Neurologic, BP drugs may reduce breast tumour development

Early treatment studies in people have shown that these two drugs might work in tandem to disrupt the growth of tumour

Researchers have found that combining neurologic and blood pressure drugs may reduce breast tumour development.

According to the study, published in the journal Scientific Reports, adding a medication used to treat epilepsy, bipolar disorder and migraines to a blood pressure medicine reversed some aspects of breast cancer in the offspring of mice at high risk of the disease because of the high-fat diet-fed to their mothers during pregnancy.

"We believe that our research is the first to show that we can reverse some aspects of increased breast cancer risk found in offspring of mouse mothers fed a high-fat diet during pregnancy," said study researcher Leena A Hilakivi-Clarke from the Georgetown University in the US.

"This finding may have important implications in people because of exposures in the womb to certain chemicals, or a mother's high-fat diet, or being obese, can subsequently increase a daughter's breast cancer risk," Hilakivi-Clarke.

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According to the researchers, the key drug in the study regimen was valproic acid which, among several targets, inhibits histone deacetylase (HDAC), an important epigenetic silencer of genes.

In contrast to mutations that permanently disrupt the normal functions of genes, epigenetic modifications are reversible.

Valproic acid was combined with the blood pressure medication hydralazine that inhibits another critical epigenetic regulator, DNA methyltransferase (DNMT).

Early treatment studies in people have shown that these two drugs can work in tandem to disrupt tumour growth.

These research findings demonstrate how impactful an epigenetic methyl group addition or subtraction from DNA can be.

Compounds that reduce methylation of tumour suppressor genes that are excessively methylated (hypermethylated) can be beneficial.

However, these drugs can have the opposite effect if tumour suppressor genes are not hypermethylated; they may remove methyl groups from cancer-causing genes, making these genes more active and potentially leading to more aggressive cancers.

The other key aspect of this finding involves the potential impact of diet on cancer risk. Many fruits and vegetables have compounds (such as flavones) that chemically react in the same ways as the HDAC- and DNMT-inhibiting drugs in this study.

Some compounds in these foods, especially folic acid, have opposite effects.

This research suggests that exposure to a high fat diet or endocrine disrupting chemicals in the womb might be reversed by the consumption of foods high in DNMT and HDAC inhibitors, while those who have not had such exposures might also gain a cancer protective benefit from consuming foods high in folic acid.

The scientists noted, however, that their findings, particularly as they relate to diet, need to be studied in people.

"Our next step will be to try to identify biomarkers in humans that indicate an exposure in the womb to diets or endocrine disrupting chemicals that could increase breast cancer risk later in life," said Hilakivi-Clarke.

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