg viability, and delayed ovarian development. Conversely, heightene...

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Bibliographic Details
Main Authors: Jimena Leyria, Leonardo L. Fruttero, Pedro A. Paglione, Lilián E. Canavoso
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Insects
Subjects:
insect reproduction
insect immune response
energy-demanding process
energy allocation
trade-off
neuroendocrine/endocrine regulation
Online Access:https://www.mdpi.com/2075-4450/16/3/311
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Summary:Insects face the constant challenge of balancing energy allocation between reproduction and immune responses, both of which are highly energy-demanding processes. Immune challenges frequently result in decreased fecundity, reduced egg viability, and delayed ovarian development. Conversely, heightened reproductive activity often suppresses immune functions. This trade-off has profound ecological and evolutionary consequences, shaping insects’ survival, adaptation, and population dynamics. The intricate interplay between reproduction and immunity in insects is regulated by the neuroendocrine and endocrine systems, which orchestrate resource distribution alongside other biological processes. Key hormones, such as juvenile hormone and ecdysteroids, serve as central regulators, influencing both immune responses and reproductive activities. Additionally, macromolecules like vitellogenin and lipophorin, primarily known for their functions as yolk protein precursors and lipid carriers, play crucial roles in pathogen recognition and transgenerational immune priming. Advancements in molecular and omics tools have unveiled the complexity of these regulatory mechanisms, providing new insights into how insects dynamically allocate resources to optimize their fitness. This delicate balance underscores critical evolutionary strategies and the integration of physiological systems across species. This review synthesizes insights from life history theory, oogenesis, and immunity, offering new perspectives on the trade-offs between reproductive output and immune investment.
ISSN:2075-4450

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