• Mol Pain · Jan 2024

    A microfluidic model of the first sensory synapse for analgesic target discovery.

    • Georgios Kimourtzis and Ramin Raouf.
    • Wolfson Centre for Age-Related Diseases, Institute of Psychology, Psychiatry & Neuroscience, King's College London, London, UK.
    • Mol Pain. 2024 Jan 1; 20: 1744806924129328617448069241293286.

    AbstractThe synaptic connections between dorsal root ganglia (DRG) and dorsal horn (DH) neurons are a crucial relay point for the transmission of painful stimuli. To delineate how synaptic plasticity may modulate the excitability of DH neurons, we have devised a microfluidic co-culture model that recapitulates the first sensory synapse using postnatal mouse sensory neurons. We show that DRG-DH co-cultures characterize salient features of the in vivo physiology of sensory neurons. Immunocytcochemical experiments of the cultured DH neurons show a co-localization of Map2 with VGlut2 and of Map2 with Synapsin 1, corroborating the glutamatergic identity of the DH neurons and further suggesting the potential formation of active synapses in this neuronal set. Fluorometric imaging experiments demonstrate the elicitation of calcium responses in DH neurons following the stimulation of DRG cell bodies or axons. Selective NMDA and AMPA receptor blockade appreciably silences DH neuron responses, suggesting that glutamatergic signaling is maintained in vitro. Last, a surrogate model of peripheral nerve injury is introduced in the form of an axotomy, which results in elevated and prolonged calcium responses of DH neurons. Overall, the microfluidic mouse co-cultures provide a method advancement in the study of periphery-to-center pain signaling, where the potential of utilizing the platform for drug target identification is underscored.

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