AML score combining genetic, epigenetic changes might help guide therapy

Posted: January 9, 2014 at 7:54 am

Jan. 8, 2014 Currently, doctors use chromosome markers and gene mutations to determine the best treatment for a patient with acute myeloid leukemia (AML). But a new study suggests that a score based on seven mutated genes and the epigenetic changes that the researchers discovered were present might help guide treatment by identifying novel subsets of patients.

The findings, published in the Journal of Clinical Oncology, come from a study led by researchers at The Ohio State University Comprehensive Cancer Center -- Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC -- James).

The epigenetic change used in the study is DNA methylation. It involves the addition of methyl groups to DNA, which can reduce or silence a gene's activity, or expression. Abnormal DNA methylation alters normal gene expression and often plays an important role in cancer development.

Overall, the findings suggest that patients with a low score -- indicating that one or none of the seven genes is overexpressed in AML cells -- had the best outcomes, and that patients with high scores -- that is, with six or seven genes highly expressed -- had the poorest outcomes.

"To date, disease classification and prognostication for AML patients have been based largely on chromosomal and genetic markers," says principal investigator Clara D. Bloomfield, MD, Distinguished University Professor, Ohio State University Cancer Scholar and Senior Adviser.

"Epigenetic changes that affect gene expression have not been considered. Here we show that epigenetic changes in previously recognized and prognostically important mutated genes can identify novel patient subgroups, which might better help guide therapy," says Bloomfield, who is also the William Greenville Pace III Endowed Chair in Cancer Research at Ohio State.

The seven-gene panel was identified in 134 patients aged 60 and older with cytogenetically normal acute myeloid leukemia (CN-AML) who had been treated on Cancer and Leukemia Group B (CALGB)/Alliance clinical trials.

The researchers computed a score based on the number of genes in the panel that were highly expressed in patients' AML cells, and retrospectively tested the score in two groups of older patients (age 60 and up) and two groups of younger patients (age 59 and under).

Patients with a low score -- indicating that one or none of the seven genes is overexpressed -- had the best outcomes. Patients with high scores -- that is, with six or seven genes highly expressed -- had the poorest outcomes.

"For this seven-gene panel, the fewer highly expressed genes, the better the outcome," says first author Guido Marcucci, MD, professor of medicine and the associate director for translational research at the OSUCCC -- James. "In both younger and older patients, those who had no highly expressed genes, or had one highly expressed gene had the best outcomes."

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AML score combining genetic, epigenetic changes might help guide therapy

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