Physical and functional interaction between PML and TBX2 in the establishment of cellular senescence

International audienceCellular senescence acts as a potent barrier for tumour initiation and progression. Previous studies showed that the PML tumour suppressor promotes senescence, although the precise mechanisms remain to be elucidated. Combining gene expression profiling with chromatin-binding analyses and promoter reporter studies, we identify TBX2, a T-box transcription factor frequently overexpressed in cancer, as a novel and direct PML-repressible E2F-target gene in senescence but not quiescence. Recruitment of PML to the TBX2 promoter is dependent on a functional p130/E2F4 repressor complex ultimately implementing a transcriptionally inactive chromatin environment at the TBX2 promoter. TBX2 repression actively contributes to senescence induction as cells depleted for TBX2 trigger PML pro-senescence function(s) and enter senescence. Reciprocally, elevated TBX2 levels antagonize PML pro-senescence function through direct protein-protein interaction. Collectively, our findings indicate that PML and TBX2 act in an autoregulatory loop to control the effective execution of the senescence program

Protein SUMOylation Is Required for Regulatory T Cell Expansion and Function

Foxp3-expressing regulatory T (Treg) cells are essential for immune tolerance; however, the molecular mechanisms underlying Treg cell expansion and function are still not well understood. SUMOylation is a protein post-translational modification characterized by covalent attachment of SUMO moieties to lysines. UBC9 is the only E2 conjugating enzyme involved in this process, and loss of UBC9 completely abolishes the SUMOylation pathway. Here, we report that selective deletion of Ubc9 within the Treg lineage results in fatal early-onset autoimmunity similar to Foxp3 mutant mice. Ubc9-deficient Treg cells exhibit severe defects in TCR-driven homeostatic proliferation, accompanied by impaired activation and compromised suppressor function. Importantly, TCR ligation enhanced SUMOylation of IRF4, a critical regulator of Treg cell function downstream of TCR signals, which regulates its stability in Treg cells. Our data thus have demonstrated an essential role of SUMOylation in the expansion and function of Treg cells

Ubc9 Is Required for Positive Selection and Late-Stage Maturation of Thymocytes

International audienceSUMOylation is an important posttranslational modification that regulates protein function in diverse biological processes. However, its role in early T cell development has not been genetically studied. UBC9 is the only E2 enzyme for all SUMOylation. In this study, by selectively deleting Ubc9 gene in T cells, we have investigated the functional roles of SUMOylation in T cell development. Loss of Ubc9 results in a significant reduction of CD4 and CD8 single-positive lymphocytes in both thymus and periphery. Ubc9-deficient cells exhibit defective late-stage maturation post the initial positive selection with increased apoptosis and impaired proliferation, among which attenuated IL-7 signaling was correlated with the decreased survival of Ubc9-deficent CD8 single-positive cells. Furthermore, NFAT nuclear retention induced by TCR signals was regulated by SUMOylation during thymocytes development. Our study thus reveals a novel posttranslational mechanism underlying T cell development

Letter from JFD to AEK, May 16, 1942

Daniel thanks Kober for sending him her sign-list.Classic