The Johns Hopkins Gazette: April 29, 2002
April 29, 2002
VOL. 31, NO. 32


The Search for Schizophrenia Genes Takes an Unplanned Turn

By Trent Stockton
Johns Hopkins Medicine
Johns Hopkins Gazette Online Edition

Despite promising evidence that a gene closely linked to schizophrenia would be found on human chromosome No. 1, an international team of scientists who scoured the chromosome in more than 1,900 patients concludes it isn't there. "The bad news is we couldn't find it, but the good news is we can now concentrate on other regions of the genome, such as chromosomes 6, 8 and 13," says Ann Pulver, associate professor of psychiatry at Johns Hopkins and co-author of the study.

The gene hunters' findings, published in the April 26 issue of Science, highlight the challenge of identifying the genetic roots of complex diseases.

"Schizophrenia is a complex psychiatric disorder," Pulver says. "It can't be explained by either a single altered gene or a single environmental cause. There are clearly genetic components, but they are likely to be varied and to interact in many ways with nongenetic factors."

Recent studies had suggested that genes associated with susceptibility to schizophrenia would be found on the "q" or long arm of chromosome 1, a region separated from the short arm, known as "p."

In their study, Pulver and colleagues searched for associations between genetic markers on chromosome 1 and schizophrenia in families that have more than one member with the disease. This approach, called genetic linkage analysis, is used to detect the location on the chromosome where disease genes reside.

"By pooling our resources and data, and agreeing on how to attack the problem in a large sample of affected families, we were able to quickly use this type of genetic linkage analysis to tell if we were on the right track," Pulver says.

It's still possible that genes on chromosome 1q contribute to the disease, she says, but these would influence only a small proportion of patients. "Biology is complicated, and the search for genes that contribute to large numbers of cases continues," she says.

Solomon Snyder, University Distinguished Professor of Neuroscience, Pharmacology and Psychiatry, says, "This paper highlights the difficulty of unraveling complex diseases." Snyder is an author, with Akira Sawa, of a review article on schizophrenia research in the same issue of Science.

Snyder points out that a variety of genetic and environmental factors are at play in cancer, cardiovascular disorders and diabetes. "Despite the difficulties," Snyder says, "we are getting closer to understanding the molecular causes of schizophrenia. Advances in imaging, neuroanatomy, genetic analysis and psychopharmacology are being applied in earnest to this debilitating disease."

The study was funded by the National Institute of Mental Health, Medical Research Council (UK), Deutsche Forschungsfemeinschaft, the German-Israeli Foundation for Scientific Research, the National Health and Medical Research Council of Australia and the Centre National de la Recherche Scientifique. The lead author of the study is Douglas Levinson, Department of Psychiatry, University of Pennsylvania. Other Hopkins scientists involved in the study are Gerald Nestadt and Kung Yee Liang.

Related Web sites
The Johns Hopkins Department of Psychiatry and Behavioral Sciences
The Johns Hopkins Genetic Schizophrenia Epidemiology Program
The Johns Hopkins Department of Neuroscience