Role of specialized sensory neuron subtypes in modulating peripheral immune responses
- PMID: 40324383
- DOI: 10.1016/j.immuni.2025.04.008
Role of specialized sensory neuron subtypes in modulating peripheral immune responses
Abstract
The immune and sensory nervous systems detect diverse threats, from tissue damage to infection, and coordinate protective responses to restore homeostasis. Like immune cells, sensory neurons exhibit remarkable heterogeneity, with advanced genetic models revealing that distinct subsets differentially regulate immune responses. Here, we review how various immune signals engage distinct subtypes of sensory neurons to mediate inflammatory pain, itch, relief, protective behavioral adaptations, and autonomic reflexes. We also highlight how specialized sensory neuron populations modulate immune function through the release of neuropeptides, neurokines, or glutamate. This functional specialization enables precise immunomodulation adapted to the kinetics and nature of immune responses, positioning sensory neurons as key regulators of host defense and tissue homeostasis.
Keywords: homeostasis; host defense; immunity; immuno-regulation; inflammation; neuropeptides; nociceptors; sensory neurons.
Copyright © 2025 Elsevier Inc. All rights reserved.
Conflict of interest statement
Declaration of interests S.U. is the scientific director and co-founder of the start-up Temper Bio and holds two international patents regarding the therapeutic use of TAFA4 (WO2020/064907 and PCT/EP2021/052548).
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