Lauren A. Matise scite author profile

Dmp1 (Dmtf1) is activated by oncogenic Ras-Raf signaling and induces cell-cycle arrest in an Arf, p53-dependent fashion. The survival of K-ras(LA) mice was shortened by approximately 15 weeks in both Dmp1(+/-) and Dmp1(-/-) backgrounds, the lung tumors of which showed significantly decreased frequency of p53 mutations compared to Dmp1(+/+). Approximately 40% of K-ras(LA) lung tumors from Dmp1(+/+) mice lost one allele of the Dmp1 gene, suggesting the primary involvement of Dmp1 in K-ras-induced tumorigenesis. Loss of heterozygosity (LOH) of the hDMP1 gene was detectable in approximately 35% of human lung carcinomas, which was found in mutually exclusive fashion with LOH of INK4a/ARF or that of P53. Thus, DMP1 is a pivotal tumor suppressor for both human and murine lung cancers.

show abstract

Expression of Dmp1 in specific differentiated, nonproliferating cells and its regulation by E2Fs

Mallakin

Taneja

Matise

et al. 2006

Oncogene

View full text Add to dashboard Cite

Lack of transforming growth factor-β signaling promotes collective cancer cell invasion through tumor-stromal crosstalk

et al. 2012

View full text Add to dashboard Cite

IntroductionTransforming growth factor beta (TGF-β) has a dual role during tumor progression, initially as a suppressor and then as a promoter. Epithelial TGF-β signaling regulates fibroblast recruitment and activation. Concurrently, TGF-β signaling in stromal fibroblasts suppresses tumorigenesis in adjacent epithelia, while its ablation potentiates tumor formation. Much is known about the contribution of TGF-β signaling to tumorigenesis, yet the role of TGF-β in epithelial-stromal migration during tumor progression is poorly understood. We hypothesize that TGF-β is a critical regulator of tumor-stromal interactions that promote mammary tumor cell migration and invasion.MethodsFluorescently labeled murine mammary carcinoma cells, isolated from either MMTV-PyVmT transforming growth factor-beta receptor II knockout (TβRII KO) or TβRIIfl/fl control mice, were combined with mammary fibroblasts and xenografted onto the chicken embryo chorioallantoic membrane. These combinatorial xenografts were used as a model to study epithelial-stromal crosstalk. Intravital imaging of migration was monitored ex ovo, and metastasis was investigated in ovo. Epithelial RNA from in ovo tumors was isolated by laser capture microdissection and analyzed to identify gene expression changes in response to TGF-β signaling loss.ResultsIntravital microscopy of xenografts revealed that mammary fibroblasts promoted two migratory phenotypes dependent on epithelial TGF-β signaling: single cell/strand migration or collective migration. At epithelial-stromal boundaries, single cell/strand migration of TβRIIfl/fl carcinoma cells was characterized by expression of α-smooth muscle actin and vimentin, while collective migration of TβRII KO carcinoma cells was identified by E-cadherin+/p120+/β-catenin+ clusters. TβRII KO tumors also exhibited a twofold greater metastasis than TβRIIfl/fl tumors, attributed to enhanced extravasation ability. In TβRII KO tumor epithelium compared with TβRIIfl/fl epithelium, Igfbp4 and Tspan13 expression was upregulated while Col1α2, Bmp7, Gng11, Vcan, Tmeff1, and Dsc2 expression was downregulated. Immunoblotting and quantitative PCR analyses on cultured cells validated these targets and correlated Tmeff1 expression with disease progression of TGF-β-insensitive mammary cancer.ConclusionFibroblast-stimulated carcinoma cells utilize TGF-β signaling to drive single cell/strand migration but migrate collectively in the absence of TGF-β signaling. These migration patterns involve the signaling regulation of several epithelial-to-mesenchymal transition pathways. Our findings concerning TGF-β signaling in epithelial-stromal interactions are important in identifying migratory mechanisms that can be targeted as recourse for breast cancer treatment.

show abstract

Repression of Dmp1 and Arf transcription by anthracyclins: critical roles of the NF-κB subunit p65

et al. 2007

View full text Add to dashboard Cite

Both genotoxic and oncogenic stress activates the nuclear factor-kappa B (NF-jB) and p53 proteins; however, the p53 activity is antagonized by NF-jB signaling. Dmp1 is a Myb-like transcription factor that activates the Arf-p53 pathway. The Dmp1 promoter was activated by a classical NF-jB activator tumor necrosis factor a, but repressed by treatment of cells with non-classical NF-jB activators, anthracyclins and UV-C. p65 and other subsets of NF-jB proteins were bound to the Dmp1 promoter following anthracyclin/UV-C treatment of rodent fibroblasts. This resulted in the downregulation of Dmp1 mRNA and protein. Repression of the Dmp1 transcription by anthracyclins depended on the unique NF-jB site on the promoter. Downregulation of p65 significantly attenuated the repression of the Dmp1 promoter by anthracyclins/ UV-C. The amount of Dmp1 bound to the Arf promoter decreased significantly upon anthracyclin treatment; this, in turn, downregulated the Arf levels. Repression of the Arf promoter by p65 or anthracyclins depended on Dmp1, which was significantly attenuated in Dmp1 À/À cells. Both Dmp1 À/À and Arf À/À cells showed resistance to anthracyclininduced cell death compared to wild-type cells; non-immortalized p65-knockdown cells were much more sensitive. Thus, the Dmp1-Arf pathway is repressed by p65 in response to genotoxic stress, which implicates a novel mechanism of p53 inactivation by NF-jB.

show abstract

The Arf‐inducing transcription factor Dmp1 encodes a transcriptional activator of amphiregulin, thrombospondin‐1, JunB and Egr1

Mallakin

Sugiyama

Kai

et al. 2009

Intl Journal of Cancer

View full text Add to dashboard Cite

Dmp1 (Dmtf1) encodes a Myb‐like transcription factor implicated in tumor suppression through direct activation of the Arf‐p53 pathway. The human DMP1 gene is frequently deleted in non‐small cell lung cancers, especially those that retain wild‐type INK4a/ARF and/or p53. To identify novel genes that are regulated by Dmp1, transcriptional profiles of lung tissue from Dmp1‐null and wild‐type mice were generated using the GeneChip Microarray. Comparative analysis of gene expression changes between the two groups resulted in identification of numerous genes that may be regulated by Dmp1. Notably, amphiregulin (Areg), thrombospondin‐1 (Tsp‐1), JunB, Egr1, adrenomedullin (Adm), Bcl‐3 and methyl‐CpG binding domain protein 1 (Mbd1) were downregulated in the lungs from Dmp1‐null mice while Gas1 and Ect2 genes were upregulated. These target genes were chosen for further analyses since they are involved in cell proliferation, transcription, angiogenesis/metastasis, apoptosis, or DNA methylation, and thus could account for the tumor suppressor phenotype of Dmp1. Dmp1 directly bound to the genomic loci of Areg, Tsp‐1, JunB and Egr1. Significant upregulation or downregulation of the novel Dmp1 target genes was observed upon transient expression of Dmp1 in alveolar epithelial cells, an effect which was nullified by the inhibition of de novo mRNA synthesis. Interestingly, these genes and their protein products were significantly downregulated or upregulated in the lungs from Dmp1‐heterozygous mice as well. Identification of novel Dmp1 target genes not only provides insights into the effects of Dmp1 on global gene expression, but also sheds light on the mechanism of haploid insufficiency of Dmp1 in tumor suppression.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Lauren A. Matise

Mutually Exclusive Inactivation of DMP1 and ARF/p53 in Lung Cancer

Expression of Dmp1 in specific differentiated, nonproliferating cells and its regulation by E2Fs

Lack of transforming growth factor-β signaling promotes collective cancer cell invasion through tumor-stromal crosstalk

Repression of Dmp1 and Arf transcription by anthracyclins: critical roles of the NF-κB subunit p65

The Arf‐inducing transcription factor Dmp1 encodes a transcriptional activator of amphiregulin, thrombospondin‐1, JunB and Egr1

Contact Info

Product

Resources

About