The Roles of the PRDM Family in the Neuro-Motor System

The PRDM (PR domain-containing) family consists of transcriptional regulators characterized by a PR (PRDI-BF1 and RIZ homology) domain, a subtype of the SET domain, and a variable number of zinc finger motifs. Nineteen PRDM family members have been identified in both mice and humans, and increasing evidence supports their roles as epigenetic regulators in development and disease. PRDM proteins share a conserved structure, comprising an N-terminal PR domain with potential histone methyltransferase activity and C-terminal C2H2-type zinc fingers involved in protein–protein, protein–RNA, and protein–DNA interactions. Recent studies indicate that multiple PRDM family members are involved in the regulation of the neuro-motor system, including neural lineage specification, neuronal differentiation, motor function maintenance, and neuromuscular-related pathological processes. This review summarizes current evidence on the functions and regulatory mechanisms of PRDM family members in the neuro-motor system. Overall, PRDM family members act as important epigenetic regulators in the neuro-motor system. Clarifying their molecular mechanisms may contribute to a better understanding of neuro-motor regulation and provide a theoretical basis for future research in exercise and movement science.