Bonding with a mate changes brain chemistry, researchers find

Working with mouse-like rodents called prairie voles, scientists have found that close monogamous relationships alter the chemistry of the brain, fostering the release of a compound that builds loyalty, but also plays a role in depression during times of separation.

The scientists found that after four days away from their mates, male voles experienced changes in the emotional center of their brains, causing them to become unresponsive and lethargic. When given a drug that blocked the changes, however, lonely voles emerged from their funk.

The same loyalty chemical is found in human brains, and scientists said the research could provide insight into treating human grief and separation.

"Whenever you form a pair bond, it changes your neurochemistry," said Larry J. Young, a neuroscientist at Emory University and an author of the study. "If you lose that partner, it has a dramatic impact on the brain."

Experts noted that human relationships are more complex than animal bonds and involve culture, socialization and rational thought. Thus, there may be little to learn from the depressed voles.

"When humans grieve they don't just give up and sit like lumps," George Bonanno, a psychologist at Columbia University's Teachers College who studies the process of bereavement. "They have purposeful behavior even when they are feeling lousy."

Still, Young said the experiment might help explain the longing people feel for partners who are absent or who die. The study, published Wednesday in the journal Neurospychopharmacology, might also shed light on why couples remain in relationships that are bad for them, he said.

Prairie voles, which are found in the wild through much of North America, are used to study monogamy because they are among the few animals that pair up like humans. Although the voles may occasionally stray from the nest, they eventually return to their lifelong partners to help raise litter after litter.

The brain chemical corticotropin-releasing factor, or CRF, has a key role in maintaining those loyal bonds, researchers found.

After separating nine male voles from their partners, Young and colleagues from Emory and the University of Regensburg in Germany subjected the animals to tests measuring their ability to cope with stress.

When placed in a pool of water, the voles passively floated instead of trying to swim. In a second test, the animals failed to struggle when suspended by their tails.