Project description:V1 interneurons are a class of inhibitory neurons that play an essential role in vertebrate locomotion; however, the factors contributing to their specification are poorly understood. Morphological and molecular evidence suggest that the zinc finger transcription factor Prdm12 may play a role in promoting V1 interneurons while repressing V2 and V0 fates. Here, we performed RNAseq on Xenopus laevis ectoderm converted to posteriorized neural tissue (with noggin and retinoic acid) in the presence or absence of a series of Prdm12 constructs (wild-type Prdm12, Prdm12-VP16, and Prdm12-engrailed-repressor). We also performed ChIPseq on a Prdm12-FLAG in wild-type or posteriorized neuralized (with noggin and retinoic acid) X. laevis ectoderm. Taken together, these data demonstrate Prdm12's genomic targets and their downstream transcription. X. laevis embryos were injected with mRNAs encoding prdm12 constructs, along with the bmp inhibitor noggin. Presumptive ectoderm (neuralized by noggin) was dissected and treated with retinoic acid. Samples were then processed into RNAseq libraries or prdm12-FLAG was immunoprecipitated and its targets sequenced. Background was input prior to IP.

Project description:Prdm12 is a key transcription factor in nociceptor neurogenesis. Mutations of Prdm12 cause Congenital Insensitivity to Pain (CIP) due to failure of nociceptor development. However, precisely how deletion of Prdm12 during development or adulthood affects nociception is unknown. Here, we employ tissue- and temporal-specific knockout mouse models to test the function of Prdm12 during development and in adulthood. We find that constitutive loss of Prdm12 causes deficiencies in proliferation during sensory neurogenesis. We also demonstrate that conditional knockout from dorsal root ganglia (DRGs) during embryogenesis causes defects in nociception. In contrast, we find that in adult DRGs, Prdm12 is dispensable for most pain sensation and injury-induced hypersensitivity. Using transcriptomic analysis, we found mostly unique changes in adult Prdm12 knockout DRGs compared to embryonic knockout, and that PRDM12 is likely a transcriptional activator in the adult. Overall, we find that the function of PRDM12 changes over developmental time.

Project description:Prdm12 is required to repress visceral markers in developing trigeminal ganglia

Project description:Loss of Prdm12 induces gene deregulation in mature trigeminal ganglia of adult mice

Project description:Loss of Prdm12 induces gene deregulation in mature dorsal root ganglia neurons of adult mice

Project description:Loss of Prdm12 increases formalin induced inflammatory pain by remodeling gene expression in mature nociceptors

Project description:Fibroblasts from PRDM12 patients and unaffected wildtype relatives were cultured until near confluency. The transcriptional profile of those cells was determined by mRNA sequencing and uncovered differential expression in several known pain and neurodevelopmental genes.

Project description:Prdm12, a novel key regulator of the Nerve Growth Factor-TrkA signaling pathway, is required for nociceptive sensory neuron development

Project description:Spinal inhibitory interneurons play crucial roles in shaping motor output, but the molecular heterogeneity contained within cardinal spinal interneuron populations is unclear. This experiment was designed to identify genes enriched in the Engrailed1 (En1) population of ventral V1 inhibitory interneurons relative to the Ptf1a population of dorsal dI4/dILA interneurons, with the goal of identifying genetic markers for discrete V1 subpopulations.

Project description:Occupancy and transcriptional profile of Prdm12 in posteriorized neural tissue