Colon cancer is caused by bacteria and cell stress

Google+ Pinterest LinkedIn Tumblr +

Professor Dirk Haller and his team, from the Department of Nutrition and Immunology at the Weihenstephan Science Centre of the TUM, have found that the microbiota in the intestines fuels tumour growth.

The study was published in Gastroenterology.

“With our study we originally wanted to study the role of bacteria in the intestines in the development of intestinal inflammation,” explains Haller.

“However, the surprising result for us was the discovery that bacteria together with stress in cells caused tumours (exclusively in the colon) and without the involvement of inflammation”.

The investigations were initially carried out using the mouse model.

In germ-free (i.e. sterile) animals, in which the activated transcription factor ATF6 regulated stress in the intestinal mucosa (intestinal epithelium), no change could be observed.

But as soon as the microbiota, i.e. all the microorganisms in the intestine, were transplanted back into germ-free animals, tumours developed in the colon of the mice.

Using Koch’s postulates, Haller and his team were able to show that microorganisms are involved in the development of cancer in the colon.

The transcription factor ATF6 regulates stress in cells, and the intensity and duration of activation is increased with diseases.

“However, it is not cell stress alone that leads to tumour growth, but the combination of stress and microbiota that favours cancer growth,” says Haller, head of ZIEL – the Institute for Food & Health at TUM.

Subsequently, in cooperation with the clinic on the right side of the Isar (Prof. Janssen), the data of 541 patients with colon cancer were examined.

In those cases where the level of transcription factor ATF6, which triggers cell stress, was significantly increased, the recurrence rate after surgery increased: About ten percent of patients were at risk of getting colon cancer a second time.

“In certain patients, the protein ATF6 could serve as a diagnostic marker for an increased risk of colon cancer and could indicate the start of therapy at an early stage,” said Prof. Haller – “a microbial therapy is conceivable, when we know more about the composition of the bacterial flora. What now became clear, however: Chronic inflammation has no effect on cancer development in the colon.”


Source: Technical University of Munich (TUM)

Share.

About Author

ONA Editor

The ONA Editor curates oncology news, views and reviews from Australia and around the world for our readers. In aggregated content, original sources will be acknowledged in the article footer.

Leave A Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.