Search Underway for Key Gene(s) Responsible for Depression
Recent efforts to tackle psychiatric disorders such as depression are taking a multi-faceted approach looking at rating scales of mood states, alterations in brain structure and function, and post-mortem brain tissue from people who suffered depression. The key in these individual types of information is combining them to characterize the gene or genes at the heart of depression, according to Dr. David Glahn of Yale University and the Hartford Hospital Institute of Living.
“Dr. Glahn and his colleagues have provided a very exciting strategy for uniting the various types of data that we collect in clinical research in studies attempting to identify risk genes,” said Dr. John Krystal, editor of Biolgical Psychiatry.
Gene Source of Psychiatric Depression
Also writing in the psychiatry publication, Rhiannon Bugno said “psychiatric disorders can be described on many levels, the most traditional of which are subjective descriptions of the experience of being depressed and the use of rating scales that quantify depressive symptoms. Over the past two decades, research has developed other strategies for describing the biological underpinnings of depression, including volumetric brain measurements using magnetic resonance imaging (MRI) and the patterns of gene expression in white blood cells”.
Glahn and his team localized a gene called RNF123 that may play a role in major depression. They set out with two clear goals: to describe a new method for ranking measures of brain structure and function based on their genetic 'importance' for an illness, and then to localize a candidate gene for major depression.
"We were trying to come up with a way that could generally be used to link biological measurements to (psychiatric) disease risk," said Dr. John Blangero, director of the AT&T Genomics Computing Center at the Texas Biomedical Research Institute. "And in our first application of this, in relation to major depressive disorder, we've actually come up with something quite exciting."
While RNF123 hasn't previously been linked to depression, it has been shown to affect a part of the brain called the hippocampus, which is altered in people with major depression.
"We assume that the biological measures are closer mechanically to the underlying disease processes in the brain. Yet, ultimately we are interested in the subjective experiences and functional impairment associated with mental illness," added Krystal. "The approach employed in this study may help to make use of all of this information, hopefully increasing our ability to identify genes that cause depression or might be targeted for its treatment."
The article is "High Dimensional Endophenotype Ranking in the Search for Major Depression Risk Genes" by David C. Glahn, Joanne E. Curran, Anderson M. Winkler, Melanie A. Carless, Jack W. Kent Jr., Jac C. Charlesworth, Matthew P. Johnson, Harald H.H. Göring, Shelley A. Cole, Thomas D. Dyer, Eric K. Moses, Rene L. Olvera, Peter Kochunov, Ravi Duggirala, Peter T. Fox, Laura Almasy, John and Blangero (doi: 10.1016/j.biopsych.2011.08.022). The article appears in Biological Psychiatry, Volume 71, Issue 1 (January 1, 2012), published by Elsevier.