[PDF][PDF] HIV-1 Tat assembles a multifunctional transcription elongation complex and stably associates with the 7SK snRNP

B Sobhian, N Laguette, A Yatim, M Nakamura, Y Levy… - Molecular cell, 2010 - cell.com
B Sobhian, N Laguette, A Yatim, M Nakamura, Y Levy, R Kiernan, M Benkirane
Molecular cell, 2010cell.com
HIV-1 transactivator Tat has greatly contributed to our understanding of transcription
elongation by RNAPII. We purified HIV-1 Tat-associated factors from HeLa nuclear extract
and show that Tat forms two distinct and stable complexes. Tatcom1 consists of the core
active P-TEFb, MLL-fusion partners involved in leukemia (AF9, AFF4, AFF1, ENL, and ELL),
and PAF1 complex. Importantly, Tatcom1 formation relies on P-TEFb while optimal CDK9
CTD-kinase activity is AF9 dependent. MLL-fusion partners and PAF1 are required for Tat …
Summary
HIV-1 transactivator Tat has greatly contributed to our understanding of transcription elongation by RNAPII. We purified HIV-1 Tat-associated factors from HeLa nuclear extract and show that Tat forms two distinct and stable complexes. Tatcom1 consists of the core active P-TEFb, MLL-fusion partners involved in leukemia (AF9, AFF4, AFF1, ENL, and ELL), and PAF1 complex. Importantly, Tatcom1 formation relies on P-TEFb while optimal CDK9 CTD-kinase activity is AF9 dependent. MLL-fusion partners and PAF1 are required for Tat transactivation. Tatcom2 is composed of CDK9, CycT1, and 7SK snRNP lacking HEXIM. Tat remodels 7SK snRNP by interacting directly with 7SK RNA, leading to the formation of a stress-resistant 7SK snRNP particle. Besides the identification of factors required for Tat transactivation and important for P-TEFb function, our data show a coordinated control of RNAPII elongation by different classes of transcription elongation factors associated in a single complex and acting at the same promoter.
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