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Scientists discover a new mechanism in childhood kidney cancer

As an embryo develops, its cells must learn what to do with the thousands of genes they've been equipped with.

That's why each cell comes with a detailed gene-expression manual outlining exactly which genes should be switched on, to what extent, and when.

To execute their respective manuals, the cells employ so-called chromatin reader proteins that identify which gene is up for expression.

Now a study has found that a problem in this gene-regulatory process may cause normal cells to turn malignant and produce Wilms' tumour, the most common kidney cancer in children.

The findings, published in Nature, open up new treatment possibilities for the disease, which is currently treated by surgery and chemotherapy.

The findings also raise intriguing questions about other cancer types.

The researchers found that the implicated reader protein causes problems by acquiring a new property and being too active.

"We have never seen this type of mechanism before," said Liling Wan, a former postdoctoral associate in the Rockefeller lab of C. David Allis, and now an assistant professor at the University of Pennsylvania. "It raises the question whether this type of molecular mechanism is also hijacked in other cancer types."

Reading too well

A few years ago, Wan discovered that a reader protein called ENL is involved in blood cancer leukaemia by activating the cancer-causing genes.

Her attention was turned to Wilms' tumour recently, when it was discovered that some people with Wilms' tumour carry mutations in the gene that codes for ENL.

To see whether these mutations are indeed involved in the formation of Wilms' tumour, Wan and her colleagues introduced the mutations to mouse embryonic stem cells, and then instructed the cells to develop all the way into kidneys in a petri dish.

"Quite strikingly, when you insert the mutation, you start to see a tumour-like structure appearing in the developing kidney, which resembles what we typically see in human Wilms tumour," Wan said.

The team then took a closer look to understand how mutations in ENL turn these cells into tumour cells.

In both the cells that carry the mutation and in unaltered cells, they saw ENL proteins land on the same locations in the genome, suggesting there was nothing wrong with the mutant ENL protein's ability to recognise which genes should be expressed.

The mutant proteins, however, clumped at these sites, causing the genes to be constantly transcribed into RNA, the first steps before turning into proteins.

"This abnormal gene expression confuses the cells as to what they want to become," Wan added. "Instead of differentiating into mature kidney cells, they start to proliferate more and get stuck in the immature stage, which leads to the formation of a tumour."

Having discovered this previously unknown mechanism in cancer, Wan and her colleagues are now asking if it might be possible to revert cancer cells back to normal, for instance with drugs that disrupt ENL's ability to bind to the genome or to form clumps.

"So far we have proof of concept that intervening in any stage of this process can stabilise the gene expression levels and allow the cells to develop normally," Wan concluded.

Source: Rockefeller University



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