First genomic blueprint of broccoli's anti-cancer agent

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Researchers at the Johns Hopkins Bloomberg School of Public Health
have identified the blueprint of genes and enzymes in the body that
enable sulforaphane, a compound found in broccoli and other
vegetables, to prevent cancer and remove toxins from cells. The
discovery could lead to the identification of other
cancer-preventing compounds using the same 'gene chip' technology.

Researchers at the Johns Hopkins Bloomberg School of Public Health have identified the blueprint of genes and enzymes in the body that enable sulforaphane, a compound found in broccoli and other vegetables, to prevent cancer and remove toxins from cells.

The discovery was made using a "gene chip" that allows researchers to monitor the complex interactions of thousands of proteins on a whole genome rather than one at time.

The study, published in the 15 September issue of Cancer Research​, is the first gene profiling analysis of a cancer-preventing agent using this approach. The researchers believe the findings provide a better understanding of the body's defence mechanisms and could lead to the identification of other cancer-preventing food compounds and strategies.

For the study, the researchers analysed the downstream genomic targets of the transcription factor Nrf2 (Nuclear factor E2 p45-related factor 2), which scientists previously knew was activated in response to anti-cancer agents such as sulforaphane. The transcription factor Nrf2, in response to cancer-preventive agents, turns on genes and pathways inside the cell, whose products help in ridding the body of carcinogens.

"Carcinogens mutate the DNA in genes, which leads to cancer. Now we know that sulforaphane present in broccoli can turn an extensive network of genes and pathways, which can annihilate a broad spectrum of carcinogens,"​ said Dr Shyam Biswal, assistant professor of environmental health sciences at the Johns Hopkins​ Bloomberg School of Public Health.

"With this study we've identified the specific genes regulated in response to a promising chemopreventive agent, which tells us how the process of cancer chemoprevention is occurring and provides us with a novel strategy for evaluating potential cancer preventive agents in future,"​ explained Dr Biswal.

Dr Biswal and his colleagues studied the gene profile of small intestines of mice to identify the genes regulated by Nrf2. The researchers treated groups of mice with sulforaphane and compared the effects to control groups in which the Nrf2 gene was knocked off.

"In summary, this study expands the scope of the positive, coordinated regulation of a wide variety of cellular defense proteins by Nrf2 and underscores the potential of Nrf2 activation as a strategy for achieving cancer chemoprevention,"​ said Biswal.

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