Literature DB >> 11678607

Arsenic-induced NFkappaB transactivation through Erks- and JNKs-dependent pathways in mouse epidermal JB6 cells.

C Huang1, J Li, M Ding, L Wang, X Shi, V Castranova, V Vallyathan, G Ju, M Costa.   

Abstract

Tumor promoting effects of arsenic are believed to be associated with its transactivation activity on transcription factors, such as AP-1 and NFkappaB. However, the results from different groups studying the effects of arsenic on NFkappaB activation are contradictory in different cell models. Since arsenic is a strong skin carcinogen, we have investigated the activation of NFkappaB by arsenic in a mouse skin epidermal cell line, JB6 cells. Exposure of cells to arsenite or arsenate led to NFkappaB transactivation in mouse epidermal JB6 NFkappaB-luciferase reporter stable transfectants, C141 NFkappaB mass1. This induction of NFkappaB activity by arsenic was dose- and time-dependent. The transactivation of NFkappaB by arsenic appeared to be through activation of Erks and JNKs pathways because increased NFkappaB activity by arsenic could be dramatically inhibited by either pre-treatment of cells with PD98059 or overexpression of dominant negative JNK1. That Erks activation is required for arsenic-induced NFkappaB transactivation was further supported by the findings that arsenic-induced NFkappaB transactivation was impaired in JB6 30.7b cells, which were deficient in Erks.

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Year:  2001        PMID: 11678607

Source DB:  PubMed          Journal:  Mol Cell Biochem        ISSN: 0300-8177            Impact factor:   3.396


  32 in total

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Journal:  Genes Dev       Date:  1992-04       Impact factor: 11.361

Review 3.  NF-kappa B and Rel proteins: evolutionarily conserved mediators of immune responses.

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Journal:  Annu Rev Immunol       Date:  1998       Impact factor: 28.527

4.  Vanadium induces AP-1- and NFkappB-dependent transcription activity.

Authors:  C Huang; N Chen; W Y Ma; Z Dong
Journal:  Int J Oncol       Date:  1998-10       Impact factor: 5.650

Review 5.  Mechanisms of arsenic carcinogenicity: genetic or epigenetic mechanisms?

Authors:  P P Simeonova; M I Luster
Journal:  J Environ Pathol Toxicol Oncol       Date:  2000       Impact factor: 3.567

6.  Activation of PKC is required for arsenite-induced signal transduction.

Authors:  N Y Chen; W Y Ma; C Huang; M Ding; Z Dong
Journal:  J Environ Pathol Toxicol Oncol       Date:  2000       Impact factor: 3.567

7.  Shortage of mitogen-activated protein kinase is responsible for resistance to AP-1 transactivation and transformation in mouse JB6 cells.

Authors:  C Huang; W Y Ma; M R Young; N Colburn; Z Dong
Journal:  Proc Natl Acad Sci U S A       Date:  1998-01-06       Impact factor: 11.205

8.  Arsenic mediates cell proliferation and gene expression in the bladder epithelium: association with activating protein-1 transactivation.

Authors:  P P Simeonova; S Wang; W Toriuma; V Kommineni; J Matheson; N Unimye; F Kayama; D Harki; M Ding; V Vallyathan; M I Luster
Journal:  Cancer Res       Date:  2000-07-01       Impact factor: 12.701

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Authors:  L R Bernstein; N H Colburn
Journal:  Science       Date:  1989-05-05       Impact factor: 47.728

Review 10.  Physiological and toxicological changes in the skin resulting from the action and interaction of metal ions.

Authors:  A B Lansdown
Journal:  Crit Rev Toxicol       Date:  1995       Impact factor: 5.635
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  21 in total

Review 1.  Molecular Mechanisms of Arsenic-Induced Disruption of DNA Repair.

Authors:  Lok Ming Tam; Nathan E Price; Yinsheng Wang
Journal:  Chem Res Toxicol       Date:  2020-02-07       Impact factor: 3.739

2.  Heat shock protein 70 as an indicator of early lung injury caused by exposure to arsenic.

Authors:  Sung Gu Han; Vince Castranova; Val Vallyathan
Journal:  Mol Cell Biochem       Date:  2005-09       Impact factor: 3.396

3.  Phase 0 of the Xenobiotic Response: Nuclear Receptors and Other Transcription Factors as a First Step in Protection from Xenobiotics.

Authors:  William S Baldwin
Journal:  Nucl Receptor Res       Date:  2019-11-20

4.  The ATP-binding cassette transporter ABCB6 is induced by arsenic and protects against arsenic cytotoxicity.

Authors:  Hemantkumar Chavan; Mahitha Oruganti; Partha Krishnamurthy
Journal:  Toxicol Sci       Date:  2011-01-25       Impact factor: 4.849

5.  Low levels of arsenite activates nuclear factor-kappaB and activator protein-1 in immortalized mesencephalic cells.

Authors:  Kumar Felix; Sunil K Manna; Kimberly Wise; Johnny Barr; Govindarajan T Ramesh
Journal:  J Biochem Mol Toxicol       Date:  2005       Impact factor: 3.642

6.  Metal composition and solubility determine lung toxicity induced by residual oil fly ash collected from different sites within a power plant.

Authors:  James M Antonini; Michael D Taylor; Stephen S Leonard; Nicholas J Lawryk; Xianglin Shi; Robert W Clarke; Jenny R Roberts
Journal:  Mol Cell Biochem       Date:  2004-01       Impact factor: 3.396

Review 7.  Molecular mechanisms of arsenic carcinogenesis.

Authors:  Chuanshu Huang; Qingdong Ke; Max Costa; Xianglin Shi
Journal:  Mol Cell Biochem       Date:  2004-01       Impact factor: 3.396

8.  The NRF2-mediated oxidative stress response pathway is associated with tumor cell resistance to arsenic trioxide across the NCI-60 panel.

Authors:  Qian Liu; Hao Zhang; Lisa Smeester; Fei Zou; Matt Kesic; Ilona Jaspers; Jingbo Pi; Rebecca C Fry
Journal:  BMC Med Genomics       Date:  2010-08-13       Impact factor: 3.063

9.  Arsenic trioxide suppresses paclitaxel-induced mitotic arrest.

Authors:  Q Duan; E Komissarova; W Dai
Journal:  Cell Prolif       Date:  2009-04-24       Impact factor: 6.831

Review 10.  Ultraviolet B regulation of transcription factor families: roles of nuclear factor-kappa B (NF-kappaB) and activator protein-1 (AP-1) in UVB-induced skin carcinogenesis.

Authors:  S J Cooper; G T Bowden
Journal:  Curr Cancer Drug Targets       Date:  2007-06       Impact factor: 3.428
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