FCP1, a phosphatase specific of the carboxyl-terminal-domain of the large subunit of the RNA polymerase II (RNAPII), stimulates transcription elongation and it is required for general transcription and cell viability. To identify novel interacting proteins of FCP1, we used a human cell line expressing an epitope flagged FCP1 and proteins, which formed complexes with FCP1, were identified by mass spectrometry. We identified four proteins: RPB2 subunit of the RNAPII, the nuclear kinase, NDR1, the methyltransferase PRMT5 and the enhancer of rudimentary homologue (ERH) proteins. Intriguingly, both the PRMT5 and ERH proteins are interacting partners of the SPT5 elongation factor. Interactions of RPB2, ERH, NDR1 and PRMT5 with FCP1 were confirmed by co-immunoprecipitation or in vitro pull-down assays. Interaction between PRMT5 and FCP1 was further confirmed by co-immunoprecipitation of endogenous proteins. We found that FCP1 is a genuine substrate of PRMT5-methylation both in vivo and in vitro, and FCP1-associated PRMT5 can methylate histones H4 in vitro.
CDK9 in association with cyclin T constitutes the P-TEFb complex that stimulates transcription elongation of RNAPII transcripts by phosphorylation of the CTD of RNAPII. Here we report subcellular distribution of P-TEFb in terms of localization of CDK9 and cyclin T1. We found that cyclin T1 is exclusively nuclear and it is present in nuclear-speckled structures. CDK9, albeit mainly nuclear, was also visualized in the cytoplasm. We determined that CDK9 is actively exported from the nucleus, and that leptomycin B (LMB), a specific inhibitor of nuclear export, inhibits this process. Interestingly, enforced expression of cyclin T1 enhances nuclear localization of CDK9. These findings reveal a novel control mechanism for the function of the P-TEFb complex.
Efficient Tat transactivation in rodent cells occurs in the presence of human cyclin T1 but not in the presence of cyclin T2; overexpression of cyclin T2 inhibits Tat function in both rodent and human cells.
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