Issue: April 2015
March 16, 2015
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Genomic maps could improve pediatric adrenocortical tumor identification, treatment

Issue: April 2015
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Genomic maps of pediatric adrenocortical tumors have revealed aberrant genetic and chromosomal changes that drive cancer, along with the sequence of changes that trigger it, according to research published in Nature Communications.

Perspective from Tobias Else, MD

Pediatric adrenocortical tumors had never been analyzed on a genomic scale before,” Gerard P. Zambetti, PhD, of the department of biochemistry, St. Jude Children’s Research Hospital, Memphis, Tennessee said in a news release.

The advance could improve identification of the rare childhood tumors and ultimately lead to better treatment.

“We haven’t had any good markers to establish a prognosis,” Raul Ribeiro, MD, in the department of oncology, said in the release. “The only characteristic that was somewhat consistent was tumor size, with larger tumors having a worse outcome than smaller ones. But even then, we would have cases where patients with large tumors would have good prognoses, and those with smaller tumors would do poorly.”

Researchers from St. Jude analyzed 37 adrenocortical tumors from patients with early- to late-stage disease using whole-genome, whole-exome and/or transcriptome sequencing.

The team identified key mutations involved in the tumors and their timing in cancer development. A mutation was detected in TP53, which is found on chromosome 17 and halts cell division under stress conditions. A molecular event occurred on chromosome 11, which harbors the IGF2 gene that promotes cell growth.

“With the chromosome 11 abnormality plus the TP53 mutation, you’ve lost the brakes and stepped on the accelerator at the same time,” Zambetti said.

Bioinformaticists involved in the genomic analysis determined that both chromosomal abnormalities occur early in tumor development, which suggests a fundamental role for the alterations in triggering tumor development, according to the release.

The investigators hope to confirm, in a larger group of patients, that a combination of mutations in genes ATRX and TP53 do lead to more aggressive tumors with poorer prognosis.

“Our focus now will be to determine whether the genomic abnormalities we have distinguished have clinical value in determining the prognosis for these tumors,” Ribeiro said.

The research could provide insight into other childhood cancers that show deregulation of chromosome 11 and over-activity of IGF2, including rhabdomyosarcoma, Wilms tumor and hepatoblastoma, and hold promise for improving the treatment of adrenocortical tumors .

“Collectively, these findings demonstrate the nature, timing and potential prognostic significance of key genetic alterations in pediatric (adrenocortical tumors) and outline a hypothetical model of pediatric adrenocortical tumorigenesis,” the researchers wrote.

Disclosure: The researchers report no relevant financial disclosures.