Blood cancer: High doses of vitamin C could encourage stem cells to die – Express.co.uk


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The study suggests it may encourage blood cancer stem cells to die.

Researchers say Vitamin C may "tell" faulty stem cells in the bone marrow to mature and die normally, instead of multiplying to cause blood cancers.

They explained that certain genetic changes are known to reduce the ability of an enzyme called TET2 to encourage stem cells to become mature blood cells, which eventually die, in many patients with certain kinds of leukaemia.

The new study, published online by the journal Cell. found that vitamin C activated TET2 function in mice engineered to be deficient in the enzyme.

Study corresponding author Professor Benjamin Neel, of the Perlmutter Cancer Centre in the United States, said: "We're excited by the prospect that high-dose vitamin C might become a safe treatment for blood diseases caused by TET2-deficient leukemia stem cells, most likely in combination with other targeted therapies."

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We're excited by the prospect that high-dose vitamin C might become a safe treatment for blood diseases

Benjamin Neel

He said changes in the genetic code that reduce TET2 function are found in 10 per cent of patients with acute myeloid leukaemia (AML), 30 per cent of those with a form of pre-leukaemia called myelodysplastic syndrome, and in nearly 50 per cent of patients with chronic myelomonocytic leukaemia.

Such cancers cause anaemia, infection risk, and bleeding as abnormal stem cells multiply in the bone marrow until they interfere with blood cell production, with the number of cases increasing as the population ages.

Prof Neel said the study results revolve around the relationship between TET2 and cytosine, one of the four nucleic acid "letters" that comprise the DNA code in genes.

To determine the effect of mutations that reduce TET2 function in abnormal stem cells, the researchers genetically engineered mice such that the scientists could switch the TET2 gene on or off.

Similar to the naturally occurring effects of TET2 mutations in mice or humans, using molecular biology techniques to turn off TET2 in mice caused abnormal stem cell behaviour.

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Prof Neel said, remarkably, the changes were reversed when TET2 expression was restored by a genetic trick.

Previous work had shown that vitamin C could stimulate the activity of TET2 and its relatives TET1 and TET3.

Because only one of the two copies of the TET2 gene in each stem cell is usually affected in TET2-mutant blood diseases, the researchers hypothesised that high doses of vitamin C, which can only be given intravenously, might reverse the effects of TET2 deficiency by turning up the action of the remaining functional gene.

They found that vitamin C did the same thing as restoring TET2 function genetically.

By promoting DNA demethylation, high-dose vitamin C treatment induced stem cells to mature, and also suppressed the growth of leukaemia cancer stem cells from human patients implanted in mice.

Study first author Doctor Luisa Cimmino, of New York University Langone Health, said: "Interestingly, we also found that vitamin C treatment had an effect on leukaemic stem cells that resembled damage to their DNA.

"For this reason, we decided to combine vitamin C with a PARP inhibitor, a drug type known to cause cancer cell death by blocking the repair of DNA damage, and already approved for treating certain patients with ovarian cancer."

The researchers found that the combination had an enhanced effect on leukaemia stem cells, further shifting them from self-renewal back toward maturity and cell death.

Dr Cimmino said the results also suggest that vitamin C might drive leukaemic stem cells without TET2 mutations toward death, given that it turns up any TET2 activity normally in place.

Corresponding author Professor Iannis Aifantis, also of NYU Langone Health, added: "Our team is working to systematically identify genetic changes that contribute to risk for leukaemia in significant groups of patients.

"This study adds the targeting of abnormal TET2-driven DNA demethylation to our list of potential new treatment approaches."

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