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Genetic basis for aggressive tumours discovered

A checkpoint mutation in mice might provide clues to the progression towards aggressive, treatment-resistant cancers, according to a study published in 18 January Nature. Researchers from the Memorial Sloan-Kettering Cancer Center in New York genetically engineered a mutation in the MAD2 gene that eliminates a checkpoint in mitotic division essential for ensuring the equal distribution of chromosomes to the two daughter cells. The mutation caused the tumour cells to become very genetically unsta

SPIS MedWire(MedWire@sciencenow.com)

A checkpoint mutation in mice might provide clues to the progression towards aggressive, treatment-resistant cancers, according to a study published in 18 January Nature. Researchers from the Memorial Sloan-Kettering Cancer Center in New York genetically engineered a mutation in the MAD2 gene that eliminates a checkpoint in mitotic division essential for ensuring the equal distribution of chromosomes to the two daughter cells. The mutation caused the tumour cells to become very genetically unstable and resistant to taxanes. "Although the loss of one copy of MAD2 caused only subtle decreases in the amount of MAD2 protein levels, it had a great impact on the cell's genetic behaviour," said Loren Michel, one of the authors. "Our results suggest that developing a similar test to detect the changes in this genetic pathway in human cancer could be used to predict disease progression."

Michel et al also found that the same mutation could...

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