Supplementary Figure 1 from Computational Identification of a p38<sup>SAPK</sup>-Regulated Transcription Factor Network Required for Tumor Cell Quiescence
Supplementary Figure Legends: Added 7-15-09 from Computational Identification of a p38<sup>SAPK</sup>-Regulated Transcription Factor Network Required for Tumor Cell Quiescence
Supplementary Figure 3 from Computational Identification of a p38<sup>SAPK</sup>-Regulated Transcription Factor Network Required for Tumor Cell Quiescence
Supplementary Table Legend from Computational Identification of a p38<sup>SAPK</sup>-Regulated Transcription Factor Network Required for Tumor Cell Quiescence
Elevated manganese superoxide dismutase (Sod2) levels have been reported to be associated with an increased frequency of tumor invasion and metastasis in certain cancers, and the aim of this study is to examine the molecular mechanisms by which this occurs.Sod2 and catalase overexpressing HT-1080 fibrosarcoma cell lines were used to evaluate the H(2)O(2)-dependent regulation of matrix metalloproteinase (MMP)-1 promoter activity, mitogen-activated protein (MAP) kinase signaling, DNA-binding activity, and MMP mRNA levels. The invasive and metastatic potential of Sod2 overexpressing cells was characterized using subrenal capsular implantation or tail vein injection of tumor cells into nude mice, respectively.Our data reveal that Sod2 overexpression increases the DNA-binding activity of transcription factors critical for MMP expression but also enhances MMP-1 promoter activity via the Ras//MAP/extracellular signal-regulated kinase (MEK) signaling cascade. A single nucleotide polymorphism that creates an Ets site at position -1607 bp confers Sod2-dependent MMP-1 promoter activity. Sod2 overexpression also increases the mRNA levels of MMPs-2, -3, -7, -10, -9, -11 and enhances the metastatic potential of fibrosarcoma cells when implanted in immunodeficient mice. The Sod2-dependent increases in AP-1 and SP-1 DNA-binding activity, MMP-1 promoter activity, general MMP expression, and collagen degradation can be reversed by the hydrogen peroxide-detoxifying enzyme, catalase.MMPs play a critical role in the process of stromal invasion and metastasis, and these findings suggest that the association between increased Sod2 and poor prognosis in certain cancers may be attributed to elevated MMP production.
<div>Abstract<p>The stress-activated kinase p38 plays key roles in tumor suppression and induction of tumor cell dormancy. However, the mechanisms behind these functions remain poorly understood. Using computational tools, we identified a transcription factor (TF) network regulated by p38α/β and required for human squamous carcinoma cell quiescence <i>in vivo</i>. We found that p38 transcriptionally regulates a core network of 46 genes that includes 16 TFs. Activation of p38 induced the expression of the TFs p53 and BHLHB3, while inhibiting c-Jun and FoxM1 expression. Furthermore, induction of p53 by p38 was dependent on c-Jun down-regulation. Accordingly, RNAi down-regulation of BHLHB3 or p53 interrupted tumor cell quiescence, while down-regulation of c-Jun or FoxM1 or overexpression of BHLHB3 in malignant cells mimicked the onset of quiescence. Our results identify components of the regulatory mechanisms driving p38-induced cancer cell quiescence. These may regulate dormancy of residual disease that usually precedes the onset of metastasis in many cancers. [Cancer Res 2009;69(14):5664–72]</p></div>
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