Mostrando recursos 1 - 3 de 3

  1. MyT1 Counteracts the Neural Progenitor Program to Promote Vertebrate Neurogenesis

    Vasconcelos, Francisca F.; Sessa, Alessandro; Laranjeira, Cátia; Raposo, Alexandre A.S.F.; Teixeira, Vera; Hagey, Daniel W.; Tomaz, Diogo M.; Muhr, Jonas; Broccoli, Vania; Castro, Diogo S.
    The generation of neurons from neural stem cells requires large-scale changes in gene expression that are controlled to a large extent by proneural transcription factors, such as Ascl1. While recent studies have characterized the differentiation genes activated by proneural factors, less is known on the mechanisms that suppress progenitor cell identity. Here, we show that Ascl1 induces the transcription factor MyT1 while promoting neuronal differentiation. We combined functional studies of MyT1 during neurogenesis with the characterization of its transcriptional program. MyT1 binding is associated with repression of gene transcription in neural progenitor cells. It promotes neuronal differentiation by counteracting the inhibitory...
    - 15-oct-2016

  2. Neoplastic Transformation of T Lymphocytes through Transgenic Expression of a Virus Host Modification Protein

    Almeida, Sílvia Cristina Paiva; de Oliveira, Vivian Leite; Ventura, Sónia; Bofill, Margarita; Parkhouse, Robert Michael Evans
    Virus host evasion genes are ready-made tools for gene manipulation and therapy. In this work we have assessed the impact in vivo of the evasion gene A238L of the African Swine Fever Virus, a gene which inhibits transcription mediated by both NF-κB and NFAT. The A238L gene has been selectively expressed in mouse T lymphocytes using tissue specific promoter, enhancer and locus control region sequences for CD2. The resulting two independently derived transgenic mice expressed the transgene and developed a metastasic, angiogenic and transplantable CD4(+)CD8(+)CD69(-) lymphoma. The CD4(+)CD8(+)CD69(-) cells also grew vigorously in vitro. The absence of CD69 from the...
    - 24-jun-2016

  3. Peroxisomes are platforms for cytomegalovirus’ evasion from the cellular immune response

    Magalhães, Ana Cristina; Ferreira, Ana Rita; Gomes, Sílvia; Vieira, Marta; Gouveia, Ana; Valença, Isabel; Islinger, Markus; Nascimento, Rute; Schrader, Michael; Kagan, Jonathan C.; Ribeiro, Daniela
    The human cytomegalovirus developed distinct evasion mechanisms from the cellular antiviral response involving vMIA, a virally-encoded protein that is not only able to prevent cellular apoptosis but also to inhibit signalling downstream from mitochondrial MAVS. vMIA has been shown to localize at mitochondria and to trigger their fragmentation, a phenomenon proven to be essential for the signalling inhibition. Here, we demonstrate that vMIA is also localized at peroxisomes, induces their fragmentation and inhibits the peroxisomal-dependent antiviral signalling pathway. Importantly, we demonstrate that peroxisomal fragmentation is not essential for vMIA to specifically inhibit signalling downstream the peroxisomal MAVS. We also show...
    - 10-jun-2016

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