Deng, LingxiaoRavenscraft, BaylenXu, Xiao-Ming2024-06-212024-06-212022-03Deng, L., Ravenscraft, B., & Xu, X.-M. (2022). Exploring propriospinal neuron-mediated neural circuit plasticity using recombinant viruses after spinal cord injury. Experimental Neurology, 349, 113962. https://doi.org/10.1016/j.expneurol.2021.113962https://hdl.handle.net/1805/41725Propriospinal neurons (PSNs) play a crucial role in motor control and sensory processing and contribute to plastic reorganization of spinal circuits responsible for recovery from spinal cord injury (SCI). Due to their scattered distribution and various intersegmental projection patterns, it is challenging to dissect the function of PSNs within the neuronal network. New genetically encoded tools, particularly cell-type–specific transgene expression methods using recombinant viral vectors combined with other genetic, pharmacologic, and optogenetic approaches, have enormous potential for visualizing PSNs in the neuronal circuits and monitoring and manipulating their activity. Furthermore, recombinant viral tools have been utilized to promote the intrinsic regenerative capacities of PSNs, towards manipulating the ‘hostile’ microenvironment for improving functional regeneration of PSNs. Here we summarize the latest development in this fast-moving field and provide a perspective for using this technology to dissect PSN physiological role in contributing to recovery of function after SCI.en-USAttribution-NonCommercial-NoDerivatives 4.0 InternationalPropriospinal neuronSpinal cord injuryRecombinant virusPseudorabies virusRabies virusLentivirusPharmacologicOptogeneticFunctional dissectionNeuronal circuitNeuroplasticityArticle