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      CYP3A5 mediates basal and acquired therapy resistance in different subtypes of pancreatic ductal adenocarcinoma.

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          Abstract

          Although subtypes of pancreatic ductal adenocarcinoma (PDAC) have been described, this malignancy is clinically still treated as a single disease. Here we present patient-derived models representing the full spectrum of previously identified quasi-mesenchymal (QM-PDA), classical and exocrine-like PDAC subtypes, and identify two markers--HNF1A and KRT81--that enable stratification of tumors into different subtypes by using immunohistochemistry. Individuals with tumors of these subtypes showed substantial differences in overall survival, and their tumors differed in drug sensitivity, with the exocrine-like subtype being resistant to tyrosine kinase inhibitors and paclitaxel. Cytochrome P450 3A5 (CYP3A5) metabolizes these compounds in tumors of the exocrine-like subtype, and pharmacological or short hairpin RNA (shRNA)-mediated CYP3A5 inhibition sensitizes tumor cells to these drugs. Whereas hepatocyte nuclear factor 4, alpha (HNF4A) controls basal expression of CYP3A5, drug-induced CYP3A5 upregulation is mediated by the nuclear receptor NR1I2. CYP3A5 also contributes to acquired drug resistance in QM-PDA and classical PDAC, and it is highly expressed in several additional malignancies. These findings designate CYP3A5 as a predictor of therapy response and as a tumor cell-autonomous detoxification mechanism that must be overcome to prevent drug resistance.

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          Variance stabilization applied to microarray data calibration and to the quantification of differential expression.

          Wolfgang Huber, Anja von Heydebreck, Holger Sültmann (2002)
          We introduce a statistical model for microarray gene expression data that comprises data calibration, the quantification of differential expression, and the quantification of measurement error. In particular, we derive a transformation h for intensity measurements, and a difference statistic Deltah whose variance is approximately constant along the whole intensity range. This forms a basis for statistical inference from microarray data, and provides a rational data pre-processing strategy for multivariate analyses. For the transformation h, the parametric form h(x)=arsinh(a+bx) is derived from a model of the variance-versus-mean dependence for microarray intensity data, using the method of variance stabilizing transformations. For large intensities, h coincides with the logarithmic transformation, and Deltah with the log-ratio. The parameters of h together with those of the calibration between experiments are estimated with a robust variant of maximum-likelihood estimation. We demonstrate our approach on data sets from different experimental platforms, including two-colour cDNA arrays and a series of Affymetrix oligonucleotide arrays.
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            Recent progress in pancreatic cancer.

            Christopher L. Wolfgang, Joseph M. Herman, Daniel Laheru (2013)
            Pancreatic cancer is currently one of the deadliest of the solid malignancies. However, surgery to resect neoplasms of the pancreas is safer and less invasive than ever, novel drug combinations have been shown to improve survival, advances in radiation therapy have resulted in less toxicity, and enormous strides have been made in the understanding of the fundamental genetics of pancreatic cancer. These advances provide hope but they also increase the complexity of caring for patients. It is clear that multidisciplinary care that provides comprehensive and coordinated evaluation and treatment is the most effective way to manage patients with pancreatic cancer. Copyright © 2013 American Cancer Society, Inc.
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              Single-cell cloning of colon cancer stem cells reveals a multi-lineage differentiation capacity.

              L. Vermeulen, M. Todaro, F de Sousa Mello (2008)
              Colon carcinoma is one of the leading causes of death from cancer and is characterized by a heterogenic pool of cells with distinct differentiation patterns. Recently, it was reported that a population of undifferentiated cells from a primary tumor, so-called cancer stem cells (CSC), can reconstitute the original tumor on xenotransplantation. Here, we show that spheroid cultures of these colon CSCs contain expression of CD133, CD166, CD44, CD29, CD24, Lgr5, and nuclear beta-catenin, which have all been suggested to mark the (cancer) stem cell population. More importantly, by using these spheroid cultures or freshly isolated tumor cells from multiple colon carcinomas, we now provide compelling evidence to indicate that the capacity to propagate a tumor with all differentiated progeny resides in a single CSC. Single-cell-cloned CSCs can form an adenocarcinoma on xenotransplantation but do not generate the stroma within these tumors. Moreover, they can self-renew and are capable of multilineage differentiation. Further analysis indicated that the lineage decision is dictated by phosphoinositide 3-kinase (PI3K) signaling in CSCs. These data support the hypothesis that tumor hierarchy can be traced back to a single CSC that contains multilineage differentiation capacity, and provides clues to the regulation of differentiation in colon cancers in vivo.
              Article 0 comments Cited 241 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (iso-abbrev): Nat. Med.
                Title: Nature medicine
                Publisher: Springer Nature
                ISSN (Electronic): 1546-170X
                ISSN (Print): 1078-8956
                Publication date (Electronic): Mar 2016
                Volume: 22
                Issue: 3
                Affiliations
                [1 ] Heidelberg Institute for Stem Cell Technology and Experimental Medicine (HI-STEM), Heidelberg, Germany.
                [2 ] Divison of Stem Cells and Cancer, German Cancer Research Center (DKFZ), Heidelberg, Germany.
                [3 ] Department of Pathology, University of Heidelberg, Heidelberg, Germany.
                [4 ] National Center for Tumor Diseases (NCT), Heidelberg, Germany.
                [5 ] Genome Biology Unit, European Molecular Biology Laboratory (EMBL), Heidelberg, Germany.
                [6 ] Heidelberg Pharma GmbH, Ladenburg, Germany.
                [7 ] Division of Theoretical Bioinformatics, German Cancer Research Center (DKFZ), Heidelberg, Germany.
                [8 ] Division of Biostatistics, German Cancer Research Center, Heidelberg, Germany.
                [9 ] Department of General, Visceral and Transplantation Surgery, Charité-Universitätsmedizin Berlin, Berlin, Germany.
                [10 ] Institute of Pathology, Charité-Universitätsmedizin Berlin, Berlin, Germany.
                [11 ] Institute of Pharmacy and Molecular Biotechnology, Bioquant, University of Heidelberg, Heidelberg, Germany.
                [12 ] Heidelberg Center for Personalized Oncology (DKFZ-HIPO), German Cancer Research Center, Heidelberg, Germany.
                [13 ] Department of General and Visceral Surgery, University Hospital Heidelberg, Heidelberg, Germany.
                [14 ] German Cancer Consortium (DKTK), Heidelberg, Germany.
                Article
                Publisher Item ID: nm.4038 Mid ID: EMS66580
                DOI: 10.1038/nm.4038
                PMC ID: 4780258
                PubMed ID: 26855150
                SO-VID: 9cfb008b-efee-44f1-9e3f-b76ead20a330
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