Literature DB >> 21290163

HDAC2 and TXNL1 distinguish aneuploid from diploid colorectal cancers.

Timo Gemoll1, Uwe J Roblick, Silke Szymczak, Till Braunschweig, Susanne Becker, Bernd-Wolfgang Igl, Hans-Peter Bruch, Andreas Ziegler, Ulf Hellman, Michael J Difilippantonio, Thomas Ried, Hans Jörnvall, Gert Auer, Jens K Habermann.   

Abstract

DNA aneuploidy has been identified as a prognostic factor for epithelial malignancies. Further understanding of the translation of DNA aneuploidy into protein expression will help to define novel biomarkers to improve therapies and prognosis. DNA ploidy was assessed by image cytometry. Comparison of gel-electrophoresis-based protein expression patterns of three diploid and four aneuploid colorectal cancer cell lines detected 64 ploidy-associated proteins. Proteins were identified by mass spectrometry and subjected to Ingenuity Pathway Analysis resulting in two overlapping high-ranked networks maintaining Cellular Assembly and Organization, Cell Cycle, and Cellular Growth and Proliferation. CAPZA1, TXNL1, and HDAC2 were significantly validated by Western blotting in cell lines and the latter two showed expression differences also in clinical samples using a tissue microarray of normal mucosa (n=19), diploid (n=31), and aneuploid (n=47) carcinomas. The results suggest that distinct protein expression patterns, affecting TXNL1 and HDAC2, distinguish aneuploid with poor prognosis from diploid colorectal cancers. © Springer Basel AG 2011

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Year:  2011        PMID: 21290163      PMCID: PMC4721677          DOI: 10.1007/s00018-011-0628-3

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  40 in total

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2.  Stage-specific alterations of the genome, transcriptome, and proteome during colorectal carcinogenesis.

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3.  The QUEST system for quantitative analysis of two-dimensional gels.

Authors:  J I Garrels
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4.  Statistical methods for assessing agreement between two methods of clinical measurement.

Authors:  J M Bland; D G Altman
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Journal:  Cancer Res       Date:  2002-05-01       Impact factor: 12.701

6.  Comparative genomic hybridization reveals a specific pattern of chromosomal gains and losses during the genesis of colorectal tumors.

Authors:  T Ried; R Knutzen; R Steinbeck; H Blegen; E Schröck; K Heselmeyer; S du Manoir; G Auer
Journal:  Genes Chromosomes Cancer       Date:  1996-04       Impact factor: 5.006

7.  Class I histone deacetylase expression has independent prognostic impact in human colorectal cancer: specific role of class I histone deacetylases in vitro and in vivo.

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8.  Induction of HDAC2 expression upon loss of APC in colorectal tumorigenesis.

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Journal:  Cancer Cell       Date:  2004-05       Impact factor: 31.743

Review 9.  Prognostic value of DNA analysis in colorectal carcinoma.

Authors:  T C Böttger; D Potratz; M Stöckle; S Wellek; J Klupp; T Junginger
Journal:  Cancer       Date:  1993-12-15       Impact factor: 6.860

10.  Purification, molecular cloning, and characterization of TRP32, a novel thioredoxin-related mammalian protein of 32 kDa.

Authors:  K K Lee; M Murakawa; S Takahashi; S Tsubuki; S Kawashima; K Sakamaki; S Yonehara
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  10 in total

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Journal:  Cell Mol Life Sci       Date:  2011-07-08       Impact factor: 9.261

2.  Trichostatin A preferentially reverses the upregulation of gene-expression levels induced by gain of chromosome 7 in colorectal cancer cell lines.

Authors:  Floryne O Buishand; Eric Cardin; Yue Hu; Thomas Ried
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Review 3.  The role of TXNL1 in disease: treatment strategies for cancer and diseases with oxidative stress.

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Journal:  Mol Biol Rep       Date:  2021-03-03       Impact factor: 2.316

4.  Increased cathepsin D protein expression is a biomarker for osteosarcomas, pulmonary metastases and other bone malignancies.

Authors:  Timo Gemoll; Franziska Epping; Lisa Heinrich; Britta Fritzsche; Uwe J Roblick; Silke Szymczak; Sonja Hartwig; Reinhard Depping; Hans-Peter Bruch; Christoph Thorns; Stefan Lehr; Andreas Paech; Jens K Habermann
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Review 5.  HDAC and HDAC Inhibitor: From Cancer to Cardiovascular Diseases.

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6.  The p300/YY1/miR-500a-5p/HDAC2 signalling axis regulates cell proliferation in human colorectal cancer.

Authors:  Weimei Tang; Weijie Zhou; Li Xiang; Xiaosheng Wu; Pei Zhang; Jing Wang; Guangnan Liu; Wenjing Zhang; Ying Peng; Xiaoting Huang; Jianqun Cai; Yang Bai; Lan Bai; Wei Zhu; Hongxiang Gu; Jing Xiong; Chen Ye; Aimin Li; Side Liu; Jide Wang
Journal:  Nat Commun       Date:  2019-02-08       Impact factor: 14.919

7.  Genome-wide detection of DNase I hypersensitive sites in single cells and FFPE tissue samples.

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8.  MALDI-imaging reveals thymosin beta-4 as an independent prognostic marker for colorectal cancer.

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9.  EB1 protein alteration characterizes sporadic but not ulcerative colitis associated colorectal cancer.

Authors:  Timo Gemoll; Sophie L Kollbeck; Karl F Karstens; Gia G Hò; Sonja Hartwig; Sarah Strohkamp; Katharina Schillo; Christoph Thorns; Martina Oberländer; Kathrin Kalies; Stefan Lehr; Jens K Habermann
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10.  GPR126 regulates colorectal cancer cell proliferation by mediating HDAC2 and GLI2 expression.

Authors:  Hengxiang Cui; Wenjie Yu; Minhao Yu; Yang Luo; Mingming Yang; Ruochen Cong; Xin Chu; Ganglong Gao; Ming Zhong
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  10 in total

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