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In late February the Department of Physics hosted a Greenlight for Girls event to encourage young women to think about studying physics and to challenge the perception that physics is for boys.
Potential advances in combination chemotherapy for advanced testicular cancer.
An interim analysis of the current EORTC studies in advanced testicular cancer indicates that (a) for low volume metastatic disease the addition of bleomycin (B) to etoposide (E) and cisplatinum (P) may not be necessary, and (b) for high volume metastatic disease the alternating schedule of PVB/BEP is not superior to treatment with BEP. Future studies will subdivide patients into 3 groups. Those with low volume metastatic disease will receive EP using 2 dose schedules for cisplatin. Those with high volume metastases will receive either BEP or etoposide, ifosfamide and cisplatinum (VIP). Those with ultra-high volume metastases will receive BOP/VIP, possibly randomised against another intensive chemotherapy schedule.
Expression of glutathione S-transferases and cytochrome P450 in normal and tumor breast tissue.
The level of expression of glutathione S-transferases (GSTs) and cytochrome P450s in breast tissue are potentially important determinants in both the susceptibility of this tissue to the mutagenic effects of chemical carcinogens and in the response of breast tumors to chemotherapy. In this study we have investigated the expression of these proteins in 41 tumor and surrounding normal breast tissue samples by measurement of substrate metabolism. Western blot analysis and immunohistochemistry. In addition, we have quantitated the concentration of alpha, mu and pi class GST subunits using radioimmunoassay. All three classes of GST were expressed in breast tissue. The pi and mu class enzymes preponderate. Both the polymorphic mu class GST as well as a further form, present in all individuals, were found in high concentration. The polymorphic mu class GST was expressed in approximately 50% of the samples, which is consistent with the frequency of this polymorphism in the population and therefore does not appear to be a factor in susceptibility to this disease. Interestingly, although levels of the alpha class GST were very low, in two tumor samples extremely high levels of the B1B1 subunit were detected. Immunohistochemical studies showed significant variability in the localization of the pi class of GST between normal epithelial cells, infiltrating plasma cells and tumor cells, and in some samples GST pi appeared to be almost absent from the tumor tissue. No direct, or inverse correlation was found between GST pi concentration determined by radioimmunoassay and estrogen receptor levels. However, when studied by immunohistochemistry estrogen receptor negative tumors did tend to have higher GST pi content. The only cytochrome P450 detectable by Western blot analysis was a member of the P450IIC gene family. This was apparently distinct from the P450IIC proteins expressed in the liver and was detected in normal and tumor tissues to a similar extent.
Glutathione S-transferase isoenzymes in human tumours and tumour derived cell lines.
An increasing body of evidence indicates that glutathione S-transferases play a role in the intrinsic and acquired resistance of tumours to anticancer drugs. In view of the wide use of tumour cell lines to understand the factors which confer either sensitivity or resistance to chemotherapeutic agents we have determined glutathione S-transferase (GST) activity and isozyme composition in nine human cell lines. These data have been compared with the values obtained in solid tumours. In most cases overall GST activity was higher in the tumours than in the cell lines. This was most pronounced for the breast tumour samples relative to MCF7 cell line. The pi class GST subunit was present at similar concentration in the cell lines and the tumours, and in most cases was the most abundant subunit present. The alpha and mu class GST were expressed in most of the cell lines but at much lower concentration than the pi class subunit. Also considerable variability particularly in the expression of the mu subunits was observed. This was also the case for the expression of these subunits in the solid tumour samples. The levels of these GSTs (when expressed) in the solid tumours was invariably higher than that observed in the cell lines. There are therefore several similarities but also some significant differences in GST expression in solid tumours and cell lines. Whether the differences are because expression is lost during the generation of the cell lines or whether it reflects the individuality of human tumours remains to be clearly established.
Intestinal alkaline phosphatase isoenzyme in patients with primary liver cancer during treatment with N10-propargyl 5, 8-dideazafolic acid (CB 3717).
Serum aspartate transaminase (AST), alkaline phosphatase (ALP), and gamma-glutamyl transferase (gamma GT) activities and the serum ALP isoenzyme pattern have been measured in eleven patients undergoing treatment with CB3717. There were increases in the activity of all three enzymes. The ALP isoenzyme pattern showed an increased contribution of the intestinal isoenzyme to the serum ALP activity. This may be due to increased intestinal mucosal leakage or impaired uptake and breakdown of the intestinal isoenzyme by the liver.
Relationships between oestrogen receptor,epidermal growth factor receptor, ER-D5, and P24 oestrogen regulated protein in human breast cancer.
Proteins regulated by or related to the oestrogen receptor (ER) may prove to be more reliable indicators of prognosis and hormone sensitivity then expression of the receptor itself. It has been shown recently that expression of epidermal growth factor receptor (EGFR) is associated with a poor prognosis in breast cancer. In a series of 60 breast cancers, we have studied relationships between ER, ER-D5 oestrogen receptor related protein, P24 oestrogen regulated protein, and EGFR using an immunohistochemical technique employing monoclonal antibodies in each case. In addition, radioligand binding assays for ER and EGFR were carried out and tumour histological grade was determined. Seventy-one per cent and forty-three per cent of tumours stained for ER-D5 and P24, respectively, but there was no relationship between staining for these and ER or EGFR status. There was a significant correlation between staining for ER and EGFR, and the respective biochemical assays. Relating ER to EGFR, very few ER-positive cases expressed EGFR, but this relationship fell short of significance. The prognostic significance of expression of the epitopes recognized by the ERD5 and P24 antibodies must await assessment of clinical outcome.
Epidermal growth factor receptors in colorectal carcinoma.
Nineteen samples of primary colorectal carcinoma and adjacent mucosa were examined for EGFr expression using radioligand binding assays and immunohistochemical staining with the monoclonal antibody EGFR1. Radioligand binding experiments showed expression of EGFr in both tumour and mucosa in all cases. In tumour samples EGFr levels ranged between 4 and 79 fmole per mg membrane protein (Kd = 0.1-0.4 X 10(-9) M). There was no significant difference in the level of EGFr expression between tumour and mucosa overall. Immunohistochemical staining with the EGFR1 antibody was useful in localising EGFr to epithelial elements although it was less sensitive than ligand binding assays.
The value of tumour marker kinetics in the management of patients with primary hepatocellular carcinoma.
Serum alpha-fetoprotein (AFP) has been measured during chemotherapy of ten patients with hepatocellular carcinoma. Whenever the AFP concentration of a sample was lower than that of the previous sample the apparent half-life (AHL) of the protein was calculated. The biological half-life of AFP is 5 days so that values in excess of this were indicative of continuing or increased synthesis and secretion of AFP. The AHL for AFP provided a means of assessing efficacy of treatment. Increases in AHL generally predicted a rise in serum AFP and give advance warning of the need to change therapy.
Enhanced expression of glutathione S-transferases in colorectal carcinoma compared to non-neoplastic mucosa.
Ten paired samples of primary human colorectal carcinoma and adjacent non-neoplastic mucosa were analysed for total glutathione S-transferase (GST) activities as determined by 1-chloro-2,4-dinitrobenzene assays. These tissues were also investigated for the expression of acidic (pi), basic (alpha) and neutral (mu) GSTs using Western blotting procedures and immunohistochemical staining. For each of the paired samples examined the total GST activity was higher in tumour than in adjacent non-neoplastic mucosa. Western blotting, using an antibody against acidic GST also showed strong immunoreactivity in all the samples with more intense reactions in tumour compared to mucosa in nine out of the ten paired samples. Low levels of basic GST were also expressed in all samples of tumour and mucosa. Neutral GST was not detectable in two samples of tumour and corresponding mucosa, but low levels of expression were demonstrated in the remaining eight. Immunohistochemical staining for acidic GST showed a dark brown reaction in all tumour cells; in non-neoplastic mucosa there was positive immunoreactivity for epithelial cells situated deep within the crypts and a negative reaction for surface epithelial cells. Immunohistochemical staining for basic GST was negative except for one sample of tumour and two of mucosa. Neutral GST was expressed only in two samples of tumour and two samples of mucosa. We therefore conclude that there is enhanced expression of GSTs, acidic GST being the predominant form, in tumour compared to normal mucosa, in keeping with a role for GSTs in colonic carcinogenesis and acquired or innate drug resistance.
Zoladex: endocrine and therapeutic effects in post-menopausal breast cancer.
The endocrine and therapeutic effects of the LHRH agonist Zoladex have been assessed in 28 post-menopausal women with advanced breast cancer. Fourteen had responded to previous hormone therapy and 14 had no previous hormone therapy. There were two partial responses and two patients with stable disease for more than 6 months in the former group, and one partial response and two with stable disease for more than 6 months in the latter group. Toxicity was minimal. All responses occurred in soft tissue. Six out of seven patients who received tamoxifen after progression of disease on Zoladex showed a response. Peripheral oestradiol levels were measured, and they fell after 1 month from 33 pmol l-1 (+/- 20, s.d.) to 22 pmol l-1 (+/- 11, s.d.) (P less than 0.005). Responders and non-responders showed similar changes in oestradiol. Oestrone levels did not change significantly. These results suggest that Zoladex acts indirectly via changes in peripheral hormones, rather than directly on LHRH receptors on the tumour.
Possible role of inhibition of glutathione S-transferase in the partial reversal of chlorambucil resistance by indomethacin in a Chinese hamster ovary cell line.
We have reported previously the isolation and characterization of a Chinese hamster ovary cell line, designated CHO-Chlr, which exhibits resistance to bifunctional nitrogen mustards while maintaining sensitivity to a range of other alkylating agents and chemotherapeutic drugs. This enhanced drug resistance is associated with a greater than 40-fold increase in the level of expression of an alpha class (YcYc) glutathione S-transferase (GST) as compared to the parental, CHO-K1, cell line. Here, we have purified GST from CHO-Chlr cells and show that the nonsteroidal antiinflammatory drug indomethacin acts as an inhibitor of enzyme activity. Indomethacin at 500 microM causes no significant decrease in colony forming ability of either CHO-K1 or CHO-Chlr cells. However, the cytotoxicity of chlorambucil is potentiated 5.5-fold in CHO-Chlr cells, but only 2.5-fold in CHO-K1 cells following preexposure to 500 microM indomethacin. In contrast, the antiinflammatory agent acetylsalicylic acid failed to inhibit the activity of purified GST and caused no potentiation of chlorambucil toxicity, suggesting that the potentiation by indomethacin is not due to the effects of this drug on prostaglandin synthesis. These studies provide further evidence that GSTs may be involved in the development of resistance to bifunctional alkylating agents and suggest that indomethacin, or agents with similar activities, may be of value as an adjunct to chemotherapy in some patients with tumors resistant to treatment with alkylating agents.
Reduced levels of drug-induced DNA cross-linking in nitrogen mustard-resistant Chinese hamster ovary cells expressing elevated glutathione S-transferase activity.
We have reported previously (C. N. Robson et al., Cancer Res., 46: 6290-6294, 1986) the isolation of a Chinese hamster ovary cell line, designated CHO-Chlr, that exhibits resistance to bifunctional nitrogen mustards while maintaining the normal parental level of sensitivity to several other alkylating agents. We have compared the rate of formation and repair of DNA cross-links induced by mechlorethamine in CHO-Chlr and parental CHO-K1 cells, both in intact cells and in isolated nuclei. Equimolar doses of mechlorethamine induce significantly fewer DNA interstrand cross-links in CHO-Chlr cells than in CHO-K1 cells, but levels of DNA-protein adducts are approximately equivalent in the two lines. There is a correlation between the relative resistance of CHO-Chlr cells to mechlorethamine (34-fold) and the amount of drug required to induce approximately equal numbers of DNA interstrand cross-links in the two cell lines. This strongly implicates DNA-DNA adducts in the cytotoxic action of mechlorethamine. DNA cross-linking studies on isolated nuclei reveal only minor differences between the two lines even with identical drug treatments. The rate of cross-link repair is comparable in the two cell lines. These results, taken together with our earlier observation that the rate of drug accumulation is identical in these two lines, suggest that enhanced cytoplasmic drug detoxification is the underlying resistance mechanism in CHO-Chlr cells. We have measured cellular glutathione S-transferase activity, using both the general substrate 1-chloro-2,4-dinitrobenzene, and substrates with some specificity for the different classes of transferase isoenzymes. Total enzyme activity (as measured with 1-chloro-2,4-dinitrobenzene) is elevated 3-fold in the resistant cells. A 2- and 5-fold increase, respectively, in activity against ethacrynic acid and cumene hydroperoxide is detectable in CHO-Chlr cells. This elevation in catalytic activity in the resistant cells is reflected in higher levels of both the Yf- and Ya-type transferase subunits.
Isolation of two Chinese hamster ovary cell mutants hypersensitive to topoisomerase II inhibitors and cross-resistant to peroxides.
We have isolated two Chinese hamster ovary cell lines, designated ADR-4 and ADR-5, which exhibit hypersensitivity to intercalating agents and epipodophyllotoxins. These drugs are thought to exert their cytotoxicity via an interaction with the enzyme topoisomerase II. However, there is no apparent change in the level or catalytic activity of topoisomerase II in the mutant cells. Drug sensitivity does not appear to be due to increased drug transport because accumulation of radiolabeled actinomycin D is similar in mutant and wild-type cells. Both mutant cell lines show enhanced resistance to hydrogen peroxide and to organic peroxides. ADR-4 cells show a degree of temperature sensitivity. ADR-5 cells show mild sensitivity to UV irradiation. Neither cell line shows significant sensitivity to mono- or bifunctional alkylating agents, ionizing radiation, or bleomycin. Cell fusion studies indicate that the phenotype of each mutant cell line is recessive and that the mutants represent two different genetic complementation groups. These studies also indicate that ADR-4 and ADR-5 Adriamycin-sensitive mutant, ADR-1. These results indicate that sensitivity to topoisomerase II inhibitors can result from abnormalities in several genes. These drug-sensitive mutants may be useful for studying the mechanisms of cell killing by topoisomerase II inhibitors, free radicals, and heat.
Quantification of epidermal growth factor in human breast cyst fluids: correlation with dehydroepiandrosterone-sulphate and electrolyte concentrations.
Epidermal growth factor (EGF), dehydroepiandrosterone (DHA)-sulphate and [Na+] and [K+] were assayed in 78 cyst fluids from patients with a palpable breast cyst. Epidermal growth factor was detected in all but 2 cysts, the mean value +/- SEM being 506.2 +/- 39.3 ng/ml, with a range of 0-1,599 ng/ml. When the cyst fluids were sub-divided according to their [Na+]:[K+] ratio, group A cyst fluids ( [Na+]:[K+] less than 3) had a significantly higher (p less than 0.001) level of EGF than group B cyst fluids ([Na+]:[K+] greater than 3). Furthermore, the relationship between EGF and [Na+] and [K+] and between EGF and DHA-sulphate seemed to differ between the 2 cyst types and each cyst type was therefore analyzed separately.