Long-term l-3,4-dihydroxyphenylalanine (L-Dopa) treatment in Parkinson's disease leads to involuntary movements called dyskinesia, notably through an overexpression of immediate-early genes (IEG). Their rapid transcription involves the stalling of RNA polymerase II on IEG promoters, a mechanism that critically depends on the presence of the negative elongation factor (NELF) protein complex. We here down-regulated the key NELF-E subunit using lentiviral vector delivery of a short hairpin RNA in the striatum of 6-hydroxydopamine lesioned rats. Such NELF-E reduced expression significantly attenuated the development of abnormal involuntary movements in response to chronic L-Dopa treatment. Effectiveness of silencing was demonstrated by the significant decrease in striatal ∆FosB, ARC and Zif268 IEG expression. Repression of NELF-mediating RNA polymerase II stalling thus achieves both antidyskinetic and potentiation of antiparkinsonian L-Dopa effect, highlighting the role of transcriptional events in dyskinesia establishment, acute dyskinetic manifestation and in the therapeutic response to L-Dopa.
Keywords: Immediate-early genes; Parkinson's disease; Rat model; Stalling; Transcription.
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