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U of T researcher links schizophrenia, gene mutations

15.02.2005


Brain overcompensates for mutations



The supersensitivity to dopamine that is characteristic of schizophrenia can be caused by mutations to a wide variety of genes, rather than alterations to just two or three specific genes, says a University of Toronto researcher.

In research published in the Feb. 15 edition of the Proceedings of the National Academy of Sciences, University of Toronto pharmacology professor Philip Seeman and his 16 colleagues in eight universities show that mutations to genes that have no relation to the brain’s dopamine receptors can still cause those receptors to become highly sensitive to their own dopamine, a condition that leads to psychosis.


By examining brain tissue from mice with various gene mutations, the researchers determined that the brain appears to compensate for the altered gene by becoming supersensitive to dopamine. Dopamine is a neurotransmitter that allows people to move, think and feel.

"The altered genes may provoke the brain to respond and compensate, and compensation often involves the dopamine system going into high gear," says Seeman. "The brain knows about mistakes, and to protect itself, it makes sense for the compensation to re-adjust the dopamine system to preserve the functions – such as movement and thought – that the body and brain needs."

An excessively active dopamine system can trigger the hallucinations and delusions experienced in schizophrenia, amphetamine drug abuse or Alzheimer’s disease. In drug abuse, the reaction is temporary; in schizophrenia, it recurs.

"This research brings together two worlds: the psychosis of drug abuse and schizophrenia," says Seeman. "There’s a common denominator based on the dopamine receptor."

It also offers a new direction for research into schizophrenia.

"Vast amounts of money are being spent to look for the magical two or three genes that cause psychosis but it could be many genes – and that includes genes that have nothing to do with dopamine," said Seeman. "It was a real eye-opener to have all these different pathways factored in."

The next step, says Seeman, is to identify and explain the mechanism that causes the brain to become supersensitive to dopamine, regardless of whether it’s caused by a gene mutation or by drug use.

Philip Seeman | EurekAlert!
Further information:
http://www.utoronto.ca

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