Protein associated with spread of osteosarcoma

The investigation of a simple protein has uncovered its uniquely complicated role in the spread of the childhood cancer, osteosarcoma. It turns out the protein, called ezrin, acts like an air traffic controller, coordinating multiple functions within a cancer cell and allowing it to endure stress conditions encountered during metastasis.

Though ezrin has been known as a key regulator of osteosarcoma's spread to the lungs, its mechanism was not known. Osteosarcoma is a tumor of bone that afflicts children, adolescents, and young adults. In most cases, the tumor is localized in the extremities and can be completely removed by surgery or amputation.

“The main cause of death in patients with patients with osteosarcoma is not the tumor on their limbs, but the failure of their lungs when the cancer spreads there,” explained Aykut Üren, MD, professor of oncology at Georgetown Lombardi Comprehensive Cancer Center in Washington, DC.

Üren and his colleagues have developed molecules that block the function of ezrin and prevent osteosarcoma spread in mouse models. In an attempt to explain the molecular mechanisms underlying ezrin-mediated cancer metastasis, the researchers discovered this previously unrecognized role for ezrin. Their finding was published in Molecular and Cellular Biology (2015; doi:10.1128/MCB.00332-15).

“Conventionally ezrin was believed to be functioning only on the inner surface of cancer cells,” Üren said. “But our new discovery indicates that ezrin may operate deeper in the core of the cell and regulate expression of critical genes that are important for cancer's spread.”

The scientists said that ezrin functions in a new capacity that is unusual for its family of proteins. They found that ezrin's unusual interaction with another protein called DDX3 results in modulation of genes that give cancer cells an edge in surviving harsh conditions.

“Knowing exactly how ezrin works will help our team develop the ezrin-targeting small molecules as potential new drugs to prevent the spread of cancer cells to lungs in osteosarcoma patients,” Uren said.

“Implications of our findings go beyond cancer research,” said the study's first author Haydar Çelik, PhD. “Because this work suggests a new molecular mechanism on how ezrin is involved in the regulation of mRNA translation, these observations may provide important clues for scientists investigating how viruses enter and replicate in human cells too.” 

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