Two new studies that could be useful in identifying gene variants that increase the risk of developing obsessive-compulsive disorder (OCD) or Tourette syndrome (TS) will be published in the journal Molecular Psychiatry.
"Previous studies of these disorders have demonstrated that both TS and OCD are strongly heritable and may have shared genetic risk factors, but identification of specific genes has been a huge challenge," says Jeremiah Scharf, MD, PhD, of the Psychiatric and Neurodevelopmental Genetics Unit (PNGU) in the MGH Departments of Psychiatry and Neurology, a co-lead author of both papers and co-chair of the Tourette Syndrome Association International Consortium for Genetics. "These new studies represent major steps towards understanding the underlying genetic architecture of these disorders."
An anxiety disorder characterized by obsessions and compulsions that disrupt patients' lives, obsessive-compulsive disorder (OCD) is the fourth most common psychiatric illness. Tourette syndrome, a chronic disorder characterized by motor and vocal tics, usually begins in childhood and is often accompanied by conditions like OCD or attention-deficit hyperactivity disorder. Both conditions have a high risk of recurrence in close relatives of affected individuals, but previous studies that compared affected and unaffected individuals were not large enough to identify specific genes or areas of the genome that contribute to risk.
The OCD study - led by Evelyn Stewart, MD, of the MGH-PNGU, who is now based at the University of British Columbia, and David Pauls, PhD, MGH-PNGU - identified possible associations close to a gene called BTBD3, which is closely related to a gene that may be involved in Tourette Syndrome, and within DLGAP1, a close relative of a gene that produces OCD-like symptoms in mice if it is deleted. The Tourette study was led by Scharf and Pauls and found evidence of a possible association with a gene called COL27A1, which may be expressed in the cerebellum during development, and with variants that help regulate gene expression in the frontal cortex.
None of these or other identified SNPs reached the high threshold of genome-wide significance, which would indicate that the associations represented true risk factors, and the authors stress that additional, larger studies are required. "Although GWAS analysis allows much more comprehensive examination of the entire genome than do studies focused on particular families or candidate genes, these two studies are still underpowered and should be interpreted with caution," says Pauls, a co-senior author of both papers. "The current results are interesting and provide us with a starting point for analyzing future studies that must be done to replicate and extend these findings."
Scharf adds that the next steps should include testing the SNPs identified by these studies in other groups of patients and controls, analyzing both study groups together to identify genes that contribute to the risk of both disorders, and expanding international collaborations to increase the size and power of patient samples for both OCD and TS. "If future studies confirm that some of these variants do contribute to risk - either directly or by altering the function of other risk genes - that would suggest both novel disease mechanisms and might give us new treatment targets," he says.