Project description:Cyclin T1-dependent genes in LPS-activated MM6 cells. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Experiment Overall Design: Using shRNA knockdown of cyclin T1, cyclin T1-dependent genes were identified in non-activated MM6 cells.

Project description:This SuperSeries is composed of the following subset Series:; GSE10232: CTDG in PMA-activated Jurkat cells; GSE10233: CTDG in PMA-activated MM6 cells; GSE10234: CTDG in LPS-activated MM6 cells; GSE10737: CTDG in non-activated Jurkat cells; GSE10738: CTDG in non-activated MM6 cells; GSE10739: LPS and PMA response in parental MM6 cells Experiment Overall Design: Refer to individual Series

Project description:We have characterized gene expression changes in HeLa cells following long term depletion of Cyclin T2 or Cyclin T1 using shRNA HeLa cells were transduced with VSV-G pseudotyped lentiviral vectors expressing shRNA against either Cyclin T2 or Cyclin T1. As a control, cells were transduced with shRNA vector with four nucleotides mismatch in the Cyclin T1 mRNA that has been previously shown to have minimal effects on mRNA expression levels. The vectors have a GFP reporter that can be used to estimate transduction efficiency. Five days post-transduction, cells were harvested and total RNA extracted. Transcriptional profiling was carried out on these RNA samples. Two independent biological replicate experiments were carried out in this analysis and the xpression values normalized by GC-RMA and averaged. The following comparisons were made: MM to Cyclin T2 and MM to Cyclin T1.

Project description:Cyclin T1-dependent genes in LPS-activated MM6 cells. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Experiment Overall Design: Using shRNA knockdown of cyclin T1, cyclin T1-dependent genes were identified in LPS-activated MM6 cells.

Project description:We have characterized gene expression changes in HeLa cells following long term depletion of Cyclin T2 or Cyclin T1 using shRNA

Project description:Aberrant hyperactivation of cyclins results in carcinogenesis and therapy resistance in cancers. Direct degradation of the specific cyclin or CDK-cyclin complex by small-molecule degraders remains a great challenge. Here, we applied the first application of hydrophobic tagging to induce degradation of CDK9-cyclin T1 heterodimer which is required to keep productive transcription of oncogenes in cancers. LL-K9-3 was identified as a potent small-molecule degrader of CDK9-cyclin T1. Quantitative and time-resolved proteome profiling exhibited LL-K9-3 induced selective and synchronous degradation of CDK9 and cyclin T1. The expression of androgen receptor (AR) and c-Myc were reduced by LL-K9-3 in 22RV1 cells. LL-K9-3 exhibited enhanced anti-proliferative and pro-apoptotic effects than its parental CDK9 inhibitor SNS032, and suppressed downstream signaling of CDK9 and AR more effectively than SNS032. Moreover, LL-K9-3 inhibited AR and MYC-driven oncogenic transcriptional programs, and exerted stronger inhibitory effects on several intrinsic target genes of AR than the monomeric CDK9 PROTAC (Thal-SNS032).

Project description:Parental MM6 cells, as an additional control, were treated with LPS and PMA. Genes affected by the treatments were identified. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Experiment Overall Design: This experiment is part of the big experiments to identify genes specifically affected by cyclin T1 in MM6 cells.

Project description:Cyclin T1-dependent genes in PMA-activated MM6 cells. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Experiment Overall Design: Using shRNA knockdown of cyclin T1, cyclin T1-dependent genes were identified in PMA-activated MM6 cells.

Project description:Parental MM6 cells, as an additional control, were treated with LPS and PMA. Genes affected by the treatments were identified. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Keywords: knockdown

Project description:Cyclin T1-dependent genes in LPS-activated MM6 cells. HIV-1 is dependent upon cellular co-factors to mediate its replication cycle in CD4+ T cells and macrophages, the two major cell types infected by the virus in vivo. One critical co-factor is Cyclin T1, a subunit of a general RNA polymerase II elongation factor known as P-TEFb. Cyclin T1 is targeted directly by the viral Tat protein to activate proviral transcription. Cyclin T1 is up-regulated when resting CD4+ T cells are activated and during macrophage differentiation or activation, conditions that are also necessary for high levels of HIV-1 replication. Because Cyclin T1 is a subunit of a transcription factor, the up-regulation of Cyclin T1 in these cells results in the induction of cellular genes, some of which might be HIV-1 co-factors. Using shRNA depletions of Cyclin T1 and transcriptional profiling, we identified 54 cellular mRNAs that are Cyclin T1-dependent for their induction in activated CD4+ T cells and during macrophage differentiation and activation. The promoters for these Cyclin T1-dependent genes (CTDGs) are over-represented in two transcription factor binding sites, SREBP1 and ARP1. Notably, 10 of these CTDGs have been reported to be involved in HIV-1 replication, a significant over-representation of such genes when compared to randomly generated lists of 54 genes (p value < 0.00021). SiRNA depletions of two CTDGs identified here, CDK11 and Casein kinase1gamma1, suggest that these genes are also involved in HIV-1 replication. It is therefore likely that the 54 CTDGs identified here include novel HIV-1 co-factors. The presence of CTDGs in the protein space that was available for HIV-1 to sample during its evolution and acquisition of Tat function may provide an explanation for why CTDGs are enriched in viral co-factors. Keywords: cyclin T1 knockdown