Person: Pulice, John
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Pulice
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John
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Pulice, John
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Publication Dynamics of BAF- Polycomb Complex Opposition on Heterochromatin in Normal and Oncogenic States(2016) Kadoch, Cigall; Williams, Robert T.; Calarco, Joseph P.; Miller, Erik L.; Weber, Christopher M.; Braun, Simon G.; Pulice, John; Chory, Emma J.; Crabtree, Gerald R.The opposition between polycomb repressive complexes (PRC) and BAF (mSWI/SNF) complexes plays critical roles in development and disease. Mutations in the genes encoding BAF subunits contribute to over 20% of human malignancy, yet the underlying mechanisms remain unclear owing largely to a lack of assays to assess BAF function in vivo. To address this, we have developed a widely applicable recruitment assay system and find that BAF opposes PRC by rapid, ATP-dependent eviction, leading to the formation of accessible chromatin. Reversing this process results in reassembly of facultative heterochromatin. Surprisingly, BAF-mediated PRC eviction occurs in the absence of PolII occupancy, transcription, and replication. Further, we find that tumor suppressor and oncogenic BAF complex mutations result in differential effects on PRC eviction. These studies define a mechanistic sequence underlying the resolution and formation of facultative heterochromatin and demonstrate that BAF opposes polycomb complexes on a minute-by-minute basis to provide epigenetic plasticity.Publication SMARCB1 is required for widespread BAF complex-mediated activation of enhancers and bivalent promoters(2018) Nakayama, Robert T.; Pulice, John; Valencia, Alfredo; McBride, Matthew; McKenzie, Zachary; Gillespie, Mark A.; Ku, Wai Lim; Teng, Mingxiang; Cui, Kairong; Williams, Robert T.; Cassel, Seth; Qing, He; Widmer, Christian J.; Demetri, George; Irizarry, Rafael A.; Zhao, Keji; JeffRanish; Kadoch, CigallPerturbations to mammalian SWI/SNF (BAF) complexes contribute to over 20% of human cancers, with driving roles first identified in malignant rhabdoid tumor (MRT), an aggressive pediatric cancer characterized by biallelic inactivation of the core BAF complex subunit SMARCB1 (BAF47). However, the mechanism by which this alteration contributes to tumorigenesis remains poorly understood. We find that BAF47 loss destabilizes BAF complexes on chromatin, absent significant changes in intra-complex integrity. Rescue of BAF47 in BAF47-deficient sarcoma cell lines results in increased genome-wide BAF complex occupancy, facilitating widespread enhancer activation and opposition of polycomb-mediated repression at bivalent promoters. We demonstrate differential regulation by BAF and PBAF complexes at enhancers and promoters, respectively, suggesting distinct functions of each complex which are perturbed upon BAF47 loss. Our results demonstrate collaborative mechanisms of mSWI/SNF-mediated gene activation, identifying functions that are coopted or abated to drive human cancers and developmental disorders.