RMP was reported to regulate transcription via competing with HBx to bind the general transcription factor IIB (TFIIB) and interacting with RPB5 subunit of RNA polymerase II as a corepressor of transcription regulator. However, our present research uncovered that RMP also regulates the transcription through interaction with the general transcription factors IIF (TFIIF), which assemble in the preinitiation complex and function in both transcription initiation and elongation. With in vitro pull-down assay and Far-Western analysis, we demonstrated that RMP could bind with bacterially expressed recombinant RAP30 and RAP74 of TFIIF subunits. In the immunoprecipitation assay in COS1 cells cotransfected with FLAG-tagged RMP or its mutants, GST-fused RAP30 and RAP74 were co-immunoprecipitated with RMP in approximately equal molar ratio, which suggests that RAP30 and RAP74 interact with RMP as a TFIIF complex. Interestingly both RAP30 and RAP74 interact with the same domain (D5) of the C-terminal RMP of 118-aminoacid residuals which overlaps with its TFIIB-binding domain. Internal deletion of D5 region of RMP abolished its binding ability with both subunits of TFIIF, while D5 domain alone was sufficient to interact with TFIIF subunits. The result of luciferase assay showed that overexpression of RMP, but not the mutant RMP lacking D5 region, suppressed the transcription activated by Gal-VP16, suggesting that interaction with TFIIF is required for RMP to suppress the activated transcription. The interaction between RMP and TFIIF may be an additional passway for RMP to regulate the transcription, or alternatively TFIIF may cooperate with RPB5 and TFIIB for the corepressor function of RMP.
Objective Munc18-1 has an important role in neurotransmitter release, and controls every step in the exocytotic pathway in the central nervous system. In the present study, whether epileptic seizure causes a change of Munc18 localization in neuronal nuclei was analyzed. Methods Epilepsy models were established by injection of kainic acid (KA) solution into hippocampus of Sprague-Dawley (SD) rats or intraperitoneal injection of KA in Kunming mice. The hippocampal neurons were prepared from embryonic day 18 SD rats, and cultured in neurobasal medium, followed by treatment with glutamate for 3 h. Neuronal and glial nuclei of hippocampus were separated by sucrose density gradient centrifugation. The nucleus-enriched fractions were stained with 0.1% Cresyl Violet for morphological assay. Immunochemistry and immunoelectron microscopy with anti-Munc18-1 antibody were used to determine the nuclear localization of Munc18-1. Immunoblotting was used to detect the protein level of Munc18-1. Results The localization of Munc18-1 in nucleus of rat hippocampal neuron was confirmed by immunochemistry, immunoelectron microscopy, and immunoblotting detection of neuronal nucleus fraction. In animals receiving intrahippocampal or intraperitoneal injection of KA, immunostaining revealed that the expression of Munc18-1 decreased in pyramidal cell layer of CA regions, as well as in hilus and granular cell layer of dentate gyrus in hippocampus. Moreover, immunoblotting analysis showed that the expression level of Munc18-1 in nucleus fraction of hippocampus significantly decreased in KA-treated animals. The relationship between the change of Munc18-1 expression in neuronal nuclei and neuronal over-activation was also tested in primary cultured neurons. After treatment with 50 μmol/L glutamate acid for 3 h, Munc18-1 level was decreased in nucleus fraction and increased in cytoplasmic fraction of primary cultured neurons. Conclusion These results suggest that excitatory stimulation can induce the distribution change of Munc18-1 in neuron, which may subsequently modulate neuronal functions in brain.
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