910 resultados para Vias de Transdução de Sinal e Patologias Associadas


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Dissertação de mestrado, Biologia Molecular e Microbiana, Faculdade de Ciências e Tecnologia, Universidade do Algarve, 2015

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A recently acknowledged morphological pathway to colorectal cancer originates from precursor polyps with a serrated appearance due to branching and folding of the colon epithelium. This serrated origin accounts for up to 30% of all colorectal tumors but these are heterogeneous regarding molecular characteristics and patient outcome. Here we review the current knowledge about the classification of this tumor subtype and its association with five key features: mutation status of the BRAF or KRAS genes, the CpG island methylation phenotype, microsatellite instability, immune cell infiltration, and overexpression of GTPase RAC1b. Subsequently, available therapeutic approaches for targeting these molecular characteristics are presented and critically discussed.

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Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) is a member of the ATP binding cassette (ABC) transporter superfamily that functions as a cAMP-activated chloride ion channel in fluid-transporting epithelia. There is abundant evidence that CFTR activity (i.e., channel opening and closing) is regulated by protein kinases and phosphatases via phosphorylation and dephosphorylation. Here, we review recent evidence for the role of protein kinases in regulation of CFTR delivery to and retention in the plasma membrane. We review this information in a broader context of regulation of other transporters by protein kinases because the overall functional output of transporters involves the integrated control of both their number at the plasma membrane and their specific activity. While many details of the regulation of intracellular distribution of CFTR and other transporters remain to be elucidated, we hope that this review will motivate research providing new insights into how protein kinases control membrane transport to impact health and disease.

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Cellular models are important tools in various research areas related to colorectal biology and associated diseases. Herein, we review the most widely used cell lines and the different techniques to grow them, either as cell monolayer, polarized two-dimensional epithelia on membrane filters, or as three-dimensional spheres in scaffoldfree or matrix-supported culture conditions. Moreover, recent developments, such as gut-on-chip devices or the ex vivo growth of biopsy-derived organoids, are also discussed. We provide an overview on the potential applications but also on the limitations for each of these techniques, while evaluating their contribution to provide more reliable cellular models for research, diagnostic testing, or pharmacological validation related to colon physiology and pathophysiology.

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Purpose: Alternative splicing of the small GTPase RAC1 generates RAC1b, a hyperactivated variant that is overexpressed in a subtype of colorectal tumors. The objective of our studies is to understand the molecular regulation of this alternative splicing event and how it contributes to tumorigenesis. Experimental description: The regulation of the RAC1b splicing event in human colon cell lines was dissected using a transfected RAC1 minigene and the role of upstream regulating protein kinases through an RNA interference approach. The functional properties of the RAC1b protein were characterized by experimental modulation of Rac1b levels in colon cell lines. Results: The RAC1b protein results from an in-frame inclusion of an additional alternative exon encoding 19 amino acids that change the regulation and signaling properties of the protein. RAC1b is a hyperactive variant that exists predominantly in the GTP-bound active conformation in vivo and promotes cell cycle progression and cell survival through activation of the transcription factor NF-κB. RAC1b overexpression functionally cooperates with the oncogenic mutation in BRAF-V600E to sustain colorectal tumor cell survival. The splicing factor SRSF1 was identified to bind an exonic splice enhancer element in the alternative exon and acts as a prime regulator of Rac1b alternative splicing in colorectal cells. SRSF1 is controlled by upstream protein kinase SRPK1, the inhibition or depletion of which led to reduced SRSF1 phosphorylation and nuclear translocation with a concomitant reduction in RAC1b levels. As further SRSF1-regulating pathways we discovered kinase GSK3 and a cyclooxygenase independent effect of the non-steroidal anti-inflammatory drug ibuprofen. Conclusions: Expression of tumor-related RAC1b in colorectal cancer depends critically on SRSF1 for the observed deregulation of alternative splicing during tumorigenesis and is controlled by upstream protein kinases that can be pharmacologically targeted.

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Abstract: The serrated pathway to colorectal tumor formation involves oncogenic mutations in the BRAF gene, which are sufficient for initiation of hyperplastic growth but not for tumor progression. A previous analysis of colorectal tumors revealed that overexpression of splice variant Rac1b occurs in around 80% of tumors with mutant BRAF and both events proved to cooperate in tumor cell survival. Patients with inflamed human colonic mucosa also have increased expression of Rac1b as well as mice with experimentally induced colitis. The increase of Rac1b in the mouse model was specifically prevented by the nonsteroidal anti-inflammatory drug ibuprofen. Purpose: The objective of our study is to understand the molecular regulation of Rac1b alternative splicing event and how it contributes to tumorigenesis. Experimental description: HT29 colorectal cell line was used as model to test several signaling pathways after 48h of treatment with ibuprofen. For this we analyzed the proteins of interest by Western Blot and the transcript levels by RT-PCR. Results: Mechanistic studies in cultured HT29 colorectal tumor cells revealed that ibuprofen inhibited Rac1b expression in a cyclooxygenase inhibition–independent manner and targets directly the alternative splicing event. Here, we provide evidence that ibuprofen leads to a decrease in expression of SRSF1, a splicing factor that we previously identified to promote Rac1b alternative splicing. Together, our results suggest that stromal cues, namely, inflammation, can trigger changes in Rac1b expression in the colon and identify ibuprofen as a highly specific and efficient inhibitor of Rac1b overexpression in colorectal tumors. Conclusions: Our data identify an additional cyclooxygenase–independent action of ibuprofen and suggest it may be beneficial in the treatment of patients with the subtype of BRAF-mutated serrated colorectal tumors.

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Mutations in the BRAF oncogene have been identified as a tumor-initiating genetic event in mainly melanoma, thyroid and colon cancer, resulting in an initial proliferative stimulus that is followed by a growth arrest period known as oncogene-induced senescence (OIS). It remains unknown what triggers subsequent escape from OIS to allow further tumor progression. A previous analysis revealed that overexpression of splice variant Rac1b occurs in around 80% of colorectal tumors carrying a mutation in BRAF. Using both BRaf-V600E-directed RNAi and overexpression we demonstrate that this mutation does not directly lead to Rac1b overexpression, indicating the latter as an independent event during tumor progression. Nonetheless, we observed that expression of oncogenic BRaf-V600E in non-transformed colonocytes (NCM460 cell line) increased both the transcript and protein levels of p14ARF, p15INK4b and p21CIP1 and led to increased expression of β-galactosidase, all indicators of OIS induction. Interestingly, whereas the protein levels of these markers were reduced upon Rac1b overexpression, the levels of their respective transcripts remained unchanged. Importantly, the co-expression of Rac1b with B-Raf-V600E reverted the OIS phenotype, reducing the expression levels of the cell-cycle inhibitors and β-galactosidase to those of control cells. These data identify increased Rac1b expression as one potential mechanism by which colorectal tumor cells can escape from B-Raf-induced OIS.

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Objectives: Characterize the role of protein kinase WNK1 in the phosphorylation network regulating cellular glucose uptake

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Introduction: The serrated pathway to colorectal tumor formation involves oncogenic mutations in the BRAF gene, which are sufficient for initiation of hyperplastic growth but not for tumor progression. A previous analysis of colorectal tumors revealed that overexpression of splice variant Rac1b occurs in around 80% of tumors with mutant BRAF and both events proved to cooperate in tumor cell survival. Patients with inflamed human colonic mucosa also have increased expression of Rac1b as well as mice with experimentally induced colitis. The increase of Rac1b in the mouse model was specifically prevented by the nonsteroidal anti-inflammatory drug ibuprofen.

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Background: Chloride transport proteins are involved in a variety of human diseases and thus represent important drug targets. They are regulated in part through the amount present at the plasma membrane and tyrosine phosphorylation has been described as a novel regulator.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)