Litcius/Paper detail

Cell type-specific calcium imaging of central sensitization in mouse dorsal horn

Charles A. Warwick, Joseph Salsovic, Junichi Hachisuka, Kelly M. Smith, Tayler D. Sheahan, Haichao Chen, James W. Ibinson, H. Richard Koerber, Sarah E. Ross

2022Nature Communications50 citationsDOIOpen Access PDF

Abstract

Allodynia is a state in which pain is elicited by innocuous stimuli. Capsaicin applied to the skin results in an allodynia that extends to a broad region beyond the application site. This sensitization is thought to be mediated by spinal networks; however, we do not have a clear picture of which spinal neurons mediate this phenomenon. To address this gap, we used two-photon calcium imaging of excitatory interneurons and spinal projection neurons in the mouse spinal dorsal horn. To distinguish among neuronal subtypes, we developed CICADA, a cell profiling approach to identify cell types during calcium imaging. We then identified capsaicin-responsive and capsaicin-sensitized neuronal populations. Capsaicin-sensitized neurons showed emergent responses to innocuous input and increased receptive field sizes consistent with psychophysical reports. Finally, we identified spinal output neurons that showed enhanced responses from innocuous input. These experiments provide a population-level view of central sensitization and a framework with which to model somatosensory integration in the dorsal horn.

Topics & Concepts

NeuroscienceCalcium imagingSensitizationReceptive fieldSomatosensory systemAllodyniaPopulationCapsaicinSpinal cordNociceptionBiologyCalciumMedicineHyperalgesiaReceptorInternal medicineEnvironmental healthPain Mechanisms and TreatmentsNeurobiology and Insect Physiology ResearchIon channel regulation and function