Abstract
BackgroundHuman immunodeficiency virus (HIV) gene expression is primarily regulated at the step of transcription elongation. The viral Tat protein recruits the Positive Transcription Elongation Factor b (P-TEFb) and the Super Elongation Complex (SEC) to the HIV promoter and enhances transcription by host RNA polymerase II.ResultsTo map residues in the cyclin box of cyclin T1 that mediate the binding of P-TEFb to its interacting host partners and support HIV transcription, a pool of N-terminal cyclin T1 mutants was generated. Binding and functional assays in cells identified specific positions in cyclin T1 that are important for (i) association of P-TEFb with Hexim1, Cdk9 and SEC/AFF4 (ii) supporting Tat-transactivation in murine cells and (iii) inhibition of basal and Tat-dependent HIV transcription in human cells. Significantly, a unique cyclin T1 mutant where a Valine residue at position 107 was mutated to Glutamate (CycT1-V107E) was identified. CycT1-V107E did not bind to Hexim1 or Cdk9, and also could not assemble on HIV TAR or 7SK-snRNA. However, it bound strongly to AFF4 and its association with HIV Tat was slightly impaired. CycT1-V107E efficiently inhibited HIV replication in human T cell lines and in CD4(+) primary cells, and enforced HIV transcription repression in T cell lines that harbor a transcriptionally silenced integrated provirus.ConclusionsThis study outlines the mechanism by which CycT1-V107E mutant inhibits HIV transcription and enforces viral latency. It defines the importance of N-terminal residues of cyclin T1 in mediating contacts of P-TEFb with its transcription partners, and signifies the requirement of a functional P-TEFb and SEC in mediating HIV transcription.
Highlights
Human immunodeficiency virus (HIV) gene expression is primarily regulated at the step of transcription elongation
Association of HA-Cyclin T1 mutants with Cdk9 and Hexim1 in cells To identify residues in the cyclin box of cyclin T1 (CycT1) that are involved in association of CycT1 with Cdk9, Hexim1 or AF4/ FMR2 family member 4 (AFF4) of Super Elongation Complex (SEC) transcription partners, as well as support HIV transcription, an error prone PCR-based mutagenesis was used to generate a pool of N-terminal human CycT1 mutants as described by Verstraete et al
Immuno-Precipitation (IP) experiments were performed in cells to examine the association of HA-CycT1 mutants with host Cdk9, Hexim1 and SEC/AFF4
Summary
Human immunodeficiency virus (HIV) gene expression is primarily regulated at the step of transcription elongation. HIV has become a model for studying transcriptional elongation in eukaryotes, where the viral protein Tat. SEC, elevating the short half-life of ELL2 and stabilizing P-TEFb-SEC complex formation [12,13,14,16]. Structural and biochemical studies have shown that AFF4 recognizes P-TEFb through a weak direct interaction with the N-terminus 300 region of CycT1. This interaction is slightly increased when Cdk is coupled to CycT1. AFF1 increases the affinity of Tat to CycT1 and enhances the release of P-TEFb from its inactive 7SK-snRNP complex to stimulate Tat transactivation and HIV replication. Upon AFF4 binding to P-TEFb, Cdk undergoes structural changes though is not considered a primary partner of AFF4 [18]
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