Does Aflatoxin Exposure in the United Kingdom Constitute a Cancer Risk?

Overview

Journal Environ Health Perspect

Date 1993 Mar 1

PMID 8319666

Citations 9

Authors

J C Harrison

M Carvajal

R C Garner

Affiliations

Soon will be listed here.

Abstract

Although the aflatoxins were discovered more than 30 years ago, there is still considerable controversy surrounding their human health effects. Most countries have introduced legislation to control the level of aflatoxins in food, but it is not known if these permitted levels still pose a significant cancer risk. Furthermore, it is unlikely that all the sources of human aflatoxin exposure have been discovered, nor if the liver is the only, or indeed, major target organ for aflatoxin-induced cancer in man. In our laboratory we have used both immunological and HPLC methods to examine human DNA from a variety of tissues and organs to identify and quantify aflatoxin DNA-adducts. We have already detected aflatoxin B1 (AFB1)-DNA adducts in formalin-fixed tissue from an acute poisoning incident in Southeast Asia. Here we have examined human colon and rectum DNA from normal and tumorous tissue obtained from cancer patients and colon, liver, pancreas, breast, and cervix DNA from autopsy specimens. AFB1-DNA adducts were detected in all tissue types examined and ranged from 0-60 adducts/10(6) nucleotides. Where sample size allowed, the adduct levels were confirmed by HPLC analysis. Tumor tissues tended to have higher adduct levels than normal tissue from the same individual, and levels generally increased with patient age. In samples analyzed by HPLC, the adducts present had the chromatographic properties of [8,9-dihydro-8-(N5-formyl)-2',5',6'-triamino-4'-oxo-(N5-pyramidyl) -9- hydroxy-aflatoxin B1, the ring-opened form of the AFB1-guanine adduct.(ABSTRACT TRUNCATED AT 250 WORDS)

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References

Harris C, Sun T . Multifactoral etiology of human liver cancer. Carcinogenesis. 1984; 5(6):697-701. DOI: 10.1093/carcin/5.6.697. View

Autrup H, Bradley K, Shamsuddin A, Wakhisi J, Wasunna A . Detection of putative adduct with fluorescence characteristics identical to 2,3-dihydro-2-(7'-guanyl)-3-hydroxyaflatoxin B1 in human urine collected in Murang'a district, Kenya. Carcinogenesis. 1983; 4(9):1193-5. DOI: 10.1093/carcin/4.9.1193. View

Autrup H, Seremet T, Wakhisi J, Wasunna A . Aflatoxin exposure measured by urinary excretion of aflatoxin B1-guanine adduct and hepatitis B virus infection in areas with different liver cancer incidence in Kenya. Cancer Res. 1987; 47(13):3430-3. View

Gan L, Skipper P, Peng X, Groopman J, Chen J, Wogan G . Serum albumin adducts in the molecular epidemiology of aflatoxin carcinogenesis: correlation with aflatoxin B1 intake and urinary excretion of aflatoxin M1. Carcinogenesis. 1988; 9(7):1323-5. DOI: 10.1093/carcin/9.7.1323. View

Hsieh L, Hsu S, Chen D, Santella R . Immunological detection of aflatoxin B1-DNA adducts formed in vivo. Cancer Res. 1988; 48(22):6328-31. View

Bailey G, Williams D, Wilcox J, Loveland P, Coulombe R, Hendricks J . Aflatoxin B1 carcinogenesis and its relation to DNA adduct formation and adduct persistence in sensitive and resistant salmonid fish. Carcinogenesis. 1988; 9(11):1919-26. DOI: 10.1093/carcin/9.11.1919. View

Phillips D, Hewer A, Martin C, Garner R, KING M . Correlation of DNA adduct levels in human lung with cigarette smoking. Nature. 1988; 336(6201):790-2. DOI: 10.1038/336790a0. View

Dashwood R, Arbogast D, Fong A, Pereira C, Hendricks J, Bailey G . Quantitative inter-relationships between aflatoxin B1 carcinogen dose, indole-3-carbinol anti-carcinogen dose, target organ DNA adduction and final tumor response. Carcinogenesis. 1989; 10(1):175-81. DOI: 10.1093/carcin/10.1.175. View

VAN Egmond H . Current situation on regulations for mycotoxins. Overview of tolerances and status of standard methods of sampling and analysis. Food Addit Contam. 1989; 6(2):139-88. DOI: 10.1080/02652038909373773. View

10.

HENDRICKSE R, Maxwell S, Young R . Aflatoxins and heroin. BMJ. 1989; 299(6697):492-3. PMC: 1837336. DOI: 10.1136/bmj.299.6697.492. View

11.

Lee H, Sarosi I, VYAS G . Aflatoxin B1 formamidopyrimidine adducts in human hepatocarcinogenesis: a preliminary report. Gastroenterology. 1989; 97(5):1281-7. DOI: 10.1016/0016-5085(89)91700-9. View

12.

STOLOFF L . Aflatoxin is not a probably human carcinogen: the published evidence is sufficient. Regul Toxicol Pharmacol. 1989; 10(3):272-83. DOI: 10.1016/0273-2300(89)90054-8. View

13.

Wild C, Jiang Y, Sabbioni G, Chapot B, Montesano R . Evaluation of methods for quantitation of aflatoxin-albumin adducts and their application to human exposure assessment. Cancer Res. 1990; 50(2):245-51. View

14.

Ramsdell H, Eaton D . Species susceptibility to aflatoxin B1 carcinogenesis: comparative kinetics of microsomal biotransformation. Cancer Res. 1990; 50(3):615-20. View

15.

Dalcero A, Chulze S, Etcheverry M, Farnochi C, Varsavsky E . Aflatoxins in sunflower seeds: influence of Alternaria alternata on aflatoxin production by Aspergillus parasiticus. Mycopathologia. 1989; 108(1):31-5. DOI: 10.1007/BF00436781. View

16.

Coles B, Ketterer B . The role of glutathione and glutathione transferases in chemical carcinogenesis. Crit Rev Biochem Mol Biol. 1990; 25(1):47-70. DOI: 10.3109/10409239009090605. View

17.

Cuzick J, Routledge M, Jenkins D, Garner R . DNA adducts in different tissues of smokers and non-smokers. Int J Cancer. 1990; 45(4):673-8. DOI: 10.1002/ijc.2910450417. View

18.

Campbell T, Chen J, Liu C, Li J, Parpia B . Nonassociation of aflatoxin with primary liver cancer in a cross-sectional ecological survey in the People's Republic of China. Cancer Res. 1990; 50(21):6882-93. View

19.

Sabbioni G, Ambs S, Wogan G, Groopman J . The aflatoxin-lysine adduct quantified by high-performance liquid chromatography from human serum albumin samples. Carcinogenesis. 1990; 11(11):2063-6. DOI: 10.1093/carcin/11.11.2063. View

20.

Buss P, Caviezel M, Lutz W . Linear dose-response relationship for DNA adducts in rat liver from chronic exposure to aflatoxin B1. Carcinogenesis. 1990; 11(12):2133-5. DOI: 10.1093/carcin/11.12.2133. View