Literature DB >> 11891193

Genetic and immunohistochemical analysis of pancreatic acinar cell carcinoma: frequent allelic loss on chromosome 11p and alterations in the APC/beta-catenin pathway.

Susan C Abraham1, Tsung-Teh Wu, Ralph H Hruban, Jae-Hyuk Lee, Charles J Yeo, Kevin Conlon, Murray Brennan, John L Cameron, David S Klimstra.   

Abstract

Acinar cell carcinomas (ACCs) are rare malignant tumors of the exocrine pancreas. The specific molecular alterations that characterize ACCs have not yet been elucidated. ACCs are morphologically and genetically distinct from the more common pancreatic ductal adenocarcinomas. Instead, the morphological, immunohistochemical, and clinical features of ACCs overlap with those of another rare pancreatic neoplasm, pancreatoblastoma. We have recently demonstrated a high frequency of allelic loss on chromosome arm 11p and mutations in the APC/beta-catenin pathway in pancreatoblastomas, suggesting that similar alterations might also play a role in the pathogenesis of some ACCs. We analyzed a series of 21 ACCs for somatic alterations in the APC/beta-catenin pathway and for allelic loss on chromosome 11p. In addition, we evaluated the ACCs for alterations in p53 and Dpc4 expression using immunohistochemistry, and for microsatellite instability (MSI) using polymerase chain amplification of a panel of microsatellite markers. Allelic loss on chromosome 11p was the most common genetic alteration in ACCs, present in 50% (6 of 12 informative cases). Molecular alterations in the APC/beta-catenin pathway were detected in 23.5% (4 of 17) of the carcinomas, including one ACC with an activating mutation of the beta-catenin oncogene and three ACCs with truncating APC mutations. One ACC (1 of 13, 7.6%) showed allelic shifts in four of the five markers tested (MSI-high), two (15.4%) showed an allelic shift in only one of the five markers tested (MSI-low), and no shifts were detected in the remaining 10 cases. The MSI-high ACC showed medullary histological features. In contrast, no loss of Dpc4 protein expression or p53 accumulation was detected. These results indicate that ACCs are genetically distinct from pancreatic ductal adenocarcinomas, but some cases contain genetic alterations common to histologically similar pancreatoblastomas.

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Year:  2002        PMID: 11891193      PMCID: PMC1867188          DOI: 10.1016/s0002-9440(10)64917-6

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  87 in total

Review 1.  Progression model for pancreatic cancer.

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Journal:  Clin Cancer Res       Date:  2000-08       Impact factor: 12.531

Review 2.  Mixed exocrine-endocrine tumors of the pancreas.

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Journal:  Semin Diagn Pathol       Date:  2000-05       Impact factor: 3.464

Review 3.  Pancreatoblastoma. Three original cases and review of the literature.

Authors:  E Kohda; M Iseki; H Ikawa; M Endoh; J Yokoyama; M Mukai; J Hata; H Yamazaki; J Miyauchi; M Saeki
Journal:  Acta Radiol       Date:  2000-07       Impact factor: 1.990

4.  Expression of nuclear beta-catenin and c-myc is correlated with tumor size but not with proliferative activity of colorectal adenomas.

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Journal:  Am J Pathol       Date:  2000-03       Impact factor: 4.307

5.  Acinar-islet cell tumor of the pancreas: report of a malignant pancreatic composite tumor.

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6.  Genetic, immunohistochemical, and clinical features of medullary carcinoma of the pancreas: A newly described and characterized entity.

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Journal:  Am J Pathol       Date:  2000-05       Impact factor: 4.307

7.  Alpha-fetoprotein production by pancreatic tumors exhibiting acinar cell differentiation: study of five cases, one arising in a mediastinal teratoma.

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Journal:  Hum Pathol       Date:  2000-08       Impact factor: 3.466

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9.  Beta-catenin in soft tissue sarcomas: expression is related to proliferative activity in high-grade sarcomas.

Authors:  C Kuhnen; P Herter; O Müller; T Muehlberger; L Krause; H Homann; H U Steinau; K M Müller
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  89 in total

Review 1.  [Classification and malignant potential of pancreatic cystic tumors].

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Journal:  Pathologe       Date:  2015-02       Impact factor: 1.011

2.  [Acinar cell carcinomas and pancreatoblastomas: related but not the same].

Authors:  B Sipos; G Klöppel
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3.  Cushing's syndrome in a child with pancreatic acinar cell carcinoma.

Authors:  György Illyés; Andrea Luczay; Gábor Benyó; Attila Kálmán; Katalin Borka; Katalin Köves; Károly Rácz; Tivadar Tulassay; Zsuzsa Schaff
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4.  Overexpression of lymphoid enhancer-binding factor 1 (LEF1) in solid-pseudopapillary neoplasms of the pancreas.

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Journal:  Mod Pathol       Date:  2014-03-21       Impact factor: 7.842

5.  PAF-mediated MAPK signaling hyperactivation via LAMTOR3 induces pancreatic tumorigenesis.

Authors:  Sohee Jun; Sunhye Lee; Han-Cheon Kim; Christopher Ng; Andrea M Schneider; Hong Ji; Haoqiang Ying; Huamin Wang; Ronald A DePinho; Jae-Il Park
Journal:  Cell Rep       Date:  2013-10-31       Impact factor: 9.423

6.  Case report: primary acinar cell carcinoma of the liver treated with multimodality therapy.

Authors:  Emmet J Jordan; Olca Basturk; Jinru Shia; David S Klimstra; William Alago; Michael I D'Angelica; Ghassan K Abou-Alfa; Eileen M O'Reilly; Maeve A Lowery
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7.  The c-myc and PyMT oncogenes induce different tumor types in a somatic mouse model for pancreatic cancer.

Authors:  Brian C Lewis; David S Klimstra; Harold E Varmus
Journal:  Genes Dev       Date:  2003-12-17       Impact factor: 11.361

8.  The what, where, when and how of Wnt/β-catenin signaling in pancreas development.

Authors:  L Charles Murtaugh
Journal:  Organogenesis       Date:  2008-04       Impact factor: 2.500

9.  Colonic carcinoma with a pancreatic acinar cell differentiation. A case report.

Authors:  Anna Maria Chiaravalli; Giovanna Finzi; Valentina Bertolini; Stefano La Rosa; Carlo Capella
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Review 10.  Morphogenesis of pancreatic cancer: role of pancreatic intraepithelial neoplasia (PanINs).

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