A protoplast fusion method was developed to stably transfect human cells with pSV2-derived plasmids at frequencies greater than 10$^{-3}$. This procedure made it possible to test the biological ...effect of a hepatitis B virus (HBV) gene independent of the viral structures required for infection. A pSV2gpt$^{+}$ plasmid constructed to carry a subgenomic fragment of HBV that contained the core antigen gene (HBc gene) was transfected into human cells. A human epithelial cell line was stably transfected with the HBc$^{+}$ gene by selecting recipient cells for expression of guanine phosphoribosyl transferase expression. With this gpt$^{+}$/HBc$^{+}$ cell line it was shown that growth in serum-free medium or treatment with 5′-azacytidine stimulates the production of the HBV core antigen. A hepatocellular carcinoma carrying the entire HBV genome was stimulated to produce the HBc gene product in response to the same factors that stimulated HBcAg production in the gpt$^{+}$/HBc$^{+}$ cell line constructed by transfection. The temporal relation between the cytopathologic response and HBc gene expression was similar for both cell types, indicating a primary role for HBc gene expression in the cytopathology of HBV-infected human liver.
The L-myc and p53 genes have been implicated in lung cancer. Both of these genes have restriction fragment length polymorphisms (RFLPs) that could account for differential expression or activity of ...variant forms. An EcoRI restriction site in the L-myc gene was previously reported to be a predictor of poor prognosis in Japanese lung cancer patients. There are several RFLPs in the p53 gene. In exon 4 there is a polymorphism that codes for either an arginine or proline residue at codon 72. We previously reported the frequency of DNA-RFLPs at these gene loci revealed by EcoRI and AccII respectively. Here we report results from a study comparing lung cancer cases (n = 31) with chronic obstructive pulmonary disease controls (n = 49). No association was found between these RFLPs and disease status. Previous observations that the frequencies of these RFLPs varied by race were confirmed. The p53 arginine allele was found to be more common in Caucasians (0.71) than African-Americans (0.50). The EcoRI restriction site present allele in L-myc was more frequent in African-Americans (0.71) than Caucasians (0.49). Thus, the allelic frequency for L-myc was similar in African-Americans to that reported for Japanese, and the allelic frequency for p53 was similar in Caucasians to that reported for Japanese.
Hybrid cell lines between HuT292-DM, a human lung carcinoma line resistant to 6-thioguanine and ouabain, and either normal human bronchial epithelial cells (NHBE) or an SV40 "immortalized" but ...nontumorigenic derivative thereof (BEAS-2B), have been isolated by double selection. Hybrids of NHBE and HuT292-DM cells senesced after 40-43 population doublings in culture. In contrast, hybrids of BEAS-2B and HuT292-DM showed no sign of a culture "crisis" and have an indefinite life span. HuT292-DM cells produced tumors in 100% of athymic nude mice with a mean latency of 27 days, whereas tumorigenicity was totally suppressed in 76% of the BEAS-2B x HuT292-DM hybrids, with a 2- to 3-fold increased tumor latency in the remaining 24% of these hybrids. While the hybrids are hypotriploid to hypotetraploid, the parental lines are hypodiploid. The growth of HuT292-DM cells is stimulated, whereas NHBE and BEAS-2B cells are inhibited by serum. The growth response of the BEAS-2B x HuT292-DM hybrids to serum is similar to that of HuT292-DM cells. Thus, tumorigenicity and culture longevity are dominantly controlled by the nontumorigenic parent (NHBE or BEAS-2B). On the other hand, serum responsiveness is more similar to that of the tumorigenic parent (HuT292-DM).
Normal human esophageal autopsy tissue was explanted in serum-free medium. The epithelial outgrowths were subcultured and then transfected by strontium phosphate coprecipitation with plasmid pRSV-T ...consisting of the RSV-LTR promoter and the sequence encoding the simian virus 40 large T-antigen. The transfected cells, but not the sham-transfected controls, formed multilayered colonies within 3-4 weeks, after which the colonies were transferred and cell strains (HE-451 and HE-457) developed. Both cell strains grew exponentially for 8-10 weeks and then senesced. After a "crisis" of 6-8 months, growth resumed in isolated colonies. One line, HET-1A from HE-457, was developed and has now undergone more than 250 population doublings. This line has retained epithelial morphology, stains positively for cytokeratins and the simian virus 40 T-antigen gene by immunofluorescence, and has remained nontumorigenic in athymic, nude mice for more than 12 months. Karyotypic analysis by Giemsa banding has shown that HET-1A is hypodiploid (34-40 chromosomes). Growth factor studies have shown that HET-1A is stimulated by Ca2+, and inhibited by fetal bovine serum, transforming growth factor-beta 1, and transforming growth factor-beta 2. This serum-free immortalized esophageal cell system will be useful for investigating the action of putative esophageal carcinogens.
NO produced in tumors can either positively or negatively regulate growth. To examine this dichotomy, effects of NO concentration and duration on the posttranslational regulation of several key ...proteins were examined in human breast MCF7 cells under aerobic conditions. We found that different concentration thresholds of NO appear to elicit a discrete set of signal transduction pathways. At low steady-state concentrations of NO (<50 nM), extracellular signal-regulated kinase (ERK) phosphorylation was induced via a guanylate cyclase-dependent mechanism. Hypoxic inducible factor 1alpha (HIF-1alpha) accumulation was associated with an intermediate amount of NO (>100 nM), whereas p53 serine 15 phosphorylation occurred at considerably higher levels (>300 nM). ERK phosphorylation was transient during NO exposure. HIF-1alpha stabilization paralleled the presence of NO, whereas p53 serine 15 phosphorylation was detected during, and persisted after, NO exposure. The dose-dependent effects of synthetic NO donors were mimicked by activated macrophages cocultured with MCF7 cells at varying ratios. ERK and HIF-1alpha activation was similar in breast cancer cell lines either mutant (MB231) or null (MB157) in p53. The stabilization of HIF-1alpha by NO was not observed with increased MCF7 cell density, demonstrating the interrelationship between NO and O(2) consumption. The findings show that concentration and duration of NO exposure are critical determinants in the regulation of tumor-related proteins.
Mutations in the transforming growth factor beta-type II receptor (TGFbeta RII) gene have been detected in several types of human cancers that represent the phenotype of genomic instability. The ...TGFbeta RII gene has been mapped to chromosome 3p, on which loss of heterozygosity (LOH) was frequently detected in both small cell lung carcinoma (SCLC) and non-small cell lung carcinoma (NSCLC). To investigate whether the TGFbeta RII gene on 3p22 is inactivated in lung cancers, we examined 35 sporadic lung cancers (15 SCLC and 20 NSCLC) with LOH on 3p for mutations of the TGFbeta RII gene. We previously produced eight intron based primer pairs for mutational analysis of the entire coding region of the TGFbeta RII gene. Using these primers, we screened for mutations of the TGFbeta RII gene by polymerase chain reaction-single strand conformational polymorphism (PCR-SSCP) analysis. A mutation was detected in a case of SCLC: one base insertion in the polyadenine tract of exon 3. This tumor showed the replication error (RER) phenotype. There were no mutations in exons 1, 2, 4, 5, 6 and 7. These results indicate that the polyadenine tract is a mutational hot spot in the TGFbeta RII gene in RER positive tumors, and that TGFbeta RII mutations occur rarely in lung cancers with LOH on chromosome 3p.
The ability of acetaldehyde, a respiratory carcinogen present in tobacco smoke and automotive emissions, to affect cell viability, thiol status and intracellular Ca2+ levels and to cause DNA damage ...and mutations has been studied using cultured human cells. Within a concentration range of 3-100 mM, a 1 h exposure to acetaldehyde decreases colony survival and inhibits uptake of the vital dye neutral red in bronchial epithelial cells. Acetaldehyde also causes both DNA interstrand cross-links and DNA protein cross-links whereas no DNA single strand breaks are detected. The cellular content of glutathione is also decreased by acetaldehyde, albeit, without concomitant changes in the glutathione redox status or in the content of protein thiols. Transient or sustained increases in cytosolic Ca2+ occur within minutes following exposure of cells to acetaldehyde. Moreover, acetaldehyde significantly decreases the activity of the DNA repair enzyme O6-methylguanine-DNA methyltransferase. Finally, a 5 h exposure to acetaldehyde causes significant levels of 6-thioguanine resistance mutations in an established mutagenesis model involving skin fibroblasts. The results indicate that mM concentrations of acetaldehyde cause a wide range of cytopathic effects associated with multistep carcinogenesis. The fact that acetaldehyde, in relation to its cytotoxicity, causes comparatively higher genotoxicity and inhibits DNA repair more readily than other major aldehydes in tobacco smoke and automotive emissions is discussed.
Selective expression of cytotoxic gene products in tumor cells is one of the goals of gene therapy for treating cancer. We are developing such a strategy for the treatment of human hepatocellular ...carcinoma (HCC) by linking the wild-type p53 (WT-p53) gene with HCC-associated transcriptional control elements (TCE) to achieve selective growth inhibition of retrovirally transduced HCC cells. Replication-defective, amphotrophic retroviruses were constructed containing a WT-p53 complementary DNA (cDNA) that is transcriptionally regulated by the HCC-associated alpha-fetoprotein (AFP) gene TCE. Expression of exogenous WT-p53 from this retroviral vector was limited to AFP-producing cells. Introduction of WT-p53 into AFP-positive HCC cells by retroviral infection markedly inhibited their clonal growth in monolayer and soft agar cultures, and increased the sensitivity of these cells to the chemotherapeutic drug, cisplatin. Therefore, restoration of WT-p53 expression in HCC cells, in combination with chemotherapeutic drugs, can be considered as a strategy for the therapy of human liver cancer. (Hepatology 1996 Nov;24(5):1264-8)
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