Literature DB >> 15574883

Transcriptional networks and cellular senescence in human mammary fibroblasts.

K Hardy1, L Mansfield, A Mackay, S Benvenuti, S Ismail, P Arora, M J O'Hare, P S Jat.   

Abstract

Senescence, the molecular program that limits the finite proliferative potential of a cell, acts as an important barrier to protect the body from cancer. Techniques for measuring transcriptome changes and for modulating their expression suggest that it may be possible to dissect the transcriptional networks underlying complex cellular processes. HMF3A cells are conditionally immortalized human mammary fibroblasts that can be induced to undergo coordinated senescence. Here, we used these cells in conjunction with microarrays, RNA interference, and in silico promoter analysis to promote the dissection of the transcriptional networks responsible for regulating cellular senescence. We first identified changes in the transcriptome when HMF3A cells undergo senescence and then compared them with those observed upon replicative senescence in primary human mammary fibroblasts. In addition to DUSP1 and known p53 and E2F targets, a number of genes such as PHLDA1, NR4A3, and a novel splice variant of STAC were implicated in senescence. Their role in senescence was then analyzed by RNA silencing followed by microarray analysis. In silico promoter analysis of all differential genes predicted that nuclear factor-kappaB and C/EBP transcription factors are activated upon senescence, and we confirmed this by electrophoretic mobility shift assay. The results suggest a putative signaling network for cellular senescence.

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Year:  2004        PMID: 15574883      PMCID: PMC545924          DOI: 10.1091/mbc.e04-05-0392

Source DB:  PubMed          Journal:  Mol Biol Cell        ISSN: 1059-1524            Impact factor:   4.138


  63 in total

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Journal:  Oncogene       Date:  1999-12-02       Impact factor: 9.867

2.  Inhibition of ERK and p38 MAP kinases inhibits binding of Nrf2 and induction of GCS genes.

Authors:  L M Zipper; R T Mulcahy
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Journal:  Oncogene       Date:  1998-03-05       Impact factor: 9.867

4.  Extension of life-span by introduction of telomerase into normal human cells.

Authors:  A G Bodnar; M Ouellette; M Frolkis; S E Holt; C P Chiu; G B Morin; C B Harley; J W Shay; S Lichtsteiner; W E Wright
Journal:  Science       Date:  1998-01-16       Impact factor: 47.728

5.  Stac, a novel neuron-specific protein with cysteine-rich and SH3 domains.

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Journal:  Biochem Biophys Res Commun       Date:  1996-12-24       Impact factor: 3.575

6.  Inhibition of Rb and p53 is insufficient for SV40 T-antigen transformation.

Authors:  K F Sachsenmeier; J M Pipas
Journal:  Virology       Date:  2001-04-25       Impact factor: 3.616

Review 7.  Cellular transformation by SV40 large T antigen: interaction with host proteins.

Authors:  S H Ali; J A DeCaprio
Journal:  Semin Cancer Biol       Date:  2001-02       Impact factor: 15.707

8.  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
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Review 9.  The gene PC3(TIS21/BTG2), prototype member of the PC3/BTG/TOB family: regulator in control of cell growth, differentiation, and DNA repair?

Authors:  F Tirone
Journal:  J Cell Physiol       Date:  2001-05       Impact factor: 6.384

10.  cAMP/phorbol ester response element is involved in transcriptional regulation of the human replacement histone gene H3.3B.

Authors:  O Witt; W Albig; D Doenecke
Journal:  Biochem J       Date:  1998-02-01       Impact factor: 3.857
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  33 in total

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3.  The retinoblastoma tumor suppressor controls androgen signaling and human prostate cancer progression.

Authors:  Ankur Sharma; Wen-Shuz Yeow; Adam Ertel; Ilsa Coleman; Nigel Clegg; Chellappagounder Thangavel; Colm Morrissey; Xiaotun Zhang; Clay E S Comstock; Agnieszka K Witkiewicz; Leonard Gomella; Erik S Knudsen; Peter S Nelson; Karen E Knudsen
Journal:  J Clin Invest       Date:  2010-11-22       Impact factor: 14.808

4.  The microenvironment in hepatocyte regeneration and function in rats with advanced cirrhosis.

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Review 5.  Inflammatory signaling and cellular senescence.

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Journal:  Cell Signal       Date:  2008-10-26       Impact factor: 4.315

6.  Significance of cellular senescence in aging and cancer.

Authors:  Angela Grimes; Sathees B C Chandra
Journal:  Cancer Res Treat       Date:  2009-12-31       Impact factor: 4.679

7.  Stac3 is required for myotube formation and myogenic differentiation in vertebrate skeletal muscle.

Authors:  Neil I Bower; Daniel Garcia de la Serrana; Nicholas J Cole; Georgina E Hollway; Hung-Tai Lee; Stephen Assinder; Ian A Johnston
Journal:  J Biol Chem       Date:  2012-10-17       Impact factor: 5.157

Review 8.  Noncoding RNA control of cellular senescence.

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Journal:  Wiley Interdiscip Rev RNA       Date:  2015-09-01       Impact factor: 9.957

9.  Repression of the SUMO-specific protease Senp1 induces p53-dependent premature senescence in normal human fibroblasts.

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10.  SIRT6 links histone H3 lysine 9 deacetylation to NF-kappaB-dependent gene expression and organismal life span.

Authors:  Tiara L A Kawahara; Eriko Michishita; Adam S Adler; Mara Damian; Elisabeth Berber; Meihong Lin; Ron A McCord; Kristine C L Ongaigui; Lisa D Boxer; Howard Y Chang; Katrin F Chua
Journal:  Cell       Date:  2009-01-09       Impact factor: 41.582
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