469 research outputs found
Activation of protein kinase Cδ leads to increased pancreatic acinar cell dedifferentiation in the absence of MIST1
Pancreatic ductal adenocarcinoma (PDAC) has a 5 year survival rate post-diagnosis of \u3c 5%. Individuals with chronic pancreatitis (CP) are 20-fold more likely to develop PDAC, making it a significant risk factor for PDAC. While the relationship for the increased susceptibility to PDAC is unknown, loss of the acinar cell phenotype is common to both pathologies. Pancreatic acinar cells can dedifferentiate or trans-differentiate into a number of cell types including duct cells, β cells, hepatocytes and adipocytes. Knowledge of the molecular pathways that regulate this plasticity should provide insight into PDAC and CP. MIST1 (encoded by Bhlha15 in mice) is a transcription factor required for complete acinar cell maturation. The goal of this study was to examine the plasticity of acinar cells that do not express MIST1 (Mist1 -/-). The fate of acinar cells from C57Bl6 or congenic Mist1 -/- mice expressing an acinar specific, tamoxifen-inducible Cre recombinase mated to Rosa26 reporter LacZ mice (Mist1CreERT/- R26r) was determined following culture in a three-dimensional collagen matrix. Mist1CreERT/- R26r acini showed increased acinar dedifferentiation, formation of ductal cysts and transient increases in PDX1 expression compared to wild-type acinar cells. Other progenitor cell markers, including Foxa1, Sox9, Sca1 and Hes1, were elevated only in Mist1-/- cultures. Analysis of protein kinase C (PKC) isoforms by western blot and immunofluorescence identified increased PKCε accumulation and nuclear localization of PKCδ that correlated with increased duct formation. Treatment with rottlerin, a PKCδ-specific inhibitor, but not the PKCε-specific antagonist εV1-2, reduced acinar dedifferentiation, progenitor gene expression and ductal cyst formation. Immunocytochemistry on CP or PDAC tissue samples showed reduced MIST1 expression combined with increased nuclear PKCδ accumulation. These results suggest that the loss of MIST1 is a common event during PDAC and CP and events that affect MIST1 function and expression may increase susceptibility to these pathologies. Copyright © 2012 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd
Pathological characterization of tumor immune microenvironment (Time) in malignant pleural mesothelioma
SIMPLE SUMMARY: Tumor immune microenvironment is an important structural component of malignant pleural mesothelioma that contributes to disease growth support and progression. Its study and pathological characterization are important tools to find new biomarkers for advanced therapeutic strategies. ABSTRACT: Malignant pleural mesothelioma (MPM) is a rare and highly aggressive disease that arises from pleural mesothelial cells, characterized by a median survival of approximately 13–15 months after diagnosis. The primary cause of this disease is asbestos exposure and the main issues associated with it are late diagnosis and lack of effective therapies. Asbestos-induced cellular damage is associated with the generation of an inflammatory microenvironment that influences and supports tumor growth, possibly in association with patients’ genetic predisposition and tumor genomic profile. The chronic inflammatory response to asbestos fibers leads to a unique tumor immune microenvironment (TIME) composed of a heterogeneous mixture of stromal, endothelial, and immune cells, and relative composition and interaction among them is suggested to bear prognostic and therapeutic implications. TIME in MPM is known to be constituted by immunosuppressive cells, such as type 2 tumor-associated macrophages and T regulatory lymphocytes, plus the expression of several immunosuppressive factors, such as tumor-associated PD-L1. Several studies in recent years have contributed to achieve a greater understanding of the pathogenetic mechanisms in tumor development and pathobiology of TIME, that opens the way to new therapeutic strategies. The study of TIME is fundamental in identifying appropriate prognostic and predictive tissue biomarkers. In the present review, we summarize the current knowledge about the pathological characterization of TIME in MPM
Micro-RNA-215 and -375 regulate thymidylate synthase protein expression in pleural mesothelioma and mediate epithelial to mesenchymal transition
The standard front-line treatment for pleural mesothelioma (PM) is pemetrexed-based chemotherapy, whose major target is thymidylate synthase (TS). In several cancer models, miR-215 and miR-375 have been shown to target TS, while information on these miRNAs in PM are still limited although suggest their role in epithelial to mesenchymal transition. Seventy-one consecutive PM tissues (4 biphasic, 7 sarcomatoid, and 60 epithelioid types) and 16 commercial and patient-derived PM cell lines were screened for TS, miR-215, and miR-375 expression. REN and 570B cells were selected for miR-215 and miR-375 transient transfections to test TS modulation. ZEB1 protein expression in tumor samples was also tested. Moreover, genetic profile was investigated by means of BAP1 and p53 immunohistochemistry. Expression of both miR-215 and miR-375 was significantly higher in epithelioid histotype. Furthermore, inverse correlation between TS protein and both miR-215 and miR-375 expression was found. Efficiently transfected REN and 570B cell lines overexpressing miR-215 and miR-375 showed decreased TS protein levels. Epithelioid PM with a mesenchymal component highlighted by reticulin stain showed significantly higher TS and ZEB1 protein and lower miRNA expression. A better survival was recorded for BAP1 lost/TS low cases. Our data indicate that miR-215 and miR-375 are involved in TS regulation as well as in epithelial-to-mesenchymal transition in PM. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00428-022-03321-8
BRCA1- A ssociated protein 1 (BAP1) immunohistochemical expression as a diagnostic tool in malignant pleural mesothelioma classification: A large retrospective study
Malignant pleural mesothelioma (MPM) is a
highly aggressive disease with limited therapeutic options.
Histological subtype remains among the most reliable
prognostic factors, because the epithelioid subtype associated
with the best prognosis and the sarcomatoid subtype
with the worst. The biphasic subtype has an intermediate
prognosis, but its definitive histological diagnosis may be
challenging owing to the difficulty of assessing the neoplastic
nature of the stromal component. Recent data identified
BRCA1-associated protein 1 gene (BAP1) as one of the most
frequently mutated genes in MPM. Immunohistochemical
testing for BRCA1-associated protein 1 (BAP1) has been
proposed to be predictive for the detection of BAP1 mutation
in neoplastic cells. The aim of the present study was to define
the diagnostic usefulness of immunohistochemical determination
of BAP1 in MPM, with clinicopathological correlation
Marker-Assisted Pyramiding of Blast-Resistance Genes in a japonica Elite Rice Cultivar through Forward and Background Selection
Rice blast, caused by Pyricularia oryzae, is one of the main rice diseases worldwide. The
pyramiding of blast-resistance (Pi) genes, coupled to Marker-Assisted BackCrossing (MABC), provides
broad-spectrum and potentially durable resistance while limiting the donor genome in the
background of an elite cultivar. In this work, MABC coupled to foreground and background selections
based on KASP marker assays has been applied to introgress four Pi genes (Piz, Pib, Pita, and
Pik) in a renowned japonica Italian rice variety, highly susceptible to blast. Molecular analyses on the
backcross (BC) lines highlighted the presence of an additional blast-resistance gene, the Pita-linked
Pita2/Ptr gene, therefore increasing the number of blast-resistance introgressed genes to five. The
recurrent genome was recovered up to 95.65%. Several lines carrying four (including Pita2) Pi genes
with high recovery percentage levels were also obtained. Phenotypic evaluations confirmed the
effectiveness of the pyramided lines against multivirulent strains, which also had broad patterns
of resistance in comparison to those expected based on the pyramided Pi genes. The developed
blast-resistant japonica lines represent useful donors of multiple blast-resistance genes for future
rice-breeding programs related to the japonica group
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