Johanna Uittamo scite author profile

We present a novel concept on carcinogenesis mediated by oral microbiota. Oral micro-organisms are capable of metabolizing alcohol to acetaldehyde. This finding casts light on the observed association between poor oral hygiene and oral cancer. Ethanol, as such, is not carcinogenic, but its first metabolite acetaldehyde is indisputably carcinogenic. Several gastro-intestinal microbial species possess the enzyme alcohol dehydrogenase (ADH), which is also the enzyme responsible for alcohol metabolism in the liver. In oral microbiota, we observed that species such as the ubiquitous viridans streptococci and Candida also possess ADH. Ethanol can be detected in the mouth hours after the consumption of alcoholic beverages. Patients with poor oral health status have shown higher salivary acetaldehyde concentrations than those with better oral health. It is thus understandable that ADH-containing micro-organisms in the mouth present a risk for carcinogenic acetaldehyde production, with subsequent potential for the development of oral cancer, particularly among heavy drinkers. In this article, we briefly review this area of investigation and conclude by highlighting some future possibilities for the control of carcinogenesis.

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Acetaldehyde production from ethanol and glucose by non-Candidaalbicans yeasts in vitro

Nieminen

Uittamo

Salaspuro

et al. 2009

Oral Oncology

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Acetaldehyde production and microbial colonization in oral squamous cell carcinoma and oral lichenoid disease

Marttila

Uittamo

Rusanen

et al. 2013

Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology

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Chronic candidosis and oral cancer in APECED‐patients: Production of carcinogenic acetaldehyde from glucose and ethanol by Candida albicans

Uittamo

Siikala

Kaihovaara

et al. 2008

Intl Journal of Cancer

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Fermentative 2‐carbon metabolism produces carcinogenic levels of acetaldehyde in Candida albicans

Marttila

Bowyer

Sanglard

et al. 2013

Molecular Oral Microbiology

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(i) to determine the levels of acetaldehyde produced by Candida albicans in the presence of glucose in low oxygen tension in vitro; (ii) to analyse the expression levels of genes involved in the pyruvate-bypass and acetaldehyde production; and (iii) to analyse whether any correlations exist between acetaldehyde levels, alcohol dehydrogenase enzyme activity or expression of the genes involved in the pyruvate-bypass. Candida albicans strains were isolated from patients with oral squamous cell carcinoma (n = 5), autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) patients with chronic oral candidosis (n = 5), and control patients (n = 5). The acetaldehyde and ethanol production by these isolates grown under low oxygen tension in the presence of glucose was determined, and the expression of alcohol dehydrogenase (ADH1 and ADH2), pyruvate decarboxylase (PDC11), aldehyde dehydrogenase (ALD6) and acetyl-CoA synthetase (ACS1 and ACS2) and Adh enzyme activity were analysed. The C. albicans isolates produced high levels of acetaldehyde from glucose under low oxygen tension. The acetaldehyde levels did not correlate with the expression of ADH1, ADH2 or PDC11 but correlated with the expression of down-stream genes ALD6 and ACS1. Significant differences in the gene expressions were measured between strains isolated from different patient groups. Under low oxygen tension ALD6 and ACS1, instead of ADH1 or ADH2, appear the most reliable indicators of candidal acetaldehyde production from glucose.

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Severe odontogenic infections: focus on more effective early treatment

Uittamo

Löfgren

Hirvikangas

et al. 2020

British Journal of Oral and Maxillofacial Surgery

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Xylitol inhibits carcinogenic acetaldehyde production by Candida species

Uittamo

Nieminen

Kaihovaara

et al. 2011

Intl Journal of Cancer

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Acetaldehyde is a highly toxic and mutagenic product of alcohol fermentation and metabolism which has been classified as a Class I carcinogen for humans by the International Agency for Research on Cancer of the World Health Organisation (WHO). Many Candida species representing oral microbiota have been shown to be capable of marked acetaldehyde production. The aim of our study was to examine the effects of various sugar alcohols and sugars on microbial acetaldehyde production. The study hypothesis was that xylitol could reduce the amount of acetaldehyde produced by Candida. Laboratory and clinical isolates of seven Candida species were selected for the study. The isolates were incubated in 12 mM ethanol and 110 mM glucose, fructose or xylitol at 37°C for 30 min and the formed acetaldehyde was measured by gas chromatography. Xylitol significantly (p < 0.0001) reduced the amount of acetaldehyde produced from ethanol by 84%. In the absence of xylitol, the mean acetaldehyde production in ethanol incubation was 220.5 μM and in ethanol–xylitol incubation 32.8 μM. This was found to be mediated by inhibition of the alcohol dehydrogenase enzyme activity. Coincubation with glucose reduced the amount of produced acetaldehyde by 23% and coincubation with fructose by 29%. At concentrations that are representative of those found in the oral cavity during the intake of proprietary xylitol products, xylitol was found to reduce the production of carcinogenic acetaldehyde from ethanol by Candida below the mutagenic level of 40–100 μM.

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Patient injury-related alcohol use—underestimated in patients with facial fractures?

Hirvikangas

Bertell

Marttila

et al. 2020

Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology

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Johanna Uittamo

Oral micro-organisms in the etiology of cancer

Acetaldehyde production from ethanol and glucose by non-Candidaalbicans yeasts in vitro

Acetaldehyde production and microbial colonization in oral squamous cell carcinoma and oral lichenoid disease

Chronic candidosis and oral cancer in APECED‐patients: Production of carcinogenic acetaldehyde from glucose and ethanol by Candida albicans

Fermentative 2‐carbon metabolism produces carcinogenic levels of acetaldehyde in Candida albicans

Severe odontogenic infections: focus on more effective early treatment

Xylitol inhibits carcinogenic acetaldehyde production by Candida species

Patient injury-related alcohol use—underestimated in patients with facial fractures?

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