Nicole Montreau scite author profile

The sequence‐specific transcription factor c‐Jun displays oncogenic potential in mammalian cells either in cooperation with activated Ras in primary embryonic fibroblasts or alone in established cell lines. Although pathways for signal transduction leading to activation of c‐Jun proteins have been extensively studied, little is known about the events downstream of c‐Jun stimulation. We isolated cellular genes that are targets of c‐Jun by differential screening of a cDNA library from primary rat embryo fibroblasts. Two transcripts with sequences similar to known genes were repressed following transitory expression of a c‐Jun‐encoding vector. They correspond to the SPARC and thrombospondin 1 (TS1) genes, encoding extracellular matrix proteins. These genes are tightly regulated during embryogenesis and in adult tissues and are involved in the control of cell growth. c‐Jun transitory repression of these two genes was demonstrated both in primary cells and in FR3T3, an established fibroblast cell line. The repression was also detected in FR3T3 derivatives stably transformed by c‐Jun or Ras. Although c‐Jun regulation of the TS1 gene was found at the promoter level, preliminary results strongly suggest that repression of SPARC and TS1 gene expression are mediated by a secreted factor. In contrast, expression of these genes was unaffected by transformation with oncogenes from DNA viruses. Our results identify new, specific, probably indirect c‐Jun target genes and suggest previously unsuspected regulatory roles for SPARC and thrombospondin in the control of cell growth.

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Common features of polyomavirus mutants selected on PCC4 embryonal carcinoma cells.

Melin¹,

Pinon²,

Reiss

et al. 1985

The EMBO Journal

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The genomic rearrangements of six polyomavirus mutants selected on PCC4 embryonal carcinoma cells have been compared and their common characteristics pointed out. All mutants show a duplication which includes at least the adenovirus type 5 (Ad5) ElA-like enhancer core sequence plus a deletion of variable size and location. The presence of the second enhancer core sequence, the SV40-like enhancer, is not required for expression of the PyEC PCC4 phenotype. Two of these mutants are also able to express polyomavirus T antigen on F9 and LT1 cells. Multiadaptation seems to require the duplication of the Ad5 ElA-like core sequence, the maintenance of the SV40-like core sequence and a local change in DNA stability.

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Stepwise Transformation of Rat Embryo Fibroblasts: c-Jun, JunB, or JunD Can Cooperate with Ras for Focus Formation, but a c-Jun-Containing Heterodimer Is Required for Immortalization

Vandel

Montreau

Vial

et al. 1996

Molecular and Cellular Biology

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Among the Jun family of transcription factors, only c-Jun displays full transforming potential in cooperation with activated c-Ha-Ras in primary rat embryo fibroblasts. c-Jun in combination with Ras can both induce foci of transformed cells from rat embryo fibroblast monolayers and promote the establishment of these foci as tumoral cell lines. JunB can also cooperate with Ras to induce foci but is unable to promote immortalization. We report here that JunD, in cooperation with Ras, induces foci with an efficiency similar to that of JunB. Artificial Jun/eb1 derivatives from each of the three Jun proteins were also analyzed. These constructs carry a heterologous homodimerization domain from the viral EB1 transcription factor and are thought to form only homodimers in the cell. We show here that these Jun/eb1 chimeras are potent transactivators of AP1 sites and that they can cooperate with c-Ha-Ras to induce foci. However, among all the Ras-Jun and Ras-Jun/eb1 combinations tested, only foci from Ras-c-Jun can be efficiently expanded and maintained as long-term growing cultures. Therefore, we suggest that a heterodimer containing c-Jun might be required for in vitro establishment of these primary mammalian cells.

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Nicole Montreau

Polyoma DNA sequences involved in control of viral gene expression in murine embryonal carcinoma cells

SPARC and thrombospondin genes are repressed by the c-jun oncogene in rat embryo fibroblasts.

Common features of polyomavirus mutants selected on PCC4 embryonal carcinoma cells.

Stepwise Transformation of Rat Embryo Fibroblasts: c-Jun, JunB, or JunD Can Cooperate with Ras for Focus Formation, but a c-Jun-Containing Heterodimer Is Required for Immortalization

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