New Target Structure for Antidepressants

by Sheela Philomena on  April 29, 2011 at 11:02 AM Mental Health News   - G J E 4
Researchers have identified a genetic and morphological link to depression. During the genetic material comparison of depressive patients and healthy subjects, researchers identified a single base change in chromosome 12. They also noticed shrinking of certain brain regions in depressive patients.
 New Target Structure for Antidepressants
New Target Structure for Antidepressants

Hence, the scientists at Max Planck Institute wondered whether a gene located further away could possibly be influenced by the genetic variation and whether a susceptibility for depression could arise that way. The SLC6A15 gene was identified as a promising candidate for such a link. SLC6A15 contains the construction manual for a protein, which transports amino acids like proline and leucine to the contact sites of neurons in the brain, known as synapses, and may therefore be involved in the regulation of glutamate, an important neurotransmitter found in neurons. Leucine is a structural precursor of glutamate. "Because it is assumed that the communication between the neuron clusters is disturbed in depression, we considered whether the gene we had identified could possibly influence this process through glutamate," explains Elisabeth Binder, research group leader at the MPI.

Indeed, the Max Planck scientists have succeeded in demonstrating that the changes in the DNA sequence located a total of 287,000 bases away from the gene influenced its activity: this varied in the brain samples examined, depending on which DNA components were exchanged. Therefore, cells of the risk genotype displayed a lower level of gene activity than cells carrying the protective genotype. Moreover, tests carried out by Philipp S'mann and his colleagues using the magnetic resonance imaging scanner confirmed that even healthy subjects who are carriers of the risk allele have smaller amounts of the brain metabolic substances N-acetylaspartate (NAA) and glutamate (Glx) compared to healthy subjects without genetic susceptibility.

Morphological changes also arise in the course of major depression: a shrinking of certain brain regions can eventually be observed in depressive patients. Therefore, in addition to genetic susceptibility, other factors must affect the organism to trigger the development of major depression. Research on the effects of stress as an important environmental factor in the development of depression has been carried out for many years at the Max Planck Institute for Psychiatry. It has been found, for example, that the likelihood of developing the disease increases by a factor of two to three if a person is exposed to chronic social stress.

In this context, an observation of Mathias Schmidt is of particular interest: he noted that the SLC6A15 activity in the brains of mice with an increased susceptibility to stress is considerably lower than in the brains of animals which are more resilient to stress. Irrespective of the associated cause and consequence, these data document the fact that there is a direct link between the examined gene and stress processing. "We would now like to find out how the gene converts stress into an activity-dependent cellular reaction and influences the disease process," explains the young scientist and head of a Max Planck research group. The dependency of this gene activity on chronic stress provides impressive proof of the link between genetic and environmental influences at the molecular level in the disease process. Florian Holsboer firmly believes that "the detailed study of this stress-related gene regulation will give us a new understanding of the emergence of depression."

Based on this discovery of the link between the transporter protein SCL6A15 and depression, the Munich scientists are cautiously optimistic that they are one step closer to the development of a new type of antidepressant. It has already been shown that tricyclic antidepressants can bind to a related transporter in bacteria and block its activity in this way. The extent to which the characteristics of the human SLC6A15 transporter can be influenced by small molecules and, based on this, an antidepressive effect can be generated is already being investigated by a new research project at the Max Planck Institute for Psychiatry.

Source: Eurekalert

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