The new research findings help to understand mechanisms that lead to different types of intestinal tumours.
They show that the Lef1 gene suppresses the development and growth of colorectal cancer by restricting the formation of cancer stem cell niches.
In the journal Science Advances, cancer researchers from the iCAN Digital Precision Cancer Medicine Flagship at the University of Helsinki and HUS Helsinki University Hospital report novel research findings on stem cells in benign tumours of the gut, in which colorectal cancer originates.
They demonstrate that the Lef1 gene suppresses the development and growth of cancer by restricting the formation of cancer stem cell niches.
The Lef1 gene is induced in tumours known as adenomas in the gut.
What makes the report noteworthy is that cancer stem cells are important targets in the treatment of cancer.
Cancer stem cell niches can support stem cell growth as distinct regions within the tumour microenvironment.
The investigators found that when expression of the Lef1 gene was blocked, tumour stem cell niches increased, and tumour growth was markedly accelerated
“The Lef1 gene was discovered 30 years ago, and 20 years ago its function was linked to colorectal cancer. It was assumed that Lef1 functions like its relative, the Tcf4 gene, by increasing cell growth in healthy intestine and benign polyps and adenomas”, says Academician Kari Alitalo, University of Helsinki, the corresponding author of the study.
The new results by the team now show the opposite. Unlike its relative genes, the Lef1 gene is not expressed in healthy intestinal stem cell crypts but is activated in the precursor cells that develop into intestinal cancer.
Researchers also found that the human Lef1 gene is not active in so-called serrated cancers of the large intestine, referring to the serrated pattern on the surface of the tumour formed by proliferating stem cell crypts.
Results may help to find new treatment targets
The new research findings help to understand the mechanisms that lead to different types of intestinal tumours.
The results may also help to identify new treatment targets.
The function of the Lef1 gene in the body is to regulate the activity of hierarchically downstream genes.
It is amongst these genes that future research may find new treatment targets for blocking of cancer stem cell niches.
Cancer stem cell-targeted therapies play a key role in the treatment of cancer because other, more differentiated cells in the tumours have a relatively short lifespan even without treatment.
In the normal intestine, most differentiated cells, such as those that produce mucus or intestinal hormones or transfer foodstuffs to the body, regenerate from stem cells according to a complex genetic program in less than a week.
Meanwhile, “old” intestinal cells are eliminated in the faeces.
This genetic program is disrupted when DNA damage activates a cancer gene or inactivates a gene that restricts cell growth.
This means that the mutant cells remain locked to further growth, making them vulnerable to mutations in other genes needed for their development and growth into a malignant cancer.
This is usually a slow process that takes years. It is therefore advisable to remove precursors of intestinal cancer during intestinal endoscopy, especially in the case of elderly persons.
Source: University of Helsinki
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