Using neurons to maintain autonomy: Learning from C. elegans

Using neurons to maintain autonomy: Learning from C. elegans

Understanding how biological organisms are autonomous—maintain themselves far from equilibrium through their own activities—requires understanding how they regulate those activities. In multicellular animals, such control can be exercised either via endocrine signaling through the vasculature or via...

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Bibliographic Details
Published in:BioSystems 2023-10, Vol.232, p.105017-105017, Article 105017
Main Authors: Bechtel, William, Bich, Leonardo
Format: Article
Language:eng
Subjects:
Animal biology
Autonomous systems
Cognitive science
Distributed control
Feeding
Feeding behavior
Humanities and Social Sciences
Integration
Life Sciences
Neural control
Neuromodulators
Neurons and Cognition
Philosophy
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Summary:Understanding how biological organisms are autonomous—maintain themselves far from equilibrium through their own activities—requires understanding how they regulate those activities. In multicellular animals, such control can be exercised either via endocrine signaling through the vasculature or via neurons. In C. elegans this control is exercised by a well-delineated relatively small but distributed nervous system that relies on both chemical and electric transmission of signals. This system provides resources to integrate information from multiple sources as needed to maintain the organism. Especially important for the exercise of neural control are neuromodulators, which we present as setting agendas for control through more traditional electrical signaling. To illustrate how the C. elegans nervous system integrates multiple sources of information in controlling activities important for autonomy, we focus on feeding behavior and responses to adverse conditions. We conclude by considering how a distributed nervous system without a centralized controller is nonetheless adequate for autonomy.
ISSN:0303-2647
1872-8324