A Transcriptionally Inactive ATF2 Variant Drives Melanomagenesis

Abstract

Melanoma is one of the most lethal cutaneous malignancies, characterized by chemoresistance and a striking propensity to metastasize. The transcription factor ATF2 elicits oncogenic activities in melanoma, and its inhibition attenuates melanoma development. Here, we show that expression of a transcriptionally inactive form of Atf2 (Atf2(Δ8,9)) promotes development of melanoma in mouse models. Atf2(Δ8,9)-driven tumors show enhanced pigmentation, immune infiltration, and metastatic propensity. Similar to mouse Atf2(Δ8,9), we have identified a transcriptionally inactive human ATF2 splice variant 5 (ATF2(SV5)) that enhances the growth and migration capacity of cultured melanoma cells and immortalized melanocytes. ATF2(SV5) expression is elevated in human melanoma specimens and is associated with poor prognosis. These findings point to an oncogenic function for ATF2 in melanoma development that appears to be independent of its transcriptional activity.

Keywords

MelanomaTranscription factorCancer researchBiologyTranscription (linguistics)Transcriptional activityCell biologyGeneGenetics

Affiliated Institutions

Related Publications

A Role for ATF2 in Regulating MITF and Melanoma Development

Meera Shah , Anindita Bhoumik , Vikas Goel +15 more

The transcription factor ATF2 has been shown to attenuate melanoma susceptibility to apoptosis and to promote its ability to form tumors in xenograft models. To directly assess ...

2010 PLoS Genetics 79 citations

Chronic growth stimulation of human adult melanocytes by inflammatory mediators in vitro: implications for nevus formation and initial steps in melanocyte oncogenesis.

Estela E. Medrano , Jamal Farooqui , Raymond E. Boissy +3 more

In the human epidermis, melanocytes are distributed at a distance from each other. In contrast, melanocytes in nevi, which are considered benign neoplasms of melanocytes, are gr...

1993 Proceedings of the National Academy o... 41 citations

The tumorigenic and angiogenic effects of MGSA/GRO proteins in melanoma

Hamid Haghnegahdar , Jianguo Du , DingZhi Wang +7 more

Abstract Continuous expression of the MGSA/GROα, β, or γ chemokine bestows tumor-forming capacity to the immortalized murine melanocyte cell line, melan-a. The mechanism for thi...

2000 Journal of Leukocyte Biology 179 citations

Loss of methylation activates Xist in somatic but not in embryonic cells.

Caroline Beard , E Li , Rudolf Jaenisch

The mouse Xist gene, which is expressed only from the inactive X chromosome, is thought to play a role in the initiation of X inactivation. The 5' end of this gene is fully meth...

1995 Genes & Development 298 citations

miR-200b mediates post-transcriptional repression of ZFHX1B

Nanna R. Christoffersen , Asli Silahtaroglu , Ulf Andersson Ørom +2 more

MicroRNAs have important functions during animal development and homeostasis through post-transcriptional regulation of their cognate mRNA targets. ZFHX1B is a transcriptional r...

2007 RNA 167 citations

Publication Info

Year: 2016
Type: article
Volume: 15
Issue: 9
Pages: 1884-1892
Citations: 19
Access: Closed

External Links

View on DOI.org

Social Impact

Altmetric

A Transcriptionally Inactive ATF2 Variant Drives Melanomagenesis

PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

OpenAlex

Cite This

APA Style

                            
                                
                                    Giuseppina Claps, 
                                
                                    Yann Chéli, 
                                
                                    Tongwu Zhang
                                
                                et al.
                            
                            (2016). 
                            A Transcriptionally Inactive ATF2 Variant Drives Melanomagenesis. 
                            Cell Reports
                            , 15
                            (9)
                            , 1884-1892.
                            https://doi.org/10.1016/j.celrep.2016.04.072
                        

Identifiers

DOI: 10.1016/j.celrep.2016.04.072