Literature DB >> 32826305

Reciprocal regulation of pancreatic ductal adenocarcinoma growth and molecular subtype by HNF4α and SIX1/4.

Soledad A Camolotto1, Veronika K Belova1, Luke Torre-Healy2, Jeffery M Vahrenkamp3, Kristofer C Berrett3, Hannah Conway4, Jill Shea5, Chris Stubben6, Richard Moffitt2, Jason Gertz3, Eric L Snyder7.   

Abstract

OBJECTIVE: Pancreatic ductal adenocarcinoma (PDAC) is an aggressive malignancy with a 5-year survival of less than 5%. Transcriptomic analysis has identified two clinically relevant molecular subtypes of PDAC: classical and basal-like. The classical subtype is characterised by a more favourable prognosis and better response to chemotherapy than the basal-like subtype. The classical subtype also expresses higher levels of lineage specifiers that regulate endodermal differentiation, including the nuclear receptor hepatocyte nuclear factor 4 α (HNF4α). The objective of this study is to evaluate the role of HNF4α, SIX4 and SIX1 in regulating the growth and molecular subtype of PDAC.
DESIGN: We manipulate the expression of HNF4α, SIX4 and SIX1 in multiple in vitro and in vivo PDAC models. We determine the consequences of manipulating these genes on PDAC growth, differentiation and molecular subtype using functional assays, gene expression analysis and cross-species comparisons with human datasets.
RESULTS: We show that HNF4α restrains tumour growth and drives tumour cells toward an epithelial identity. Gene expression analysis of murine models and human tumours shows that HNF4α activates expression of genes associated with the classical subtype. HNF4α also directly represses SIX4 and SIX1, two mesodermal/neuronal lineage specifiers expressed in the basal-like subtype. Finally, SIX4 and SIX1 drive proliferation and regulate differentiation in HNF4α-negative PDAC.
CONCLUSION: Our data show that HNF4α regulates the growth and molecular subtype of PDAC by multiple mechanisms, including activation of the classical gene expression programme and repression of SIX4 and SIX1, which may represent novel dependencies of the basal-like subtype. © Author(s) (or their employer(s)) 2021. No commercial re-use. See rights and permissions. Published by BMJ.

Entities:  

Keywords:  gene expression; molecular mechanisms; pancreatic cancer

Mesh:

Substances:

Year:  2020        PMID: 32826305      PMCID: PMC7945295          DOI: 10.1136/gutjnl-2020-321316

Source DB:  PubMed          Journal:  Gut        ISSN: 0017-5749            Impact factor:   23.059


  75 in total

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Authors:  Karthikeyani Chellappa; Poonamjot Deol; Jane R Evans; Linh M Vuong; Gang Chen; Nadege Briançon; Eugene Bolotin; Christian Lytle; Meera G Nair; Frances M Sladek
Journal:  Elife       Date:  2016-05-11       Impact factor: 8.140

Review 2.  The role of lineage specifiers in pancreatic ductal adenocarcinoma.

Authors:  Soledad A Camolotto; Veronika K Belova; Eric L Snyder
Journal:  J Gastrointest Oncol       Date:  2018-12

Review 3.  The molecular functions of hepatocyte nuclear factors - In and beyond the liver.

Authors:  Hwee Hui Lau; Natasha Hui Jin Ng; Larry Sai Weng Loo; Joanita Binte Jasmen; Adrian Kee Keong Teo
Journal:  J Hepatol       Date:  2017-11-24       Impact factor: 25.083

4.  Transcription phenotypes of pancreatic cancer are driven by genomic events during tumor evolution.

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Journal:  Nat Genet       Date:  2020-01-13       Impact factor: 38.330

5.  Subtypes of pancreatic ductal adenocarcinoma and their differing responses to therapy.

Authors:  Eric A Collisson; Anguraj Sadanandam; Peter Olson; William J Gibb; Morgan Truitt; Shenda Gu; Janine Cooc; Jennifer Weinkle; Grace E Kim; Lakshmi Jakkula; Heidi S Feiler; Andrew H Ko; Adam B Olshen; Kathleen L Danenberg; Margaret A Tempero; Paul T Spellman; Douglas Hanahan; Joe W Gray
Journal:  Nat Med       Date:  2011-04-03       Impact factor: 53.440

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Authors:  Olivia Alder; Rebecca Cullum; Sam Lee; Arohumam C Kan; Wei Wei; Yuyin Yi; Victoria C Garside; Misha Bilenky; Malachi Griffith; A Sorana Morrissy; Gordon A Robertson; Nina Thiessen; Yongjun Zhao; Qian Chen; Duojia Pan; Steven J M Jones; Marco A Marra; Pamela A Hoodless
Journal:  Cell Rep       Date:  2014-09-25       Impact factor: 9.423

7.  GATA6 regulates EMT and tumour dissemination, and is a marker of response to adjuvant chemotherapy in pancreatic cancer.

Authors:  Paola Martinelli; Enrique Carrillo-de Santa Pau; Trevor Cox; Bruno Sainz; Nelson Dusetti; William Greenhalf; Lorenzo Rinaldi; Eithne Costello; Paula Ghaneh; Núria Malats; Markus Büchler; Marina Pajic; Andrew V Biankin; Juan Iovanna; John Neoptolemos; Francisco X Real
Journal:  Gut       Date:  2016-06-20       Impact factor: 23.059

8.  Inhibition of Six1 affects tumour invasion and the expression of cancer stem cell markers in pancreatic cancer.

Authors:  Tristan Lerbs; Savita Bisht; Sebastian Schölch; Mathieu Pecqueux; Glen Kristiansen; Martin Schneider; Bianca T Hofmann; Thilo Welsch; Christoph Reissfelder; Nuh N Rahbari; Johannes Fritzmann; Peter Brossart; Jürgen Weitz; Georg Feldmann; Christoph Kahlert
Journal:  BMC Cancer       Date:  2017-04-07       Impact factor: 4.430

9.  Six1 promotes proliferation of pancreatic cancer cells via upregulation of cyclin D1 expression.

Authors:  Zhaoming Li; Tian Tian; Feng Lv; Yu Chang; Xinhua Wang; Lei Zhang; Xin Li; Ling Li; Wang Ma; Jingjing Wu; Mingzhi Zhang
Journal:  PLoS One       Date:  2013-03-20       Impact factor: 3.240

10.  HNF1A is a novel oncogene that regulates human pancreatic cancer stem cell properties.

Authors:  Ethan V Abel; Masashi Goto; Brian Magnuson; Saji Abraham; Nikita Ramanathan; Emily Hotaling; Anthony A Alaniz; Chandan Kumar-Sinha; Michele L Dziubinski; Sumithra Urs; Lidong Wang; Jiaqi Shi; Meghna Waghray; Mats Ljungman; Howard C Crawford; Diane M Simeone
Journal:  Elife       Date:  2018-08-03       Impact factor: 8.140
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Review 2.  The interactive role of inflammatory mediators and metabolic reprogramming in pancreatic cancer.

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Journal:  Trends Cancer       Date:  2022-05-05

3.  FOXA1 Leads to Aberrant Expression of SIX4 Affecting Cervical Cancer Cell Growth and Chemoresistance.

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Journal:  Anal Cell Pathol (Amst)       Date:  2022-04-20       Impact factor: 4.133

4.  Homeoprotein SIX1 compromises antitumor immunity through TGF-β-mediated regulation of collagens.

Authors:  Wancheng Liu; Meiling Gao; Lili Li; Yu Chen; Huimin Fan; Qiaomei Cai; Yueyue Shi; Chaohu Pan; Junxiao Liu; Lucy S Cheng; Heng Yang; Genhong Cheng
Journal:  Cell Mol Immunol       Date:  2021-11-15       Impact factor: 11.530

5.  CES2 sustains HNF4α expression to promote pancreatic adenocarcinoma progression through an epoxide hydrolase-dependent regulatory loop.

Authors:  Yihui Chen; Michela Capello; Mayrim V Rios Perez; Jody V Vykoukal; David Roife; Ya'an Kang; Laura R Prakash; Hiroyuki Katayama; Ehsan Irajizad; Alia Fleury; Sammy Ferri-Borgogno; Dodge L Baluya; Jennifer B Dennison; Kim-Anh Do; Oliver Fiehn; Anirban Maitra; Huamin Wang; Paul J Chiao; Matthew H G Katz; Jason B Fleming; Samir M Hanash; Johannes F Fahrmann
Journal:  Mol Metab       Date:  2021-12-28       Impact factor: 7.422

6.  Multi-omics data integration and modeling unravels new mechanisms for pancreatic cancer and improves prognostic prediction.

Authors:  Nicolas A Fraunhoffer; Analía Meilerman Abuelafia; Martin Bigonnet; Odile Gayet; Julie Roques; Remy Nicolle; Gwen Lomberk; Raul Urrutia; Nelson Dusetti; Juan Iovanna
Journal:  NPJ Precis Oncol       Date:  2022-08-17

Review 7.  The role of hepatocyte nuclear factor 4α (HNF4α) in tumorigenesis.

Authors:  Lei Sang; Xingshun Wang; Weiyu Bai; Junling Shen; Yong Zeng; Jianwei Sun
Journal:  Front Oncol       Date:  2022-09-28       Impact factor: 5.738
  7 in total

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