Our current work studies the CPG for hindlimb locomotion, located in the lumbar region of the spinal cord in the mouse. We are currently studying three major questions in this system: 1) Identification of the interneurons that are components of the CPG, and of their synaptic connections, to better understand the organization of the locomotor CPG. This work involves electrophysiological studies of genetically defined interneurons and their synapses, combined with mathematical modeling of their interactions, in collaboration with Dr Ilya Rybak (Drexel University). 2) Modulation by serotonin of the properties and synapses of identified neurons in the mouse spinal locomotor CPG, to better understand how serotonin can reconfigure the network to prepare it for locomotion. 3) Changes in the intrinsic properties, synaptic interactions, and responses to serotonin of identified interneurons in the mouse locomotor CPG after spinal cord injury (SCI). SCI results in loss of descending inputs to the CPG from the brain, including modulatory inputs that release serotonin and other modulators. Even though the CPG neurons are not themselves damaged by the typical CPG, this loss of inputs results in changes in neuronal function that can affect the ability to walk again.