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Target Concepts:
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Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
mRNA from normal Chinese hamster embryo (CHE) cells was transcribed to cDNA and subtracted with an excess of mRNA from Chinese hamster embryo cells transformed by nickel compounds. Here we report the recovery of a sequence found to be highly homologous to the mouse
thrombospondin 1
gene that was obtained by this subtraction procedure. Since thrombospondin is antiangiogenic, cancer cells expressing high levels of thrombospondin cannot grow in vivo because capillaries will not proliferate to cells secreting thrombospondin. To examine expression of thrombospondin, normal CHE cells were stained with monoclonal antibodies to human thrombospondin. The protein was present abundantly in the cytoplasm of normal cells but at greatly reduced levels in Ni-transformed cells. Analysis of mRNA by Northern (RNA) blot revealed transcripts in normal cells but little thrombospondin mRNA in Ni-transformed cells. Loss of thrombospondin mRNA expression was related to Ni treatment rather than transformation, since Ni-resistant cells also exhibited fewer thrombospondin transcripts than did wild-type cells. Digestion of genomic DNA with various combinations of restriction enzymes revealed thrombospondin gene patterns that were identical in both cell types, suggesting that there were no major deletions or rearrangements of the gene in the nickel-transformed cells. The inactivation of the thrombospondin gene was further investigated by analyzing the promoter activity of this gene linked to a
chloramphenicol acetyltransferase
(
CAT
) reporter plasmid that was transfected into normal and Ni-transformed cells. The
CAT
activity in normal cells was significantly higher than in Ni-transformed cells, suggesting that the promoter region of thrombospondin was less efficiently transcribed in Ni-transformed cells. We studied the consequences of enhanced expression of the retinoblastoma (Rb) gene, a known tumor suppressor gene, on
CAT
transcription driven by the human thrombospondin promoter. Cotransfection of an expression vector containing the mouse Rb gene greatly enhanced the transcription from the thrombospondin promoter such that the expression was higher in normal cells than in transformed cells.
...
PMID:Loss of thrombospondin transcriptional activity in nickel-transformed cells. 826 52
The expression of
thrombospondin 1
(TSP 1), a member of the TSP gene family, is rapidly induced by growth factors. We tested the ability of human TSP 1-
chloramphenicol acetyltransferase
constructs to respond to serum in stably transfected NIH-3T3 cells. Two transcriptional elements in the TSP 1 promoter, a distal element at -1280 and a proximal element at -65, were required for the response of the human TSP 1 gene to serum. The distal element contains the 5'-CC(A + T)6GG-3' consensus sequence characteristic of a serum-response element (SRE). Deletions or mutations in this element reduced the serum response of the TSP 1 gene by 80-90%. In gel-shift assays, the -1280 element and the c-fos SRE cross-competed, whereas their functional and binding mutants did not. The proximal element contains the sequence 5'-GGCCAATGGG-3', which closely resembles the consensus binding motif for the CCAAT-binding factor NF-Y (CBF, CP1, alpha CP1). Deletions or mutations in this element also reduced the serum response by 80-90%. Methylation interference analysis of the -65 region identified a pattern of contacts with nuclear factors resembling that for NF-Y, and an NF-Y-binding site and the proximal TSP 1 element cross-competed in gel-shift assays, whereas their binding mutants did not. Finally, an abbreviated TSP 1 promoter/5'-flank, containing the SRE- and NF-Y-binding sites, mediated a serum response that was close in magnitude to that of the parent promoter. We conclude that the serum response of the human TSP 1 gene requires the coordinated function of an SRE- and NF-Y-binding site.
...
PMID:A serum response element and a binding site for NF-Y mediate the serum response of the human thrombospondin 1 gene. 844 76
