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How Drugs for Schizophrenia Sow Seeds of Resistance

By Senior News Editor
Reviewed by John M. Grohol, Psy.D. on August 14, 2012

How Drugs for Schizophrenia Sow Seeds of ResistanceA new study has identified why certain drugs have mixed success in treating schizophrenia; effective at first, but with chronic administration becoming less and less so.

In the study, reported online in the journal Nature Neuroscience, scientists investigated the external genetic reasons (called epigenetic factors) that cause treatment-resistance to atypical antipsychotic drugs.

Use of antipsychotic drugs is the standard of care for schizophrenia. Researchers at Mount Sinai School of Medicine report that 30 percent of individuals with schizophrenia do not respond to currently available treatments.

Researchers discovered that, over time, an enzyme in the brains of schizophrenic patients, analyzed at autopsy, begins to compensate for the prolonged chemical changes caused by antipsychotics, resulting in reduced efficacy of the drugs.

“These results are groundbreaking because they show that drug resistance may be caused by the very medications prescribed to treat schizophrenia, when administered chronically,” said Javier Gonzalez-Maeso, Ph.D., lead investigator on the study.

Researchers found that an enzyme called HDAC2 was highly expressed in the brain of mice chronically treated with antipsychotic drugs, resulting in lower expression of the receptor called mGlu2 and a recurrence of psychotic symptoms. A similar finding was observed in the postmortem brains of schizophrenic patients.

In response, the research team administered a chemical called suberoylanilide hydroxamic acid (SAHA), which inhibits the entire family of HDACs. This treatment prevented the detrimental effect of the antipsychotic called clozapine on mGlu2 expression, and also improved the therapeutic effects of atypical antipsychotics in mouse models.

Previous research conducted by the team showed that chronic treatment with the antipsychotic clozapine causes repression of mGlu2 expression in the frontal cortex of mice, a brain area key to cognition and perception.

The researchers hypothesized that this effect of clozapine on mGlu2 may play a crucial role in restraining the therapeutic effects of antipsychotic drugs.

“We had previously found that chronic antipsychotic drug administration causes biochemical changes in the brain that may limit the therapeutic effects of these drugs,”said Gonzalez-Maeso. “We wanted to identify the molecular mechanism responsible for this biochemical change, and explore it as a new target for new drugs that enhance the therapeutic efficacy of antipsychotic drugs.”

Mitsumasa Kurita, Ph.D., a postdoctoral fellow at Mount Sinai and the lead author of the study, said, “We found that atypical antipsychotic drugs trigger an increase of HDAC2 in the frontal cortex of individuals with schizophrenia, which then reduces the presence of mGlu2, and thereby limits the efficacy of these drugs.”

As a result of these findings, Gonzalez-Maeso’s team is now developing compounds that specifically inhibit HDAC2 as adjunctive treatments to antipsychotics.

Source:The Mount Sinai Hospital/Mount Sinai School of Medicine

 

APA Reference
Nauert, R. (2012). How Drugs for Schizophrenia Sow Seeds of Resistance. Psych Central. Retrieved on November 24, 2014, from http://psychcentral.com/news/2012/08/14/how-drugs-for-schizophrenia-sow-seeds-of-resistance/43069.html