Project description:Human induced Pluripotent Stem cells (iPSCs) can be generated by enforced-expression of OCT3/4, SOX2, KLF4 and c-MYC (OSKM) via intermediate state that is labeled with a surface antigen TRA-1-60. However the event during conversion of somatic cells to TRA-1-60 positive (+) fate by OSKM is still unclear. Here we show that TRA-1-60 (+) cells emerged from ESRG (+) cells with proliferation independent manner. Overcoming the proliferation pausing phase is crucial for further progression of reprogramming. Inactivation of RB pathway is associated with the expansion of early TRA-1-60 (+) cells. Indeed, extended RB activation drastically decreased the proportion of TRA-1-60 (+) cells with marked premature senescence. An RNA-binding protein LIN41 promotes the RB inactivation and facilitates reprogramming efficiency in early stage via post-transcriptional suppression of cycline dependent kinase inhibitor p21. This LIN41/p21/RB axis was invalidated in immortalized cells which showed a resistance to oncogene-induced senescence. Thus, LIN41- mediated RB inactivation promotes to bail out of transient quiescence as a major blockade in initial phase of reprogramming.

Project description:Human induced Pluripotent Stem cells (iPSCs) can be generated by enforced-expression of OCT3/4, SOX2, KLF4 and c-MYC (OSKM) via intermediate state that is labeled with a surface antigen TRA-1-60. However the event during conversion of somatic cells to TRA-1-60 positive (+) fate by OSKM is still unclear. Here we show that TRA-1-60 (+) cells emerged from ESRG (+) cells with proliferation independent manner. Overcoming the proliferation pausing phase is crucial for further progression of reprogramming. Inactivation of RB pathway is associated with the expansion of early TRA-1-60 (+) cells. Indeed, extended RB activation drastically decreased the proportion of TRA-1-60 (+) cells with marked premature senescence. An RNA-binding protein LIN41 promotes the RB inactivation and facilitates reprogramming efficiency in early stage via post-transcriptional suppression of cycline dependent kinase inhibitor p21. This LIN41/p21/RB axis was invalidated in immortalized cells which showed a resistance to oncogene-induced senescence. Thus, LIN41- mediated RB inactivation promotes to bail out of transient quiescence as a major blockade in initial phase of reprogramming.

Project description:Human induced Pluripotent Stem cells (iPSCs) can be generated by enforced-expression of OCT3/4, SOX2, KLF4 and c-MYC (OSKM) via intermediate state that is labeled with a surface antigen TRA-1-60. However the event during conversion of somatic cells to TRA-1-60 positive (+) fate by OSKM is still unclear. Here we show that TRA-1-60 (+) cells emerged from ESRG (+) cells with proliferation independent manner. Overcoming the proliferation pausing phase is crucial for further progression of reprogramming. Inactivation of RB pathway is associated with the expansion of early TRA-1-60 (+) cells. Indeed, extended RB activation drastically decreased the proportion of TRA-1-60 (+) cells with marked premature senescence. An RNA-binding protein LIN41 promotes the RB inactivation and facilitates reprogramming efficiency in early stage via post-transcriptional suppression of cycline dependent kinase inhibitor p21. This LIN41/p21/RB axis was invalidated in immortalized cells which showed a resistance to oncogene-induced senescence. Thus, LIN41- mediated RB inactivation promotes to bail out of transient quiescence as a major blockade in initial phase of reprogramming.

Project description:Human induced Pluripotent Stem cells (iPSCs) can be generated by enforced-expression of OCT3/4, SOX2, KLF4 and c-MYC (OSKM) via intermediate state that is labeled with a surface antigen TRA-1-60. However the event during conversion of somatic cells to TRA-1-60 positive (+) fate by OSKM is still unclear. Here we show that TRA-1-60 (+) cells emerged from ESRG (+) cells with proliferation independent manner. Overcoming the proliferation pausing phase is crucial for further progression of reprogramming. Inactivation of RB pathway is associated with the expansion of early TRA-1-60 (+) cells. Indeed, extended RB activation drastically decreased the proportion of TRA-1-60 (+) cells with marked premature senescence. An RNA-binding protein LIN41 promotes the RB inactivation and facilitates reprogramming efficiency in early stage via post-transcriptional suppression of cycline dependent kinase inhibitor p21. This LIN41/p21/RB axis was invalidated in immortalized cells which showed a resistance to oncogene-induced senescence. Thus, LIN41- mediated RB inactivation promotes to bail out of transient quiescence as a major blockade in initial phase of reprogramming.

Project description:To identify genes altered upon LIN-41 expression during reprogramming to induced pluripotent stem cells, human dermal fibroblasts were infected with combinations of GFP alone, OSK, OSKM, OSK+LIN-41, or OSK+let-7 inhibitor (transfected on days 1 and 6). After 11 days, TRA-1-60+ reprogramming cells were isolated as described in Tanabe et al 2013 or in the case of GFP-infected fibroblasts, GFP+ cells were collected. Total RNA was used for gene expression analysis. After 11 days of reprogramming with OSK, OSK+let-7inh, OSKM, or OSK+LIN-41, TRA-1-60+ cells were isolated and total RNA was isolated.

Project description:Ectopic expression of the transcription factors Oct4, Sox2, Klf4 and c-Myc (OSKM) can reprogram somatic cells into induced pluripotent stem cells (iPSCs). These iPSCs are highly similar to embryonic stem cells and can be used for regenerative medicine, drug screening and disease modelling. Despite recent advances, reprogramming is a slow and inefficient process. This suggests that there are several safeguarding mechanisms to counteract cell fate conversion. Cellular senescence is one of these barriers, which is mediated through activation of the tumour suppressors p53/p21CIP1, p15INK4b and p16INK4a. In this study, we have screened for shRNAs blunting reprogramming-induced senescence. To investigate the effects of OSKM expression on the transcriptome of human primary IMR90 fibroblasts, we performed RNA-sequencing (RNA-Seq). Cells were transduced with OSKM expression or control vector and RNA was extracted after 14 or 20 days. In addition, to study the transcriptome of cells bypassing OSKM-induced senescence due to p21 or mTOR depletion, we performed RNA-seq of cells transduced with OSKM and shRNA expressing vectors targeting p21 or mTOR for 14 or 20 days.

Project description:To identify genes altered upon LIN-41 expression during reprogramming to induced pluripotent stem cells, human dermal fibroblasts were infected with combinations of GFP alone, OSK, OSKM, OSK+LIN-41, or OSK+let-7 inhibitor (transfected on days 1 and 6). After 11 days, TRA-1-60+ reprogramming cells were isolated as described in Tanabe et al 2013 or in the case of GFP-infected fibroblasts, GFP+ cells were collected. Total RNA was used for gene expression analysis.

Project description:Ectopic expression of the transcription factors Oct4, Sox2, Klf4 and c-Myc (OSKM) can reprogram somatic cells into induced pluripotent stem cells (iPSCs). These iPSCs are highly similar to embryonic stem cells and can be used for regenerative medicine, drug screening and disease modelling. Despite recent advances, reprogramming is a slow and inefficient process. This suggests that there are several safeguarding mechanisms to counteract cell fate conversion. Cellular senescence is one of these barriers, which is mediated through activation of the tumour suppressors p53/p21CIP1, p15INK4b and p16INK4a. In this study, we have screened for shRNAs blunting reprogramming-induced senescence. We found that mTOR depletion bypasses OSKM-indced senescence but not RAS-induced senescence. To investigate the differences between the two types of senescence, we performed RNA-sequencing (RNA-Seq). Cells were transduced with OSKM or RAS expression and treated with 2 doses of the mTOR inhibitor Rapaycin for 10 days.

Project description:In response to various cellular stresses, the cyclin-dependent kinase inhibitor p21 transiently halts cell cycle progression until the stress is resolved, or indefinitely when permanently damaged cells undergo cellular senescence. p21 does so by repressing the transcription of E2F target genes through hypophosphorylation of Rb, but whether regulation of Rb-mediated gene transcription by p21 controls stress responses beyond cell cycle regulation is unknown. Here we report that in concert with arresting cell growth, a p21-responsive Rb pool interacts with specific Stat and Smad transcription factors at select gene promoters to establish a bioactive secretome, referred to as the p21-activated secretory phenotype (PASP). The PASP consists of several hundred secreted factors that continued to be expressed in a p21-dependent fashion after transiently arrested cells have become senescent. We found that the PASP places stressed cells under immunosurveillance, a property that largely depended on a single factor, the macrophage attractant Cxcl14. In mice, hepatocytes promptly attracted macrophages upon induction of p21 and were eliminated after sequential recruitment of B and T cells several days later. Cells normalizing p21 expression within several days after its induction resumed proliferation and were released from immunosurveillance. Collectively, these findings demonstrate that stressed cells are simultaneously placed under both proliferative arrest and immunosurveillance (to prevent the expansion of stressed, potentially damaged cells), and that p21 coordinates these cell-autonomous and non-autonomous activities at the transcriptional level through regulation of Rb.

Project description:In response to various cellular stresses, the cyclin-dependent kinase inhibitor p21 transiently halts cell cycle progression until the stress is resolved, or indefinitely when permanently damaged cells undergo cellular senescence. p21 does so by repressing the transcription of E2F target genes through hypophosphorylation of Rb, but whether regulation of Rb-mediated gene transcription by p21 controls stress responses beyond cell cycle regulation is unknown. Here we report that in concert with arresting cell growth, a p21-responsive Rb pool interacts with specific Stat and Smad transcription factors at select gene promoters to establish a bioactive secretome, referred to as the p21-activated secretory phenotype (PASP). The PASP consists of several hundred secreted factors that continued to be expressed in a p21-dependent fashion after transiently arrested cells have become senescent. We found that the PASP places stressed cells under immunosurveillance, a property that largely depended on a single factor, the macrophage attractant Cxcl14. In mice, hepatocytes promptly attracted macrophages upon induction of p21 and were eliminated after sequential recruitment of B and T cells several days later. Cells normalizing p21 expression within several days after its induction resumed proliferation and were released from immunosurveillance. Collectively, these findings demonstrate that stressed cells are simultaneously placed under both proliferative arrest and immunosurveillance (to prevent the expansion of stressed, potentially damaged cells), and that p21 coordinates these cell-autonomous and non-autonomous activities at the transcriptional level through regulation of Rb.