Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To confirm whether human cancer-induced stromal cells are derived from bone marrow, bone marrow (BM) cells obtained from beta-galactosidase transgenic and recombination activating gene 1 (RAG-1) deficient double-mutant mice (H-2b) were transplanted into sublethally irradiated severe combined immunodeficient (SCID) mice (H-2d). The human pancreatic cancer cell line Capan-1 was subcutaneously xenotransplanted into SCID recipients and stromal formation was analyzed on day 14 and on day 28. Immunohistochemical and immunofluorescence studies revealed that BM-derived endothelial cells (X-gal/CD31 or H-2b/CD31 double-positive cells) and myofibroblasts (X-gal/alpha-smooth muscle actin or H-2b/alpha-smooth muscle actin double-positive cells) were present within and around the cancer nests. On day 14, the frequencies of BM-derived endothelial cells and BM-derived myofibroblasts were 25.3+/-4.4% and 12.7+/-9.6%, respectively. On day 28, the frequency of BM-derived endothelial cells was 26.7+/-9.7%, which was similar to the value on day 14. However, the frequency of BM-derived myofibroblasts was significantly higher (39.8+/-17.1%) on day 28 than on day 14 (P<0.05). The topoisomerase IIalpha-positive ratio was 2.2+/-1.2% for the H-2b-positive myofibroblasts, as opposed to only 0.3+/-0.4% for the H-2b-negative myofibroblasts, significant proliferative activity was observed in the BM-derived myofibroblasts (P<0.05). Our results indicate that BM-derived myofibroblasts become a major component of cancer-induced stromal cells in the later stage of tumor development.
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PMID:Bone-marrow-derived myofibroblasts contribute to the cancer-induced stromal reaction. 1294 87

In this work, we described the proliferation of human non-small-cell-lung-cancer (NSCLC) cells H1437 harboring p53 alleles (proline-267) can be inhibited by low-dosage topoisomerase II inhibitor etoposide (VP-16) in vitro and in vivo. The cytotoxicity was demonstrated by prolonged cell arrest at G2-M checkpoint exhibiting senescence-like phenotype followed by apoptotic cell death that appeared on the sixth day of VP-16 treatment. The experimental in vivo evidence of growth suppression was also demonstrated in xenograft tumors. The appearance of senescence-like state during extended G2-M phase arrest was indicated by slow proliferation and loss of growth sensitivity in culture accompanied with cellular morphological changes, time-dependent regulation of beta-galactosidase staining as well as distinct reduction of telomerase activity upon protracted VP-16 exposure. Further molecular determinants leading to G2-M cell arrest was also characterized by the concerted up-regulation of cyclin-dependent kinase inhibitors, p16(INK4a) and p21(Waf1/Cipi), beginning 2 days later following drug exposure at both translational and transcriptional levels, while human telomerase reverse transcriptase (hTERT) activities reduced progressively. The clinically important therapeutic agent VP-16-mediated prolonged cell arrest at G2-M phase prior to apoptotic death offered a different perspective in restraining human cancer cells at low drug dosage, thereby serving as an effective telomerase inhibitor as well as an apoptosis effector. The overall results demonstrated that apoptosis can be regulated differently in human NSCLC cells with disrupted p53. Further effort in elucidating G2-M arrest before leading to apoptosis promises to provide an alternative insight in reversing tumorigenic phenotype of human cancers.
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PMID:Etoposide (VP-16) elicits apoptosis following prolonged G2-M cell arrest in p53-mutated human non-small cell lung cancer cells. 1589 59

Cellular resistance to chemotherapeutic agents is attributable to several mechanisms, including alteration of topoisomerase IIa gene expression. Our previous studies have shown that transient transfection with a vector containing either Drosophila or human topoisomerase IIalpha gene into drug-resistant tumor cells enhanced their drug sensitivity. Furthermore, we constructed a recombinant adenovirus, Ad-hTopoIIalpha, containing the human topoisomerase IIa gene that was able to selectively increase etoposide sensitivity in drug-resistant tumor cells. We also examined Ad-hTopoIIalpha for therapeutic efficacy in vitro using additional etoposide-resistant cell lines, including a mouse breast cancer cell line and a human leukemia cell line. The etoposide-resistant mouse breast cancer cell line FvP, which is derived from FM3A, and etoposide-resistant human breast cancer cell line, MDA-VP, which derived from MDA-P cells showed increased sensitivity to etoposide as well as increased expression of human Topoisomerase IIa mRNA, but this was not seen in FM3A and MDA-P cells. On the other hand, the etoposide-resistant human leukemia cell line K562/MX2 and the parental cell line K562/P did not show enhanced sensitivity against etoposide or an increase in human Topoisomerase IIa mRNA. Using a recombinant adenovirus containing beta-galactosidase gene (Ad-beta-gal), K562 cells were not transducted by the recombinant adenovirus, while both etoposide-sensitive FM3A cells and etoposide resistant FvP cells were transducted by recombinant adenovirus. Ad-hTOP2alpha and etopside treatment showed reduced inoculated tumor weight in the mice. We concluded that a recombinant adenovirus containing the human Topoisomerase IIalpha gene might be a powerful tool for overcoming drug resistance in breast cancer cells, but not in leukemia cells.
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PMID:Adenovirus-mediated human topoisomerase IIalpha gene transfer increases the sensitivity of etoposide-resistant human and mouse breast cancer cells. 1607 96

We describe a series of Dictyostelium expression vectors for recombination cloning using the Gateway technology. DNA fragments generated by high fidelity polymerase chain reaction are cloned by topoisomerase-mediated ligation, then recombined into any of several Dictyostelium expression vectors using phage lambda LR recombinase. No restriction enzymes are used in this procedure. Coding regions can be expressed from their own promoters, or from a strong actin 15 promoter as a native protein, or with an amino or carboxyl-terminal GFP fusion. Gene promoters of interest can be analyzed by controlled expression of GFP and beta-galactosidase. These vectors allow for rapid and simple characterization of novel DNA, and are ideal for high-throughput studies.
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PMID:A series of Dictyostelium expression vectors for recombination cloning. 1676 43


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