Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A panel of 73 samples, including 52 primary breast carcinomas, 10 normal breast tissues and 11 axillary lymph nodes, has been analysed for the presence of amplifications and gross structural alterations, in the oncogenes c-erbB-2, c-erbA, c-myc, N-myc, c-mos and c-Ha-ras. The tumours were also classified, graded and staged histopathologically and their DNA ploidy (42 samples) was determined by flow cytometry. Three breast cancer cell lines (MCF7, ZR-75-1 and T47D) were also included in the study. Amplification of c-erbB-2 was detected in 28% of the tumours, of which 91% had an increased steady-state level of c-erbB-2 mRNA. Amplification of c-erbA was found in 23% of tumours and was always associated with the amplification of c-erbB-2. Ten out of 12 (83%) tumours which had c-erbB-2 and c-erbA co-amplification had metastasised to axillary lymph nodes (P less than 0.006). However, the human thymidine kinase gene, which is present at the same chromosomal location as these two oncogenes (17q21-22), was amplified in only tw tumours. Amplification of c-myc was detected in 21% of the tumours studied, of which 82% (P less than 0.005) were of histopathological grade 3 and none were of grade 1. Flow cytometry showed that 90% (P less than 0.01) of the analysed tumours with c-erbB-2 and c-erbA co-amplification, and 70% (P less than 0.1) of those with c-myc amplification were DNA aneuploid. This study demonstrates the potential value of c-myc amplification in the assessment of the tumour grade, rather than metastatic potential; and of the co-amplification of c-erbB-2 and c-erbA as a strong indicator of metastatic potential, rather than tumour grade.
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PMID:c-erbB-2/c-erbA co-amplification indicative of lymph node metastasis, and c-myc amplification of high tumour grade, in human breast carcinoma. 257 68

Thymidine kinase negative mouse (LATK-) and hamster (BHKTK-) cells were transfected with a recombinant plasmid (pTK1) carrying the thymidine kinase gene of HSV-1 by iontophoretic pricking or iontophoretic microinjection techniques. Transfection frequencies were measured using short term survival and long term transformation assays and were found to be at the level of 10 to 15% and 1 to 2% respectively for mouse or hamster cells transfected with pTK1. The presence of covalently linked transcriptional enhancers from SV40 or Moloney MSV increased long term transformation frequencies approximately 10-fold. Transfection by iontophoretic pricking of non-tumorigenic mouse (NIH3T3) or hamster (BHKC13) cells with a recombinant (pAGT1) carrying the human T24 Ha-ras1 oncogene and the bacterial aminoglycoside phosphotransferase (aph) gene as a selectable marker resulted in transformation of these cells. Southern blot hybridization analyses demonstrated the presence of circular, integrated or rearranged donor DNA molecules in the transformed cells. These gene transfer techniques and iontophoretic pricking in particular should be useful for the transfection of a variety of cell lines and markers.
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PMID:Transformation of mammalian cell by iontophoretic pricking or iontophoretic microinjection. 299 79

A region upstream from the mouse c-mos proto-oncogene, termed upstream mouse sequence (UMS), prevents expression of mos transforming activity. Previous studies suggested that the UMS prevented transcription readthrough. In this study, we constructed a recombinant DNA clone, pHTS3MS, with the UMS inserted downstream from both the mos gene and a truncated long terminal repeat containing only the U3 enhancer region. In this position UMS did not inhibit mos transforming activity. We examined cells transformed by pHTS3MS for RNA expression. S1 nuclease analysis showed that the UMS provides two polyadenylation signals to mos-containing RNA and nuclear run-on transcription showed that the primary transcripts terminate in UMS. In addition, using portions of the UMS, we found that a 360-bp fragment containing the UMS polyadenylation signals and sites inserted between the herpes simplex virus type 1 (HSV-1) thymidine kinase gene (tk) and its promoter inhibits tk transforming activity by 99% and prevents detectable expression of this construct in transient expression assays. Thus, the UMS must contain signals for polyadenylation and appears to function as a transcription terminator.
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PMID:Sequences upstream from the mouse c-mos oncogene may function as a transcription termination signal. 301 57

We used the mouse mammary tumor virus long terminal repeat to promote dexamethasone-regulated expression of the Moloney murine sarcoma virus (M-MSV) transforming gene, v-mos. A recombinant DNA vector containing the mouse mammary tumor virus long terminal repeat fused to the M-MSV 124 v-mos gene was cotransfected with a plasmid containing the herpes simplex virus thymidine kinase gene (tk) into 3T3TK- cells. Individual clones of cells which grew in hypoxanthine-aminopterin-thymidine medium were tested for dexamethasone-regulated expression of p37mos as well as several transformation-specific phenotypic parameters. In the absence of dexamethasone, the v-mos transfectants appeared morphologically similar to the control cells despite low basal levels of p37mos expression. Upon hormone treatment, the levels of p37mos increased 5- to 10-fold, coincident with morphological changes typical of M-MSV transformation of 3T3 cells. The ability to form foci in monolayers also correlated with p37mos induction. The extent of morphological changes varied in individual clones of cells with similar levels of induced p37mos. Although the induced levels of p37mos were comparable to those seen in stable M-MSV 124 virus-transformed NIH 3T3 cells, the transfectants were unable to grow in soft agar under conditions which support growth of the virus-transformed cells. Acute infection of the transfectants with M-MSV 124 virus, a situation which resulted in elevated levels of p37mos, allowed these cells to grow in soft agar. The results described in this paper suggest that different threshold levels of p37mos may be necessary for the expression of various parameters of the transformed phenotype and also that continued expression of p37mos is necessary for maintenance of the transformed state. However, it also appears that the sensitivity to given levels of p37mos varies among clonal cell lines.
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PMID:Use of the mouse mammary tumor virus long terminal repeat to promote steroid-inducible expression of v-mos. 609 68

Current methodologies that monitor immune responses rely on invasive techniques that sample tissues at a given point in time. New technologies are needed to elucidate the temporal patterns of immune responses and the spatial distribution of immune cells on a whole-body scale. We describe a noninvasive, quantitative, and tomographic approach to visualize a primary anti-tumor immune response by using positron emission tomography (PET). Bone marrow chimeric mice were generated by engraftment of hematopoietic stem and progenitor cells transduced with a trifusion reporter gene encoding synthetic Renilla luciferase (hRluc), EGFP, and Herpes virus thymidine kinase (sr39TK). Mice were challenged with the Moloney murine sarcoma and leukemia virus complex (M-MSV/M-MuLV), and the induced immune response was monitored by using PET. Hematopoietic cells were visualized by using 9-[4-[(18)F]fluoro-3-(hydroxymethyl)butyl]guanine ([(18)F]FHBG), a radioactive substrate specific for the sr39TK PET reporter protein. Immune cell localization and expansion were seen at the tumor and draining lymph nodes (DLNs). 2-[(18)F]fluoro-2-deoxy-D-glucose ([(18)F]FDG), which is sequestered in metabolically active cells, was used to follow tumor growth and regression. Elevated glucose metabolism was also seen in activated lymphocytes in the DLNs by using the [(18)F]FDG probe. When M-MSV/M-MuLV-challenged mice were treated with the immunosuppressive drug dexamethasone, activation and expansion of immune cell populations in the DLNs could no longer be detected with PET imaging. The method we describe can be used to kinetically measure the induction and therapeutic modulations of cell-mediated immune responses.
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PMID:Visualization of a primary anti-tumor immune response by positron emission tomography. 1629 90