Literature DB >> 21750515

From tissue turnover to the cell of origin for pancreatic cancer.

Bo Kong1, Christoph W Michalski, Mert Erkan, Helmut Friess, Jörg Kleeff.   

Abstract

The identity of the cell of origin for pancreatic ductal adenocarcinoma (PDAC) has long been debated. PDAC has a ductal morphology, but there is no formal proof that it originates from the ductal compartment. Targeting Kras expression to adult acinar or endocrine lineages induces the formation of tumors reminiscent of human PDAC, but only in the presence of concomitant inflammation. Apart from cells of the Pdx1-positive lineage in the adult pancreas, which can be transformed (albeit with low frequency), the cells susceptible to acquiring or retaining oncogenic mutations remain elusive. Hypothetically, a subset of cells that renew the adult organ physiologically or regenerate it upon severe tissue damage would be more susceptible to oncogenic transformation than mature, differentiated cells. Such a compartment could consist of putative pancreatic stem cells, progenitor cells, facultative stem cells or transdifferentiated bone marrow cells. An integrated approach combining techniques from stem cell and cancer biology will be necessary to define and map these cells.

Entities:  

Mesh:

Year:  2011        PMID: 21750515     DOI: 10.1038/nrgastro.2011.114

Source DB:  PubMed          Journal:  Nat Rev Gastroenterol Hepatol        ISSN: 1759-5045            Impact factor:   46.802


  61 in total

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Authors:  Michael Milyavsky; Olga I Gan; Magan Trottier; Martin Komosa; Ofer Tabach; Faiyaz Notta; Eric Lechman; Karin G Hermans; Kolja Eppert; Zhanna Konovalova; Olga Ornatsky; Eytan Domany; M Stephen Meyn; John E Dick
Journal:  Cell Stem Cell       Date:  2010-07-08       Impact factor: 24.633

2.  Persistent expression of PDX-1 in the pancreas causes acinar-to-ductal metaplasia through Stat3 activation.

Authors:  Takeshi Miyatsuka; Hideaki Kaneto; Toshihiko Shiraiwa; Taka-aki Matsuoka; Kaoru Yamamoto; Ken Kato; Yumiko Nakamura; Shizuo Akira; Kiyoshi Takeda; Yoshitaka Kajimoto; Yoshimitsu Yamasaki; Eric P Sandgren; Yoshiya Kawaguchi; Christopher V E Wright; Yoshio Fujitani
Journal:  Genes Dev       Date:  2006-06-01       Impact factor: 11.361

3.  p53-dependent regulation of growth, epithelial-mesenchymal transition and stemness in normal pancreatic epithelial cells.

Authors:  Andreia V Pinho; Ilse Rooman; Francisco X Real
Journal:  Cell Cycle       Date:  2011-04-15       Impact factor: 4.534

4.  Inflammation and mitochondrial fatty acid beta-oxidation link obesity to early tumor promotion.

Authors:  J Khasawneh; M D Schulz; A Walch; J Rozman; M Hrabe de Angelis; M Klingenspor; A Buck; M Schwaiger; D Saur; R M Schmid; G Klöppel; B Sipos; F R Greten; M C Arkan
Journal:  Proc Natl Acad Sci U S A       Date:  2009-02-10       Impact factor: 11.205

5.  Overexpression of heparin-binding EGF-like growth factor in mouse pancreas results in fibrosis and epithelial metaplasia.

Authors:  Anna L Means; Kevin C Ray; Amar B Singh; M Kay Washington; Robert H Whitehead; Raymond C Harris; Christopher V E Wright; Robert J Coffey; Steven D Leach
Journal:  Gastroenterology       Date:  2003-04       Impact factor: 22.682

6.  The Lkb1 metabolic sensor maintains haematopoietic stem cell survival.

Authors:  Sushma Gurumurthy; Stephanie Z Xie; Brinda Alagesan; Judith Kim; Rushdia Z Yusuf; Borja Saez; Alexandros Tzatsos; Fatih Ozsolak; Patrice Milos; Francesco Ferrari; Peter J Park; Orian S Shirihai; David T Scadden; Nabeel Bardeesy
Journal:  Nature       Date:  2010-12-02       Impact factor: 49.962

7.  p53 mutant mice that display early ageing-associated phenotypes.

Authors:  Stuart D Tyner; Sundaresan Venkatachalam; Jene Choi; Stephen Jones; Nader Ghebranious; Herbert Igelmann; Xiongbin Lu; Gabrielle Soron; Benjamin Cooper; Cory Brayton; Sang Hee Park; Timothy Thompson; Gerard Karsenty; Allan Bradley; Lawrence A Donehower
Journal:  Nature       Date:  2002-01-03       Impact factor: 49.962

8.  Isolation and characterization of centroacinar/terminal ductal progenitor cells in adult mouse pancreas.

Authors:  Meritxell Rovira; Sherri-Gae Scott; Andrew S Liss; Jan Jensen; Sarah P Thayer; Steven D Leach
Journal:  Proc Natl Acad Sci U S A       Date:  2009-12-15       Impact factor: 11.205

9.  Beta-catenin blocks Kras-dependent reprogramming of acini into pancreatic cancer precursor lesions in mice.

Authors:  John P Morris; David A Cano; Shigeki Sekine; Sam C Wang; Matthias Hebrok
Journal:  J Clin Invest       Date:  2010-01-11       Impact factor: 14.808

10.  LKB1 haploinsufficiency cooperates with Kras to promote pancreatic cancer through suppression of p21-dependent growth arrest.

Authors:  Jennifer P Morton; Nigel B Jamieson; Saadia A Karim; Dimitris Athineos; Rachel A Ridgway; Colin Nixon; Colin J McKay; Ross Carter; Valerie G Brunton; Margaret C Frame; Alan Ashworth; Karin A Oien; T R Jeffry Evans; Owen J Sansom
Journal:  Gastroenterology       Date:  2010-05-06       Impact factor: 22.682
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  17 in total

Review 1.  Cells of origin of pancreatic neoplasms.

Authors:  Junpei Yamaguchi; Yukihiro Yokoyama; Toshio Kokuryo; Tomoki Ebata; Masato Nagino
Journal:  Surg Today       Date:  2017-03-04       Impact factor: 2.549

2.  Dclk1 Defines Quiescent Pancreatic Progenitors that Promote Injury-Induced Regeneration and Tumorigenesis.

Authors:  C Benedikt Westphalen; Yoshihiro Takemoto; Takayuki Tanaka; Marina Macchini; Zhengyu Jiang; Bernhard W Renz; Xiaowei Chen; Steffen Ormanns; Karan Nagar; Yagnesh Tailor; Randal May; Youngjin Cho; Samuel Asfaha; Daniel L Worthley; Yoku Hayakawa; Aleksandra M Urbanska; Michael Quante; Maximilian Reichert; Joshua Broyde; Prem S Subramaniam; Helen Remotti; Gloria H Su; Anil K Rustgi; Richard A Friedman; Barry Honig; Andrea Califano; Courtney W Houchen; Kenneth P Olive; Timothy C Wang
Journal:  Cell Stem Cell       Date:  2016-04-07       Impact factor: 24.633

Review 3.  Adult Pancreatic Acinar Progenitor-like Populations in Regeneration and Cancer.

Authors:  Zhengyu Jiang; Ruth A White; Timothy C Wang
Journal:  Trends Mol Med       Date:  2020-04-30       Impact factor: 11.951

Review 4.  Emerging frontiers in pancreatic cancer research: elaboration of key genes, cells and the extracellular milieu.

Authors:  Chandan Kumar-Sinha; Iris Wei; Diane M Simeone
Journal:  Curr Opin Gastroenterol       Date:  2012-09       Impact factor: 3.287

5.  Netrin-1 suppresses the MEK/ERK pathway and ITGB4 in pancreatic cancer.

Authors:  Xi-Zhou An; Zhi-Guo Zhao; Yu-Xuan Luo; Ran Zhang; Xiao-Qiang Tang; De- Long Hao; Xiang Zhao; Xiang Lv; De- Pei Liu
Journal:  Oncotarget       Date:  2016-04-26

6.  Gender differences in chemical carcinogenesis in National Toxicology Program 2-year bioassays.

Authors:  Sandeep Kadekar; Shyamal Peddada; Ilona Silins; John E French; Johan Högberg; Ulla Stenius
Journal:  Toxicol Pathol       Date:  2012-05-14       Impact factor: 1.902

Review 7.  Genetically engineered mouse models of pancreatic cancer.

Authors:  Christoph Benedikt Westphalen; Kenneth P Olive
Journal:  Cancer J       Date:  2012 Nov-Dec       Impact factor: 3.360

8.  A common genetic variation of melanoma inhibitory activity-2 labels a subtype of pancreatic adenocarcinoma with high endoplasmic reticulum stress levels.

Authors:  Bo Kong; Weiwei Wu; Nataliya Valkovska; Carsten Jäger; Xin Hong; Ulrich Nitsche; Helmut Friess; Irene Esposito; Mert Erkan; Jörg Kleeff; Christoph W Michalski
Journal:  Sci Rep       Date:  2015-02-06       Impact factor: 4.379

Review 9.  Stem Cells in the Exocrine Pancreas during Homeostasis, Injury, and Cancer.

Authors:  Sophie C Lodestijn; Sanne M van Neerven; Louis Vermeulen; Maarten F Bijlsma
Journal:  Cancers (Basel)       Date:  2021-06-30       Impact factor: 6.639

Review 10.  Overview on how oncogenic Kras promotes pancreatic carcinogenesis by inducing low intracellular ROS levels.

Authors:  Bo Kong; Chengjia Qia; Mert Erkan; Jörg Kleeff; Christoph W Michalski
Journal:  Front Physiol       Date:  2013-09-12       Impact factor: 4.566
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