Andrew C. Povey

GSTM1, GSTT1 and GSTP1 polymorphisms and lung cancer risk.

Previous studies have suggested that GST genotypes may play a role in determining susceptibility to lung cancer, though the data are often conflicting. In this study we investigated GSTM1, GSTT1 and GSTP1 status in relation to lung cancer risk in patients attending a Manchester bronchoscopy clinic. Cases were all patients (n=94) currently with, or with a history of, tumours of the lung, trachea or bronchus. The control group were all other patients (n=165) who were free of benign and malignant tumours both at the time of, or prior to, diagnosis. All patients were interviewed for information on lifestyle risk factors, and DNA extracted from bronchial lavage and blood samples was used for genotyping. GSTM1 null genotype was associated with decreased lung cancer risk (odds ratio (OR) 0.50, 95% confidence interval (CI) 0.29-0.87), particularly among men (OR 0.43, 95% CI 0.21-0.87) and those above the median age (OR 0.33, 95% CI 0.15-0.70). No difference in GSTT1 and GSTP1 genotype distribution was seen between cases and controls. The GSTM1 null genotype was associated with a decreased risk of squamous cell carcinoma: the OR, adjusted for age, sex and pack years was 0.32 (95% CI 0.12-0.82). As previous studies have reported that the GSTM1 null genotype is associated with an increased lung cancer risk, further work is required to determine whether the observed association is true, or whether it arises from bias or confounding factors.

Cotinine levels and self-reported smoking status in patients attending a bronchoscopy clinic

The reliability of self-reported smoking behaviour can vary and may result in bias if errors in misclassification vary with outcome. We examined whether self-report was an accurate measure of current smoking status in patients with malignant or non-malignant respiratory disease. Smoking behaviour was assessed by self-report and by analysis of whole blood for cotinine, a biomarker of exposure to cigarette smoke, in 166 patients attending a bronchoscopy clinic. Cotinine levels ranged from 2.5 to >400 ng ml−1 blood and were higher in self-reported current smokers (173±123 ng ml−1) than in never smokers (3.7±8.7 ng ml−1) or ex-smokers (20.5±49.0 ng ml−1). Cotinine levels in self-reported current smokers increased with the numbers of cigarettes smoked (p=0.06), and levels in smokers and ex-smokers decreased with the reported length of time since the last cigarette (p=0.001). Using a cotinine level of 20 ng ml−1 and self-report as the gold standard, the sensitivity and specificity for defining current smoking status were 90.2% and 82.4%, respectively. Out of a total of 125 self-reported current non-smokers, 23 (18.4%) had cotinine levels greater than 20 ng ml−1. Smoking prevalence was significantly underestimated by self-report (24.7%) when compared with that defined using blood cotinine levels (36.1%: p<0.001). Misclassification of current smoking status was particularly high in ex-smokers, in patients without malignant respiratory disease, in men, and in those below the median age. Such differential misclassification may result in bias in studies examining associations between current smoking habits and disease risk.

Paraoxonase and susceptibility to organophosphorus poisoning in farmers dipping sheep

OBJECTIVES Human serum paraoxonase (PON1) hydrolyses organophosphate pesticides (OPs) entering the blood circulation and tissue fluid thus limiting toxicity. The PON1 coding region has two polymorphisms involving the amino acids at position 55 (Lt<--M) and 192 (Qt<--R), giving rise to isoenzymes which differ in their catalytic rate for the hydrolysis of OPs. We therefore hypothesized that individuals inheriting low activity isoforms of PON1 would be more liable to report symptoms of OP toxicity. METHODS We have therefore investigated the relationship between PON1 genetic polymorphisms and PON1 activity in farmers reporting chronic ill health which they attributed to OP exposure whilst sheep dipping (cases) and farmers who carried out similar activities, but remained well (controls). Diazoxon, paraoxon and phenylacetate were used as substrates for PON1. Diazoxon is the active metabolite of diazinon, the sheep dip most commonly used in the UK. RESULTS Cases were found to be more likely to have the R192 allele ( 0.01) and to have the L55 allele ( 0.05) than the controls. This combination of R and L genotypes was associated with lower PON1 activity towards diazoxon in both cases and controls. Farmers in the lowest quintile for the rate of serum diazoxon hydrolysis had a greater risk of being a case i.e. of reporting ill health (odds ratio 2.47 (95% CI 1.35-2.82)), than the other four quintiles of diazoxon hydrolysis. The rate of serum hydrolysis of paraoxon was greatest in cases and controls with the R/L haplotype (both 0.001). CONCLUSIONS The farmers reporting chronic ill health due to organophosphate exposure have a higher proportion of the PON1-192R polymorphism associated with lower rates of diazoxon hydrolysis and lower rates of diazoxon hydrolysis than the controls and that their ill health may be explained by a lower ability to detoxify diazoxon.

Elevated levels of the pro-carcinogenic adduct, O 6 -methylguanine, in normal DNA from the cancer prone regions of the large bowel

BACKGROUND The pro-mutagenic lesionO 6-methyldeoxyguanosine (O 6-MedG), a marker of exposure to many N-nitroso compounds (NOC), can be detected in normal and tumour DNA isolated from colorectal tissue. The biological significance of this exposure is, as yet, unknown but in situ NOC formation is bacterially catalysed suggesting that NOC formation and potentially DNA alkylation will vary throughout the large bowel. AIMS To determine ifO 6-MedG levels in colorectal DNA vary within the large bowel. PATIENTS We studied 62 men and women undergoing surgery for colorectal tumours in the north west of England. METHODS O 6-MedG levels were measured in paired normal and tumour DNA samples. DNA was digested to nucleosides, fractionated by HPLC, and purified O 6-MedG quantified by a radioimmunoassay. RESULTS O 6-MedG was detected in 27 out of a total of 62 (43%) normal DNA samples and in 30 of 58 (52%) tumour DNA samples: it was present at concentrations of <0.01–0.94 and <0.01–0.151 μmolO 6-MedG/mol deoxyguanosine for normal and tumour DNA, respectively. Levels ofO 6-MedG in normal, but not tumour, DNA from the proximal colon were lower than those found in DNA from either the sigmoid colon (p=0.03) or rectum (p=0.05). When the analysis was restricted to samples that containedO 6-MedG, similar results were obtained in that O 6-MedG levels in normal DNA were lower in the proximal colon than in the sigmoid colon (p=0.04) or rectum (p=0.03). CONCLUSIONS DNA alkylation varied within the large bowel possibly due to in situ NOC formation and was highest in areas of the colon and rectum where the highest incidence of large bowel tumours occurs, suggesting that DNA alkylation may play a role in the aetiology of colorectal cancer.

Meta- and Pooled Analysis of GSTP1 Polymorphism and Lung Cancer: A HuGE-GSEC Review

Lung cancer is the most common cancer worldwide. Polymorphisms in genes associated with carcinogen metabolism may modulate risk of disease. Glutathione S-transferase pi (GSTP1) detoxifies polycyclic aromatic hydrocarbons found in cigarette smoke and is the most highly expressed glutathione S-transferase in lung tissue. A polymorphism in the GSTP1 gene, an A-to-G transition in exon 5 (Ile105Val, 313A --> 313G), results in lower activity among individuals who carry the valine allele. The authors present a meta- and a pooled analysis of case-control studies that examined the association between this polymorphism in GSTP1 and lung cancer risk (27 studies, 8,322 cases and 8,844 controls and 15 studies, 4,282 cases and 5,032 controls, respectively). Overall, the meta-analysis found no significant association between lung cancer risk and the GSTP1 exon 5 polymorphism. In the pooled analysis, there was an overall association (odds ratio = 1.11, 95% confidence interval: 1.03, 1.21) between lung cancer and carriage of the GSTP1 Val/Val or Ile/Val genotype compared with those carrying the Ile/Ile genotype. Increased risk varied by histologic type in Asians. There appears to be evidence for interaction between amount of smoking, the GSTP1 exon 5 polymorphism, and risk of lung cancer in whites.

Polymorphisms in the NAD(P)H: quinone oxidoreductase gene and small cell lung cancer risk in a UK population.

NAD(P)H: quinone oxidoreductase (NQO1) protects the cell against cytotoxicity by reducing the concentration of free quinone available for single electron reduction. The NQO1 gene is polymorphic and the variant protein exhibits just 2% of the enzymatic activity of the wildtype protein. In this study, we investigated NQO1 genotype in relation to lung cancer risk in patients attending a Manchester bronchoscopy clinic. The cases were patients with a current, or history of, malignant tumour of the lung, trachea or bronchus. The control group were all other patients attending the clinic who had never been diagnosed with a tumour. DNA extraction from bronchial lavage or blood samples and genotyping was successfully carried out for 82 of the cases and 145 controls. Patients carrying at least one variant allele were found to have almost a 4-fold increased risk of developing small cell lung cancer (adjusted OR=3.80, 95% C.I. 1.19-12.1). No association between NQO1 genotypes and non-small cell lung cancer risk was found. Furthermore, the excess small cell lung cancer risk associated with non-wildtype NQO1 genotypes was only apparent in heavy smokers where there was a >10-fold increased risk (adjusted OR=12.5, 95% C.I. 2.1-75.5). These results suggest that the NQO1 protein may be involved in the detoxification of those carcinogens associated with the development of small cell lung cancer. Individuals with reduced enzyme activity, due to a polymorphism in this gene, may therefore have an increased risk of developing this disease.

DNA Alkylation and Repair in the Large Bowel: Animal and Human Studies

O6-methylguanine (O6-MeG), a procarcinogenic DNA adduct that arises from exposure to methylating agents, has been detected in human colorectal DNA at levels comparable to those that cause adverse effects in model systems. O6-MeG levels vary within the colon, being higher in the cancer-prone regions of the large bowel. In rats and mice, O6-MeG persistence in colon DNA is associated with the induction of colon tumors after treatment with methylating agents. These tumors frequently contain K-ras GC-->AT transition mutations, which is consistent with the mutagenic properties of O6-MeG: such mutations are also commonly found in human colorectal cancers. O6-Alkylguanine adducts are removed by the DNA repair protein, O6-alkylguanine DNA-alkyltransferase (MGMT). MGMT overexpression in transgenic mice reduces the formation of K-ras GC-->AT mutations and tumors induced by methylating agents. Interindividual variations in human colon MGMT activity are large and large bowel tumors can occur in regions of low activity. Low MGMT activity in normal mucosa has been associated with the occurrence of K-ras GC-->AT mutations, whereas reduced MGMT expression and an increased frequency of K-ras GC-->AT mutations in colorectal cancers have been linked to MGMT promoter methylation. MGMT activity is also lower in adenomas than in adjacent normal tissue but only in those adenomas with this specific mutation. These results are entirely consistent with the hypothesis that GC-->AT mutations in the K-ras oncogene result from the formation and persistence of O6-alkylguanine lesions in colorectal DNA. Human exposure to endogenous or exogenous alkylating agents may thus be an environmental determinant of colorectal cancer risk.

Total N-Nitroso Compounds and Their Precursors in Hot Dogs and in the Gastrointestinal Tract and Feces of Rats and Mice: Possible Etiologic Agents for Colon Cancer

We review evidence that red and processed meat are causes of colon cancer and that processed meat is a risk factor for childhood cancer and type 2 diabetes. Associations could be due to N-nitroso compounds (NOCs) derived from nitrosation of NOC precursors (NOCPs). We review our survey of total NOC and NOCP content of foods. Only rapidly nitrosated amines, including a glycosyl amino acid, were efficiently determined as NOCPs. NOCPs in hot dogs and rat feces were partly purified by adsorption-desorption and HPLC. After nitrosation, purified hot dog fractions were directly mutagenic in Ames test. The main NOCPs in these materials may be N-glycosyl amino acids and peptides. NOC levels in rat gastrointestinal tract rose steadily from stomach to feces. NOCP levels showed similar trend but with sharp increases from stomach to duodenum. One day after Min and C57BL/6J mice were fed 4% dextran sulfate sodium to induce acute colitis, fecal NOC levels increased 1.9-fold compared with untreated mice (P < 0.05). For 7 d Swiss mice received semipurified diet, 180 g beef-pork hot dogs mixed with 820 g diet or 180 g sautéed beef mixed with 820 g diet. Fecal NOC outputs on day 7 were 3.7-5.0 (hot dog) and 2.0-2.9 (beef) times those for control groups (P < 0.002 for combined groups), perhaps reflecting higher dietary NOC intakes. Feeding a similar hot dog mixture to mice did not affect normal 7-methyldeoxyguanosine level in colonic mucosal DNA. Overall, results support the hypothesis that colonic NOCs are a cause of colon cancer.

Occupation and male infertility: glycol ethers and other exposures

Objectives: To investigate the relation between male infertility and occupational exposures, particularly glycol ethers. Methods: A case-referent study was designed in which men attending 14 fertility clinics in 11 centres across the UK in 1999–2002 were recruited following 12 months of unprotected intercourse and without a previous semen analysis. Cases were those with low motile sperm concentration (MSC) relative to the time since their last ejaculation (MSC <12×106 for 3 days of abstinence). Referents were other men attending these clinics and meeting the inclusion criteria. A single semen sample was collected at the clinic and analysed at the andrology laboratory serving each hospital. Concentration was determined manually with motility assessed centrally from video recordings. Exposures and confounding factors were assessed from self-completed and nurse–interviewer questionnaires, completed prior to the results of the semen analysis. The occupational histories were assessed for exposures relative to UK norms by a team of occupational hygienists blind to case status. Results: Of 2118 men in employment at the time of the interview, 874 (41.3%) were cases. Work with organic solvents, particularly glycol ethers, in the 3 months before the first clinic visit was associated with the likelihood of low motile sperm count. Unadjusted odds ratios (OR) for moderate and high glycol ether exposure (compared with none) were 1.70 (95% CI: 1.11 to 2.61) and 2.54 (95% CI: 1.24 to 5.21). Adjustment for potential confounders (surgery to the testes, previous conception, wearing boxer shorts, drinking alcohol, employed in manual work) reduced the risk associated with glycol ether exposure: moderate OR = 1.46 (95% CI: 0.93 to 2.28), high OR = 2.25 (95% CI: 1.08 to 4.69). No other occupational risk factor was identified. Conclusions: Glycol ether exposure was related to low motile sperm count in men attending fertility clinics. This suggests that, at the time of the study, glycol ethers continued to be a hazard for male fertility.

Fern spore extracts can damage DNA

The carcinogenicity of the vegetative tissues of bracken fern (Pteridium) has long been established. More recently, the carcinogenic effects of the spores of bracken have also been recognized. Both vegetative tissues and spores of bracken can induce adducts in DNA in animal tissues, but the possible genotoxic or carcinogenic effects of spores from fern species other than bracken are unknown. The single-cell gel electrophoresis (‘comet’) assay was used to investigate whether fern spores can cause DNA damage in vitro. Extracts of spores from six fern species were administered to cultured human premyeloid leukaemia (K562) cells. Spore extracts of five fern species: Anemia phyllitidis, Dicksonia antarctica, Pteridium aquilinum, Pteris vittata and Sadleria pallida, induced significantly more DNA strand breaks than those in the control groups. Only in one species, Osmunda regalis, was the effect no different from that in the control groups. Using extracts from A. phyllitidis and P. vittata, the extent of DNA damage was increased by increasing the original dose 10 times, whereas an experiment in which exposure times were varied suggested that the highest levels of strand breaks appear after 2 h exposure. Simultaneous incubation with human S9 liver enzyme mix ablated the damaging effect of the extracts. Our data show that fern spore extracts can cause DNA damage in human cells in vitro. Considering the strong correlation between DNA damage and carcinogenic events, the observations made in this report may well have some implications for human health.