Literature DB >> 23332765

Monitoring tumorigenesis and senescence in vivo with a p16(INK4a)-luciferase model.

Christin E Burd1, Jessica A Sorrentino, Kelly S Clark, David B Darr, Janakiraman Krishnamurthy, Allison M Deal, Nabeel Bardeesy, Diego H Castrillon, David H Beach, Norman E Sharpless.   

Abstract

Monitoring cancer and aging in vivo remains experimentally challenging. Here, we describe a luciferase knockin mouse (p16(LUC)), which faithfully reports expression of p16(INK4a), a tumor suppressor and aging biomarker. Lifelong assessment of luminescence in p16(+/LUC) mice revealed an exponential increase with aging, which was highly variable in a cohort of contemporaneously housed, syngeneic mice. Expression of p16(INK4a) with aging did not predict cancer development, suggesting that the accumulation of senescent cells is not a principal determinant of cancer-related death. In 14 of 14 tested tumor models, expression of p16(LUC) was focally activated by early neoplastic events, enabling visualization of tumors with sensitivity exceeding other imaging modalities. Activation of p16(INK4a) was noted in the emerging neoplasm and surrounding stromal cells. This work suggests that p16(INK4a) activation is a characteristic of all emerging cancers, making the p16(LUC) allele a sensitive, unbiased reporter of neoplastic transformation.
Copyright © 2013 Elsevier Inc. All rights reserved.

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Year:  2013        PMID: 23332765      PMCID: PMC3718011          DOI: 10.1016/j.cell.2012.12.010

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  70 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2005-12-22       Impact factor: 11.205

2.  Epithelial-mesenchymal transition induced by senescent fibroblasts.

Authors:  Remi-Martin Laberge; Pierre Awad; Judith Campisi; Pierre-Yves Desprez
Journal:  Cancer Microenviron       Date:  2011-06-25

3.  A biomarker that identifies senescent human cells in culture and in aging skin in vivo.

Authors:  G P Dimri; X Lee; G Basile; M Acosta; G Scott; C Roskelley; E E Medrano; M Linskens; I Rubelj; O Pereira-Smith
Journal:  Proc Natl Acad Sci U S A       Date:  1995-09-26       Impact factor: 11.205

4.  Oncogenic ras provokes premature cell senescence associated with accumulation of p53 and p16INK4a.

Authors:  M Serrano; A W Lin; M E McCurrach; D Beach; S W Lowe
Journal:  Cell       Date:  1997-03-07       Impact factor: 41.582

5.  Senescence surveillance of pre-malignant hepatocytes limits liver cancer development.

Authors:  Tae-Won Kang; Tetyana Yevsa; Norman Woller; Lisa Hoenicke; Torsten Wuestefeld; Daniel Dauch; Anja Hohmeyer; Marcus Gereke; Ramona Rudalska; Anna Potapova; Marcus Iken; Mihael Vucur; Siegfried Weiss; Mathias Heikenwalder; Sadaf Khan; Jesus Gil; Dunja Bruder; Michael Manns; Peter Schirmacher; Frank Tacke; Michael Ott; Tom Luedde; Thomas Longerich; Stefan Kubicka; Lars Zender
Journal:  Nature       Date:  2011-11-09       Impact factor: 49.962

6.  Expression of the p16INK4a tumor suppressor versus other INK4 family members during mouse development and aging.

Authors:  F Zindy; D E Quelle; M F Roussel; C J Sherr
Journal:  Oncogene       Date:  1997-07-10       Impact factor: 9.867

7.  Real-time in vivo imaging of p16Ink4a reveals cross talk with p53.

Authors:  Kimi Yamakoshi; Akiko Takahashi; Fumiko Hirota; Rika Nakayama; Naozumi Ishimaru; Yoshiaki Kubo; David J Mann; Masako Ohmura; Atsushi Hirao; Hideyuki Saya; Seiji Arase; Yoshio Hayashi; Kazuki Nakao; Mitsuru Matsumoto; Naoko Ohtani; Eiji Hara
Journal:  J Cell Biol       Date:  2009-08-10       Impact factor: 10.539

8.  Primary cilium-dependent and -independent Hedgehog signaling inhibits p16(INK4A).

Authors:  Cleo L Bishop; Ann-Marie H Bergin; Delphine Fessart; Viola Borgdorff; Elizabeth Hatzimasoura; James C Garbe; Martha R Stampfer; Jim Koh; David H Beach
Journal:  Mol Cell       Date:  2010-11-24       Impact factor: 17.970

9.  Visualizing the dynamics of p21(Waf1/Cip1) cyclin-dependent kinase inhibitor expression in living animals.

Authors:  Naoko Ohtani; Yuko Imamura; Kimi Yamakoshi; Fumiko Hirota; Rika Nakayama; Yoshiaki Kubo; Naozumi Ishimaru; Akiko Takahashi; Atsushi Hirao; Takatsune Shimizu; David J Mann; Hideyuki Saya; Yoshio Hayashi; Seiji Arase; Mitsuru Matsumoto; Nakao Kazuki; Eiji Hara
Journal:  Proc Natl Acad Sci U S A       Date:  2007-09-11       Impact factor: 11.205

10.  The E mu-myc transgenic mouse. A model for high-incidence spontaneous lymphoma and leukemia of early B cells.

Authors:  A W Harris; C A Pinkert; M Crawford; W Y Langdon; R L Brinster; J M Adams
Journal:  J Exp Med       Date:  1988-02-01       Impact factor: 14.307
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  162 in total

1.  Absence of AMPKα2 accelerates cellular senescence via p16 induction in mouse embryonic fibroblasts.

Authors:  Ye Ding; Jie Chen; Imoh Sunday Okon; Ming-Hui Zou; Ping Song
Journal:  Int J Biochem Cell Biol       Date:  2015-12-21       Impact factor: 5.085

Review 2.  Cellular Senescence: The Trojan Horse in Chronic Lung Diseases.

Authors:  Shruthi Hamsanathan; Jonathan K Alder; Jacobo Sellares; Mauricio Rojas; Aditi U Gurkar; Ana L Mora
Journal:  Am J Respir Cell Mol Biol       Date:  2019-07       Impact factor: 6.914

3.  Effect of cytotoxic chemotherapy on markers of molecular age in patients with breast cancer.

Authors:  Hanna K Sanoff; Allison M Deal; Janakiraman Krishnamurthy; Chad Torrice; Patrick Dillon; Jessica Sorrentino; Joseph G Ibrahim; Trevor A Jolly; Grant Williams; Lisa A Carey; Amy Drobish; Brittaney-Belle Gordon; Shani Alston; Arti Hurria; Karin Kleinhans; K Lenhard Rudolph; Norman E Sharpless; Hyman B Muss
Journal:  J Natl Cancer Inst       Date:  2014-03-28       Impact factor: 13.506

4.  Oroxylin A inhibits ethanol-induced hepatocyte senescence via YAP pathway.

Authors:  Huanhuan Jin; Naqi Lian; Mianli Bian; Chenxi Zhang; Xingran Chen; Jiangjuan Shao; Li Wu; Anping Chen; Qinglong Guo; Feng Zhang; Shizhong Zheng
Journal:  Cell Prolif       Date:  2018-01-10       Impact factor: 6.831

5.  Senescent cells spread the word: non-cell autonomous propagation of cellular senescence.

Authors:  Nilgun Tasdemir; Scott W Lowe
Journal:  EMBO J       Date:  2013-06-18       Impact factor: 11.598

6.  Aberrant expression of p16INK4a in human cancers - a new biomarker?

Authors:  Kazushi Inoue; Elizabeth A Fry
Journal:  Cancer Rep Rev       Date:  2018-01-15

7.  An essential role for senescent cells in optimal wound healing through secretion of PDGF-AA.

Authors:  Marco Demaria; Naoko Ohtani; Sameh A Youssef; Francis Rodier; Wendy Toussaint; James R Mitchell; Remi-Martin Laberge; Jan Vijg; Harry Van Steeg; Martijn E T Dollé; Jan H J Hoeijmakers; Alain de Bruin; Eiji Hara; Judith Campisi
Journal:  Dev Cell       Date:  2014-12-11       Impact factor: 12.270

8.  p16(INK4a) protects against dysfunctional telomere-induced ATR-dependent DNA damage responses.

Authors:  Yang Wang; Norman Sharpless; Sandy Chang
Journal:  J Clin Invest       Date:  2013-09-16       Impact factor: 14.808

9.  In vivo analysis of γH2AX+ cells in skeletal muscle from aged and obese humans.

Authors:  Cory M Dungan; Bailey D Peck; R Grace Walton; Zhengyan Huang; Marcas M Bamman; Philip A Kern; Charlotte A Peterson
Journal:  FASEB J       Date:  2020-04-04       Impact factor: 5.191

10.  p16(Ink4a)-induced senescence of pancreatic beta cells enhances insulin secretion.

Authors:  Aharon Helman; Agnes Klochendler; Narmen Azazmeh; Yael Gabai; Elad Horwitz; Shira Anzi; Avital Swisa; Reba Condiotti; Roy Z Granit; Yuval Nevo; Yaakov Fixler; Dorin Shreibman; Amit Zamir; Sharona Tornovsky-Babeay; Chunhua Dai; Benjamin Glaser; Alvin C Powers; A M James Shapiro; Mark A Magnuson; Yuval Dor; Ittai Ben-Porath
Journal:  Nat Med       Date:  2016-03-07       Impact factor: 53.440
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