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Regulation of matrix metalloproteinase 9 expression by Epstein-Barr virus nuclear antigen 3C and the suppressor of metastasis Nm23-H1.


ABSTRACT: Epstein-Barr virus latent protein EBNA3C has been shown to bind Nm23-H1, a known suppresser of cell migration and metastasis and a regulator of the guanine exchange factor Tiam-1. This interaction results in cellular translocation of Nm23-H1 to the nucleus and suppression of the antimigratory effect in vitro. Furthermore, these proteins can synergistically increase transcription of a basal promoter when targeted to DNA by fusion to a Gal4 DNA binding domain. In this report, we show that EBNA3C and Nm23-H1 can cooperate to upregulate expression of MMP-9, known to be expressed in aggressive forms of lymphomas. This upregulation resulted in increased levels of MMP-9 mRNA, as well as a detectable increase in MMP-9 gelatinolytic activity. Specific mutations in the MMP-9 promoter showed that the Ap1 and NFkappaB binding sites are important for upregulation by the proteins. Additionally, it was shown for the first time that EBNA3C and Nm23-H1 can bind subunits of these transcription factors. This suggests that the ability of EBNA3C to reverse the antimigratory effects of Nm23-H1 is likely to be in part through the synergistic upregulation of MMP-9, mediated through interactions with the AP1 and NFkappaB transcription factors.

SUBMITTER: Kuppers DA 

PROVIDER: S-EPMC1181582 | biostudies-literature | 2005 Aug

REPOSITORIES: biostudies-literature

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Regulation of matrix metalloproteinase 9 expression by Epstein-Barr virus nuclear antigen 3C and the suppressor of metastasis Nm23-H1.

Kuppers Daniel A DA   Lan Ke K   Knight Jason S JS   Robertson Erle S ES  

Journal of virology 20050801 15


Epstein-Barr virus latent protein EBNA3C has been shown to bind Nm23-H1, a known suppresser of cell migration and metastasis and a regulator of the guanine exchange factor Tiam-1. This interaction results in cellular translocation of Nm23-H1 to the nucleus and suppression of the antimigratory effect in vitro. Furthermore, these proteins can synergistically increase transcription of a basal promoter when targeted to DNA by fusion to a Gal4 DNA binding domain. In this report, we show that EBNA3C a  ...[more]

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