Oct. 12 (Bloomberg) -- The naked mole rat, a hairless African rodent with a long life-span and resistance to tumors, may hold clues to countering cancer and age-related ailments in people, said scientists who have mapped the creature’s genome.
A first analysis of the naked mole rat’s genome has already revealed insights into its longevity, and that it split from its mice and rat cousins about 73 million years ago, according to the research published today in the journal Nature.
Unlike the mouse, the naked mole rat can live 10 times longer, or more than 30 years. While 95 percent of mice die from cancer, the naked mole rat is impervious to the disease, said Andrei Seluanov, a researcher at the University of Rochester who studies the rodents. The unusual traits of the creature, which lives in large ant-like colonies with a single breeding female or queen, together with its genomic information, offer new opportunities for understanding aging and other biological processes, the researchers said in the report.
“It’s an unusual animal with several very interesting features: a long lifespan, resistance to cancer, and its social structure,” said study author Vadim Gladyshev, a Harvard Medical School professor and the director of redox medicine at Brigham & Women’s Hospital in Boston. “We want to compare the naked mole rat with other mammals to find more general themes and traits that may be consistent with a long lifespan.”
Because 93 percent of mouse genes are similar to naked mole rat genes, the sequenced genome may enable scientists to transfer naked mole rat genes into mice, to see where the cancer benefits are, said Seluanov, who wasn’t affiliated with the study, in a telephone interview.
When the scientists sequenced brain samples from a newborn, a 4-year-old and a 20-year-old naked mole rat, they found few variations in activation based on age. That’s unusual in mammals; humans underexpress 33 genes and overexpress 21 when they age.
One gene that’s muted in the human brain and amplified in the naked mole rat’s brain influenced the clumping of beta amyloid, the characteristic protein in Alzheimer’s disease. Another made it difficult for cells to proliferate, limiting cancer risk in the rodents. The different activation patterns may explain the animal’s unusual longevity, the scientists wrote.
The journal also published a paper on the genetic sequencing and comparative analysis of 29 other mammalian genomes, including humans, chimpanzees, mice and dogs. About 4 percent of the human genome consists of sequences preserved throughout these animals.
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