A distributed coding logic for thermosensation and inflammatory pain

Somatosensory neurons encode detailed information about touch and temperature and are the peripheral drivers of pain 1 , 2 . Here by combining functional imaging with multiplexed in situ hybridization 3 , we determined how heat and mechanical stimuli are encoded across neuronal classes and how infla...

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Vydané v:Nature (London) Ročník 642; číslo 8069; s. 1016 - 1023
Hlavní autori: Ghitani, Nima, von Buchholtz, Lars J., MacDonald, Donald Iain, Falgairolle, Melanie, Nguyen, Minh Q., Licholai, Julia A., Ryba, Nicholas J. P., Chesler, Alexander T.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: London Nature Publishing Group UK 26.06.2025
Predmet:
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14/63
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Animals
Dinoprostone - pharmacology
Female
Hot Temperature
Humanities and Social Sciences
Hyperalgesia - physiopathology
Inflammation - complications
Inflammation - pathology
Inflammation - physiopathology
Male
Mice
Mice, Inbred C57BL
multidisciplinary
Nociceptors - drug effects
Nociceptors - metabolism
Nociceptors - physiology
Pain - physiopathology
Physical Stimulation
Rats
Science
Science (multidisciplinary)
Thermosensing - physiology
Touch - physiology
TRPV Cation Channels - metabolism
ISSN:0028-0836, 1476-4687, 1476-4687
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Shrnutí:Somatosensory neurons encode detailed information about touch and temperature and are the peripheral drivers of pain 1 , 2 . Here by combining functional imaging with multiplexed in situ hybridization 3 , we determined how heat and mechanical stimuli are encoded across neuronal classes and how inflammation transforms this representation to induce heat hypersensitivity, mechanical allodynia and continuing pain. Our data revealed that trigeminal neurons innervating the cheek exhibited complete segregation of responses to gentle touch and heat. By contrast, heat and noxious mechanical stimuli broadly activated nociceptor classes, including cell types proposed to trigger select percepts and behaviours 4 , 5 – 6 . Injection of the inflammatory mediator prostaglandin E2 caused long-lasting activity and thermal sensitization in select classes of nociceptors, providing a cellular basis for continuing inflammatory pain and heat hypersensitivity. We showed that the capsaicin receptor TRPV1 (ref.  7 ) has a central role in heat sensitization but not in spontaneous nociceptor activity. Unexpectedly, the responses to mechanical stimuli were minimally affected by inflammation, suggesting that tactile allodynia results from the continuing firing of nociceptors coincident with touch. Indeed, we have demonstrated that nociceptor activity is both necessary and sufficient for inflammatory tactile allodynia. Together, these findings refine models of sensory coding and discrimination at the cellular and molecular levels, demonstrate that touch and temperature are broadly but differentially encoded across transcriptomically distinct populations of sensory cells and provide insight into how cellular-level responses are reshaped by inflammation to trigger diverse aspects of pain. Functional imaging and multiplexed in situ hybridization were combined to investigate how trigeminal neurons encode heat and mechanical stimuli, revealing distinct cellular mechanisms for continuing pain, heat hypersensitivity and tactile allodynia during inflammation.
Bibliografia:ObjectType-Article-1
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ISSN:0028-0836
1476-4687
1476-4687
DOI:10.1038/s41586-025-08875-6