CS Cooper scite author profile

We demonstrate that the cytogenetically de®ned translocation t(X;1)(p11.2;p34) observed in papillary renal cell carcinomas results in the fusion of the splicing factor gene PSF located at 1p34 to the TFE3 helix ± loop ± helix transcription factor gene at Xp11.2. In addition we de®ne an X chromosome inversion inv(X)(p11.2;q12) that results in the fusion of the NonO (p54 nrb ) gene to TFE3. NonO (p54 nrb ), the human homologue of the Drosophila gene NonA diss which controls the male courtship song, is closely related to PSF and also believed to be involved in RNA splicing. In each case the rearrangement results in the fusion of almost the entire splicing factor protein to the TFE3 DNA-binding domain. These observations suggest the possibility of intriguing links between the processes of RNA splicing, DNA transcription and oncogenesis.

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The t(X;1)(p11.2;q21.2) translocation in papillary renal cell carcinoma fuses a novel gene PRCC to the TFE3 transcription factor gene

Sidhar

et al. 1996

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The specific chromosomal translocation t(X;1)(p11.2;q21.2) has been observed in human papillary renal cell carcinomas. In this study we demonstrated that this translocation results in the fusion of a novel gene designated PRCC at 1q21.2 to the TFE3 gene at Xp11.2. TFE3 encodes a member of the basic helix-loop-helix (bHLH) family of transcription factors originally identified by its ability to bind to microE3 elements in the immunoglobin heavy chain intronic enhancer. The translocation is predicted to result in the fusion of the N-terminal region of the PRCC protein, which includes a proline-rich domain, to the entire TFE3 protein. Notably the generation of the chimaeric PRCC-TFE3 gene appears to be accompanied by complete loss of normal TFE3 transcripts. This work establishes that the disruption of transcriptional control by chromosomal translocation is important in the development of kidney carcinoma in addition to its previously established role in the aetiology of sarcomas and leukaemias.

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Telomerase Repressor Sequences on Chromosome 3 and Induction of Permanent Growth Arrest in Human Breast Cancer Cells

Cuthbert¹,

Bond²,

Trott³

et al. 1999

JNCI Journal of the National Cancer Institute

107

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Characterization of the human cell line TE671

Stratton¹,

Darling²,

Pilkington³

et al. 1989

Carcinogenesis

132

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The cell line TE671 has been widely used as a model of human medulloblastoma. In the present study we have demonstrated that transfection of DNA from this cell line into NIH 3T3 cells reveals the presence of an activated N-ras gene. Using oligonucleotide probes we have shown that the N-ras gene is activated by a point mutation at the third base of codon 61 resulting in the substitution of histidine for glutamine in the p21 ras gene product. We noted that this relatively uncommon activating mutation is also present in the human rhabdomyosarcoma cell line RD. Based on this finding and on the observation that several of the phenotypic characteristics of TE671, such as the presence of muscle-type nicotinic acetylcholine receptors and the intermediate filament protein desmin, are suggestive of myoid origin we investigated the possible identity of these two cell lines. Cytogenetic analysis revealed the presence of marker chromosomes common to both TE671 and RD. DNA fingerprinting using both locus specific and multilocus core probes showed indistinguishable band patterns in the two cell lines. Taken together our data show that TE671 and RD are derivatives of the same cell line and we conclude that the properties of the TE671 line should be ascribed to rhabdomyosarcoma rather than medulloblastoma cells.

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An Activated ras ^N Gene: Detected in Late But Not Early Passage Human PA1 Teratocarcinoma Cells

Tainsky¹,

Cooper²,

Giovanella³

et al. 1984

Science

123

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Early passages of the human teratocarcinoma cell line PA1 are not tumorigenic in nude mice, while late passages are. A transforming gene present in late passages of PA1 cells was isolated as a biologically active molecular clone and is a new isolate of the human rasN locus. Its transforming activity is due to a single G---A (G, guanine; A, adenine) point mutation at the codon for amino acid 12 which changes the codon for glycine so that an aspartic acid residue is expressed. In contrast to late passage PA1 cells (passages 106, 330, and 338), DNA from the PA1 cell line at early passages (passage 36) does not yield rasN foci in DNA transfection assays. Thus, the presence of an activated rasN in PA1 cells correlates with enhanced tumorigenicity of the cell line and, more importantly, may have arisen during cell culture in vitro.

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CS Cooper

Fusion of splicing factor genes PSF and NonO (p54nrb) to the TFE3 gene in papillary renal cell carcinoma

The t(X;1)(p11.2;q21.2) translocation in papillary renal cell carcinoma fuses a novel gene PRCC to the TFE3 transcription factor gene

Telomerase Repressor Sequences on Chromosome 3 and Induction of Permanent Growth Arrest in Human Breast Cancer Cells

Characterization of the human cell line TE671

An Activated ras ^N Gene: Detected in Late But Not Early Passage Human PA1 Teratocarcinoma Cells

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CS Cooper

Fusion of splicing factor genes PSF and NonO (p54nrb) to the TFE3 gene in papillary renal cell carcinoma

The t(X;1)(p11.2;q21.2) translocation in papillary renal cell carcinoma fuses a novel gene PRCC to the TFE3 transcription factor gene

Telomerase Repressor Sequences on Chromosome 3 and Induction of Permanent Growth Arrest in Human Breast Cancer Cells

Characterization of the human cell line TE671

An Activated ras N Gene: Detected in Late But Not Early Passage Human PA1 Teratocarcinoma Cells

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Product

Resources

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An Activated ras ^N Gene: Detected in Late But Not Early Passage Human PA1 Teratocarcinoma Cells