Bacteria and cancer

Christine P J Caygill; Michael J Hill

doi:10.1017/CBO9780511546280.010

9 - Bacteria and cancer

Published online by Cambridge University Press: 15 September 2009

Christine P J Caygill and

Michael J Hill

Edited by

Alistair J. Lax

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Christine P J Caygill: Affiliation:
University Department of Surgery, Royal Free Hospital
Michael J Hill: Affiliation:
European Cancer Prevention Organization, Nutrition Research Centre, South Bank University
Alistair J. Lax: Affiliation:
King's College London

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Summary

It has been estimated that more than 80% of human cancers are caused by environmental factors, and so are potentially preventable (Higginson, 1968). Bacteria are in a unique position to mediate between the host and its external environment because they naturally colonise all external surfaces. In addition, bacterial infections expose the host to further interactions with bacteria.

The role of the flora in protecting the host against infection has been well documented. The normal bacterial flora of the mouth protects against fungal infection; the normal flora of the intestine helps to protect against enteritis; the normal skin flora helps to protect against skin infection.

Furthermore, the gut bacterial flora has an overwhelmingly beneficial role in assisting digestion and in detoxifying ingested compounds of exogenous origin (Hill, 1995). However, there are situations where bacterial infection, which can be defined as bacteria being in the wrong place, can produce carcinogens and is associated with local cancers (e.g., bladder infection, nitrosamines, and bladder cancer). In addition, there are situations where the normal flora, carrying out its normal metabolic activity, can be exposed to very high levels of a substrate resulting in toxic levels of the product (e.g., colon bacteria, bile acids, and colon cancer).

In this chapter we will first discuss the types of carcinogens/mutagens that can be produced by bacterial action, and the situations in which this production might be significant. In addition, the gut bacteria release a wide range of anti-carcinogens from the diet as well, and these are discussed.

Type: Chapter
Information: Bacterial Protein Toxins
Role in the Interference with Cell Growth Regulation
, pp. 199 - 226

DOI: https://doi.org/10.1017/CBO9780511546280.010 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2005

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References

Adlercreutz, H (1984). Does fiber-rich food containing animal lignan precursers protect against both colon and breast cancer? An extension of the “‘fiber hypothesis.’”Gastroenterology, 86, 761–766Google Scholar

Adlercreutz H (1998). Human health and phytoestrogens. In Reproductive and Developmental Toxicology, ed. K S Korach, pp. 299–371, Marcel Dekker, New York

Adlercreutz, H (2002). Phytoestrogens and cancer. Lancet Oncol., 3, 364–373CrossRef Google Scholar PubMed

Andreu, A, Stapleton, A E, Fennell, C, Lockman, H A, Xercavins, M, Fernandez, F, and Stamm, W (1997). Urovirulence determinants in Escherichia coli strains causing prostatitisJ. Infect. Dis., 176, 464–469CrossRef Google Scholar PubMed

Aoki, K (1993). Excess incidence of lung cancer among pulmonary tuberculosis cases. Jpn. J. Clin. Oncol., 23, 205–220Google Scholar

Aries, V C, Crowther, J S, Drasar, B S, Hill, M J, and Williams, R E (1969). Bacteria and aetiology of cancer of large bowel. Gut, 10, 334–335CrossRef Google Scholar

Arnthorsson, G, Tulinuis, H, Egilsson, V, Sigvaldason, H, Magnusson, B, and Thorarinsson, H (1988). Gastric-cancer after gastrectomy. Int. J. Cancer, 42, 365–367CrossRef Google Scholar PubMed

Banatvala, N, Mayo, K, Megraud, F, Jennings, R, Deeks, J J, and Feldman, R A (1993). The cohort effect and Helicobacter pylori. J. Infect. Dis., 168, 219–221CrossRef Google Scholar PubMed

Blackburn, E K, Callende, S T, Dacie, J V, Doll, R, Girdwood, R H, Mollin, D L, Saracci, R, Stafford, J L, Thompson, R B, Varadi, S, and Wetherle, G (1968). Possible association between pernicious anaemia and leukaemia: A prospective study of 1,625 patients with a note on very high incidence of stomach cancer. Int. J. Cancer, 3, 163–170CrossRef Google Scholar PubMed

Brinton, L A, Gridley, G, Hrubec, Z, Hoover, R, and Fraumeni, J F (1989). Cancer risk following pernicious-anaemia. Brit. J. Cancer, 59, 810–813CrossRef Google Scholar PubMed

Bryan, G T (1971). Role of urinary tryptophan metabolites in etiology of bladder cancer. Am. J. Clin. Nutr., 24, 841–847CrossRef Google Scholar PubMed

Cameron, A J, Souto, E O, and Smyrk, T C (2002). Small adenocarcinomas of the esophagogastric junction: Association with intestinal metaplasia and dysplasia. Am. J. Gastroenterol., 97, 1375–80CrossRef Google Scholar PubMed

Caygill C, Hill M, Craven J, Hall R, and Miller C (1984). Relevance of gastric achlorhydria to human carcinogenesis. In: N-nitroso Compounds: Occurrence, Biological Effects and Relevance to Human Cancer, ed. I K O'Neil, R C Van Borstel, C T Miller, J Long, and H Bartsch, pp. 895–900, Lyon: IARC (Scientific Publication No 57)

Caygill, C, HillM, Kirkham J M, Kirkham J, and Northfield, T C (1988). Increased risk of biliary-tract cancer following gastric-surgery. Brit. J. Cancer, 57, 434–436CrossRef Google Scholar PubMed

Caygill, C P J, Braddick, M, Hill, M J, Knowles, R L, and Sharp, J C M (1995). The association between typhoid carriage, typhoid infection and subsequent cancer at a number of sites. Eur. J. Cancer Prev., 4, 187–193CrossRef Google Scholar

Caygill, C P J and Hill, M J (1992). Malignancy following surgery for benign peptic disease – A review. Ital. J. Gastroenterol., 24, 218–224Google Scholar PubMed

Caygill, C P J, Hill, M J, Braddick, M, and Sharp, J C M (1994). Cancer mortality in chronic typhoid and paratyphoid carriers. Lancet 343, 83–84CrossRef Google Scholar PubMed

Caygill, C P J, Hill, M J, Kirkham, J S, and Northfield, T C (1986). Mortality from gastric-cancer following gastric surgery for peptic-ulcer. Lancet, I, 1505–1505Google Scholar

Caygill, C P J, Knowles, R L, and Hall, R (1991). Increased risk of cancer mortality after vagotomy for peptic ulcer: A preliminary analysis. Eur. J. Cancer Prev., 1, 35–37CrossRef Google Scholar PubMed

Caygill, C P J, Knowles, R L, and Hill, M J (1990). The relationship between pernicious anaemia and gastric cancer. Deut. Zeit. Für Onkologie, 22, 120–122Google Scholar

Caygill, C P J, Hill, M J, Hall, C N, Kirkham, J S, and Northfield, T C (1987). Increased risk of cancer at multiple sites after gastric-surgery for peptic-ulcer. Gut, 28, 924–928CrossRef Google Scholar PubMed

Correa, P, Haenszel, W, Cuello, C, Tannenbaum, S, and Archer, M (1975). Model for gastric cancer epidemiology. Lancet, 2, 58–60CrossRef Google Scholar PubMed

Correa P (1988). Precancerous lesions of the stomach phenotypic changes and their determinants. In Gastric Carcinogenesis, ed. P I Reed and M J Hill, pp. 127–136, Amsterdam, New York, Oxford: Exerpta Medica

Devor E J (1982). Ethnogeographic patterns in gallbladder cancer. In Epidemiology of Cancer of the Digestive Tract, ed. P Correa and W Haenszel, pp. 197–225, Martinus Nijhof, The HagueCrossRef

Eide, T J, Viste, A, Andersen, A, and Soreide, O (1991). The risk of cancer at all sites following gastric operation for benign disease – a cohort of 4224 patients. Int. J. Cancer, 48, 333–339CrossRef Google Scholar PubMed

England, D M and Rosenblatt, J E (1977). Anaerobes in human biliary tracts. J. Clin. Microbiol., 6, 494–500Google Scholar PubMed

Eslick, G D and Talley, N J (1998). Helicobacter pylori infection and gastric carcinoma: A meta-analysis. Gastroenterology 114, G2428 Part 2 Suppl. SCrossRef Google Scholar

Eurogast Study Group: Forman, D, Debacker, G, Elder, J, Moller, H, Damotta, L C, Roy, P, Abid, L, Debacker, G, Tjonneland, A, Boeing, H, Haubrich, T, Wahrendorf, J, Manousos, O, Kafatos, A, Tulinius, H, Ogmundsdottir, H, Palli, D, Cipriani, F, Fukao, A, Tsugane, S, Miyajima, Y, Zatonski, W, Tycznski, J, Calheiros, J, Zakelj, M P, Potocnik, M, Webb, P, Knight, T, Wilson, A, Kaye, S, Potter, J, Newell, D G, Hengels, K J, Kyrtopoulos, S, Wild, C, Moller, H, Webb, P, Newell, D, Forman, D, Palli, D, Hengels, K, Elder, J, Debacker, G, and Coleman, M (1993). Epidemiology of, and risk-factors for, Helicobacter pylori infection among 3194 asymptomatic subjects in 17 populations. Gut, 34, 1672–1676Google Scholar

Forman, D, Newell, D G, Fullerton, F, Yarnell, J W G, Stacey, A R, Wald, N, and Sitas, F (1991). Association between infection with Helicobacter pylori and risk of gastric-cancer – evidence from a prospective investigation. Brit. Med. J., 302, 1302–1305CrossRef Google Scholar PubMed

Forman, D, Sitas, F, Newell, D G, Stacey, A R, Boreham, J, Peto, R, Campbell, T C, Li, J, and Chen, J (1990). Geographic association of Helicobacter-pylori antibody prevalence and gastric-cancer mortality in rural China. Int. J. Cancer, 46, 608–611CrossRef Google Scholar PubMed

Forman, D, Webb, P, and Parsonnet, J (1994). Helicobacter-pylori and gastric-cancer. Lancet, 343, 243–244CrossRef Google Scholar PubMed

Hicks, R M, Walters, C L, Elsebai, I, Elaasser, A B, Elmerzabani, M, and Gough, T A (1977). Demonstration of nitrosamines in human urine – Preliminary observations on a possible etiology for bladder cancer in association with chronic urinary-tract infections. P. Roy. Soc. Med., 70, 413–416Google Scholar PubMed

Higginson, J (1968). Theoretical possibilities of cancer prevention in man. P. Roy. Soc. Med., 61, 723–726Google Scholar PubMed

Hill M J (1986). Microbes and Human Carcinogenesis. Edward Arnold, London

Hill, M J (1991). Bile acids and colorectal cancer: Hypothesis. Eur. J. Cancer Prev., 1 (suppl 2), 69–74CrossRef Google Scholar PubMed

Hill M J (1995). Role of gut bacteria in human toxicology and pharmacology. Taylor and Francis, London

Hill, M J (1996). Endogenous N-nitrosation. Eur. J. Cancer Prev., 5 (suppl 1), 47–50CrossRef Google Scholar PubMed

Hill, M J, Crowther, J S, Drasar, B S, Hawkswor, G, Aries, V C, and Williams, R E (1971). Bacteria and aetiology of cancer of large bowel. Lancet I, 95–100Google Scholar

Hill, M J and Morson, B C (1978). Etiology of adenoma-carcinoma sequence in large bowel. Lancet I, 245–7Google Scholar

Hill, M J, Davies, G J, and Giacosa, A (2001). Should we change our dietary advice on cancer prevention?Eur. J. Cancer Prev., 10, 1–6CrossRef Google Scholar PubMed

Huang, J, Sridhar, S, Chen, Y, and Hunt, R H (1998). Meta-analysis of the relationship between Helicobacter pylori seropositivity and gastric cancer. Gastroenterlogy, 114, 1169–1179CrossRef Google Scholar PubMed

Inokuchi, K, Tokudome, S, Ikeda, M, Kuratsune, M, Ichimiya, H, Kaibara, N, Ikejiri, T, and Oka, N (1984). Mortality from carcinoma after partial gastrectomy. Gann, 75, 588–594Google Scholar PubMed

Johnson, I T, Williamson, G, and Musk, S R R (1994). Anticarcinogenic factors in plant foods: A new class of nutrients?Nutr. Res. Rev., 7, 175–204CrossRef Google Scholar PubMed

Kinoshita, N and Gelboin, H (1978). Beta-glucuronidase catalyzed-hydrolysis of benzo[a]pyrene-3-glucuronide and binding to DNA. Science, 199, 307–309CrossRef Google Scholar

Koop, H (2002). Gastroesophageal reflux disease and Barrett's esophagus. Endoscopy, 34, 97–103CrossRef Google Scholar PubMed

Vecchia, C and Chatenoud, L (1998). Fibres, whole-grain foods and breast and other cancers. Eur. J. Cancer Prev., 7 (Suppl 2), S25–S28CrossRef Google Scholar PubMed

Laqueur, G L and Spatz, M (1968). Toxicology of cycasin. Cancer Res., 28, 2262–2267Google Scholar PubMed

Lax, A J and Thomas, W (2002). How bacteria could cause cancer: One step at a time. Trends Microbiol., 10, 293–299CrossRef Google Scholar PubMed

Lin, J T, Wang, L Y, Wang, J T, Wang, T H, Yang, C S, and Chen, C J (1995). A nested case-control study on the association between Helicobacter-pylori infection and gastric-cancer risk in a cohort of 9775 men in Taiwan. Anticancer Res., 15, 603–606Google Scholar

Liu, C H, Chang, S H, Narko, K, Trifan, O C, Wu, M T, Smith, E, Haudenschild, C, Lane, T F, and Hla, T (2001). Over expression of cyclooxygenase-2 is sufficient to induce tumorigenesis in transgenic mice. J. Biol. Chem., 276, 18563–18569CrossRef Google Scholar

Lundegardh, G, Adami, H O, Helmick, C, Zack, M, and Meirik, O (1988). Stomach-cancer after partial gastrectomy for benign ulcer disease. New. Engl. J. Med., 319, 195–200CrossRef Google Scholar PubMed

Mack, T M, Yu, M C, Hanisch, R, and Henderson, B E (1986). Pancreas cancer and smoking, beverage consumption, and past medical history. J. Natl. Cancer I., 76, 49–60Google Scholar PubMed

Magee, P N (1996). Nitrosamines and human cancer: Introduction and overview. Eur. J. Cancer Prev., 5 (suppl 1), 7–10CrossRef Google Scholar PubMed

Magee, P N and Barnes, J M (1967). Carcinogenic N-nitroso compounds. Adv. Cancer Res., 10, 163–246CrossRef Google Scholar

Malaty, H M, Graham, D Y (1994). Importance of childhood socioeconomic status on the current prevalence of Helicobacter-pylori infection. Gut, 35, 742–745CrossRef Google Scholar PubMed

Martin, M S, Martin, F, Justrabo, E, Michel, M F, and Lagneau, A (1977). Immunoprophylaxis and therapy of grafted rat colonic carcinoma. Gut, 18, 232–235CrossRef Google Scholar PubMed

Mellemgaard, A and Gaarslev, K (1988). Risk of hepatobiliary cancer in carriers of Salmonella typhi. J. Natl. Cancer I., 80, 288CrossRef Google Scholar PubMed

Moller, H and Toftgaard, C (1991). Cancer occurrence in a cohort of patient surgically treated for peptic ulcer. Gut, 32, 740–744CrossRef Google Scholar

Morson, B C (1974). Evolution of cancer of colon and rectum. Cancer 34, 845–8493.0.CO;2-H>CrossRef Google Scholar

Morson, B C, Bussey, H J R, Day, D W, and Hill, M J (1983). Adenomas of large bowel. Cancer Surv., 2, 451–478Google Scholar

Mulvey, M A, Schilling, J D, and Hultgren, S J (2001). Establishment of a persistent Escherichia coli reservoir during the acute phase of a bladder infection. Infect. Immun., 69, 4572–4579CrossRef Google Scholar PubMed

Nath, G, Singh, H, and Shukla, V K (1997). Chronic typhoid carriage and carcinoma of the gallbladder. Eur. J. Cancer Prev., 6, 557–559CrossRef Google Scholar PubMed

Offerhaus, G J A, Tersmette, A C, Huibregtse, K, Vandestadt, J, Tersmette, K W F, Stijnen, T, Hoedemaeker, P J, Vandenbroucke, J P, and Tytgat, G N J (1988). Mortality caused by stomach cancer after remote partial gastrectomy for benign conditions: 40 years of follow-up of an Amsterdam cohort of 2633 postgastrectomy patients. Gut, 29, 1588–1590CrossRef Google Scholar PubMed

Osawa, H, Inoue, F, and Yoshida, Y (1996). Inverse relation of serum Helicobacter pylori antibody titres and extent of intestinal metaplasia. J. Clin. Pathol., 49, 112–115CrossRef Google Scholar PubMed

Parker, A S, Cerhan, J R, Lynch, C F, Leibovich, B C, and Cantor, K P (2004). History of urinary tract infection and risk of renal cell carcinoma. Am. J. Epidemiol., 159, 42–48CrossRef Google Scholar PubMed

Parsonnet, J, Blaser, M J, Perez-Perez, G I, Hargrett-Bean, N, and Tauxe, R V (1992). Symptoms and risk factors of Helicobacter pylori infection in a cohort of epidemiolgists. Gastroenterology, 102, 41–46CrossRef Google Scholar

Parsonnet, J, Friedman, G D, Vandersteen, D P, Chang, Y, Vogelman, J H, Orentreich, N, and Sibley, R K (1991). Helicobacter-pylori infection and the risk of gastric-carcinoma. New Engl. J. Med., 325, 1127–1131CrossRef Google Scholar PubMed

Radomski, J L, Greenwald, D, Hearn, W L, Block, N L, and Woods, F M (1978). Nitrosamine formation in bladder infections and its role in the etiology of bladder cancer. J. Urology, 120, 48–56CrossRef Google Scholar PubMed

Reddy, B S (1992). Dietary-fat and colon cancer – animal model studies. Lipids, 27, 807–813CrossRef Google Scholar PubMed

Rippere-Lampe, K E, Lang, M, Ceri, H, Olson, M, Lockman, H A, and O'Brien, A D (2001a). Cytotoxic Necrotizing Factor type 1-positive Escherichia coli causes increased inflammation and tissue damage to the prostate in a rat prostatitis model. Infect. Immun., 69, 6515–6519CrossRef Google Scholar

Rippere-Lampe, K E, O'Brien, A D, Conran, R, and Lockman, H A (2001b). Mutation of the gene encoding cytotoxic necrotizing factor type 1 (cnf1) attenuates the virulence of uropathogenic Escherichia coli. Infect. Immun., 69, 3954–3964CrossRef Google Scholar

Rokitansky C (1854). Manual of Pathological Anatomy. Sydenham Soc, London

Ross, A H M, Smith, M A, Anderson, J R, and Small, W P (1982). Late mortality after surgery for peptic-ulcer. New Engl. J. Med., 307, 519–522CrossRef Google Scholar PubMed

Sandler, R S, Johnson, M D, and Holland, K L (1984). Risk of stomach-cancer after gastric-surgery for benign conditions – a case control study. Digest Dis. Sci., 29, 703–708CrossRef Google Scholar PubMed

Schoental, R (1979). The role of Fusarium mycotoxins in the aetiology of tumours of the digestive tract of man and animals. Front. Gastr. Res., 4, 17–24CrossRef Google Scholar PubMed

Sharma, P (2001). Helicobacter pylori: A debated factor in gastroesophageal reflux disease. Digest. Dis., 19, 127–33CrossRef Google Scholar PubMed

Shukla, V K, Singh, H, Pandey, M, Upadhyaya, S K, and Nath, G (2000). Carcinoma of the gallbladder: Is it a sequel of typhoid?Digest. Dis. Sci., 45, 900–903CrossRef Google Scholar PubMed

Siman, J H, Forsgren, A, Berglund, G, and Floren, C H (2001). Helicobacter pylori infection is associated with a decreased risk of developing oesophageal neoplasms. Helicobacter, 6, 310–6CrossRef Google Scholar

Siman, J H, Forsgren, A, Berglund, G, and Floren, C H (1997). Association between Helicobacter pylori and gastric carcinoma in the city of Malmo, Sweden – A prospective study. Scand. J. Gastroentero., 32, 1215–1221CrossRef Google Scholar PubMed

Sinclair, T and Tuxford, A F (1971). Incidence of urinary tract infection and asymptomatic bacteriuria in a semi-rural practice. Practitioner, 207, 81–90Google Scholar

Smith K L and Parsonnet J (1998). Helicobacter pylori In Bacterial Infections of Humans, ed. A Evans and P Brachman, pp. 337–353, Plenum Publishing, New York

Stalsberg, H and Taksdal, S (1971). Stomach cancer following gastric surgery for benign conditions. Lancet, 2, 1175–1177CrossRef Google Scholar PubMed

Sueoka, E, Nishiwaki, S, Okabe, S, Iida, N, Suganuma, M, Yano, I, Aoki, K, and Fujiki, H (1995). Activation of protein kinase C by cord factor trenalose 6-monomy colate, resulting in tumor necrosis Factor-alpha release in mouselung tissue, Jpn. J. Cancer Res., 86, 749–CrossRef Google Scholar

Tersmette, A C, Offerhaus, G J A, Giardiello, F M, Tersmette, K W F, Vandenbrouke, J P, and Tytgat, G N J (1990). Occurrence of non-gastric cancer in the digestive tract after remote partial gastrectomy – analysis of an Amsterdam cohort. Int. J. Cancer, 46, 792–795CrossRef Google Scholar PubMed

Thomas, W, Ascott, Z K, Harmey, D, Slice, L W, Rozengurt, E, and Lax, A J (2001). Cytotoxic Necrotizing Factor from Escherichia coli induces RhoA-dependent expression of the cyclooxygenase-2 gene. Infect. Immun., 69, 6839–6845CrossRef Google Scholar PubMed

Toftgaard, C (1989). Gastric-cancer after peptic-ulcer surgery – A historic prospective cohort investigation. Ann. Surg., 210, 159–164CrossRef Google Scholar PubMed

Tokudome, S, Kono, S, Ikeda, M, Kuratsune, M, Sano, C, Inokuchi, K, Kodama, Y, Ichimiya, H, Nakayama, F, Kaibara, N, Koga, S, Yamada, H, Ikejiri, T, Oka, N, and Tsurumaru, H (1984). A prospective study on primary gastric stump cancer following partial gastrectomy for benign gastroduodenal diseases. Cancer Res., 44, 2208–2212Google Scholar PubMed

Viste, P, Opheim, P, Thunold, J, Eide, G E, Bjornestad, E, Skarstein, A, Hartveit, F, Eide, T J, and Soreide, O (1986). Risk of carcinoma following gastric operations for benign disease – a historical cohort study of 3470 patients. Lancet, 2, 502–505CrossRef Google Scholar PubMed

Watt, P C H, Patterson, C C, and Kennedy, T L (1984). Late mortality after vagotomy and drainage for duodenal ulcer. Brit. Med. J., 288, 1335–1338CrossRef Google Scholar PubMed

Welton, J C, Marr, J S, and Friedman, S M (1979). Association between hepatobiliary cancer and typhoid carrier state. Lancet I, 791–794CrossRef Google Scholar

Wogan G N (1973). Aflatoxin carcinogenesis. In Methods in Cancer Research, ed. H Bartsch, p. 309, Academic Press, New York

Wynder, E L (1975). Epidemiological evaluation of causes of cancer of pancreas. Cancer Res., 35, 2228–2233Google Scholar

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