Reflex principles of immunological homeostasis

U Andersson, KJ Tracey - Annual review of immunology, 2012 - annualreviews.org
U Andersson, KJ Tracey
Annual review of immunology, 2012annualreviews.org
The reasoning that neural reflexes maintain homeostasis in other body organs, and that the
immune system is innervated, prompted a search for neural circuits that regulate innate and
adaptive immunity. This elucidated the inflammatory reflex, a prototypical reflex circuit that
maintains immunological homeostasis. Molecular products of infection or injury activate
sensory neurons traveling to the brainstem in the vagus nerve. The arrival of these incoming
signals generates action potentials that travel from the brainstem to the spleen and other …
The reasoning that neural reflexes maintain homeostasis in other body organs, and that the immune system is innervated, prompted a search for neural circuits that regulate innate and adaptive immunity. This elucidated the inflammatory reflex, a prototypical reflex circuit that maintains immunological homeostasis. Molecular products of infection or injury activate sensory neurons traveling to the brainstem in the vagus nerve. The arrival of these incoming signals generates action potentials that travel from the brainstem to the spleen and other organs. This culminates in T cell release of acetylcholine, which interacts with α7 nicotinic acetylcholine receptors (α7 nAChR) on immunocompetent cells to inhibit cytokine release in macrophages. Herein is reviewed the neurophysiological basis of reflexes that provide stability to the immune system, the neural- and receptor-dependent mechanisms, and the potential opportunities for developing novel therapeutic devices and drugs that target neural pathways to treat inflammatory diseases.
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