Major research project provides new clues to schizophrenia
Karolinska Institutet Mar 22, 2017
The Karolinska Schizophrenia Project (KaSP) brings together researchers from a number of different scientific disciplines to build up a comprehensive picture of the disease mechanisms and to discover new targets for drug therapy. Patients with an acute first–episode psychosis are recruited and undergo extensive tests and investigations. Cognitive function, genetic variation, biochemical anomalies as well as brain structure and function are analysed using the latest techniques and then compared with healthy peers. The first results from the project are now presented in two studies published in the journal Molecular Psychiatry. One of the studies shows that patients with newly debuted schizophrenia have lower levels of the neurotransmitter GABA in their cerebrospinal fluid than healthy people and that the lower the concentration of GABA the more serious their symptoms are.
GABA is involved in most brain functions and along with glutamate it accounts for almost 90 per cent of all signal transmission. While glutamate stimulates brain activity, GABA inhibits it, and the two neurotransmitters interact with each other.
ÂOver the years, animal studies have suggested a link between decreased levels of GABA and schizophrenia, says Professor Göran Engberg at Karolinska InstitutetÂs Department of Physiology and Pharmacology. ÂOur results are important because they clinically substantiate this hypothesis.Â
The other study used the imaging technique of positron emission tomography (PET) to show that patients with untreated schizophrenia have lower levels of TSPO (translocator protein), which is expressed on immune cells such as microglia and astrocytes.
ÂOur interpretation of the results is an altered function of immune cells in the brain in early–stage schizophrenia, says Senior lecturer Simon Cervenka at Karolinska InstitutetÂs Department of Clinical Neuroscience.
The results of the two studies provide new clues to the pathological mechanisms of schizophrenia, but it is unclear if the changes are the cause or the result of the disease. Follow–up studies are now underway to examine what causes the anomalies and how these biological processes can be influenced to change the progression of the disease.
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GABA is involved in most brain functions and along with glutamate it accounts for almost 90 per cent of all signal transmission. While glutamate stimulates brain activity, GABA inhibits it, and the two neurotransmitters interact with each other.
ÂOver the years, animal studies have suggested a link between decreased levels of GABA and schizophrenia, says Professor Göran Engberg at Karolinska InstitutetÂs Department of Physiology and Pharmacology. ÂOur results are important because they clinically substantiate this hypothesis.Â
The other study used the imaging technique of positron emission tomography (PET) to show that patients with untreated schizophrenia have lower levels of TSPO (translocator protein), which is expressed on immune cells such as microglia and astrocytes.
ÂOur interpretation of the results is an altered function of immune cells in the brain in early–stage schizophrenia, says Senior lecturer Simon Cervenka at Karolinska InstitutetÂs Department of Clinical Neuroscience.
The results of the two studies provide new clues to the pathological mechanisms of schizophrenia, but it is unclear if the changes are the cause or the result of the disease. Follow–up studies are now underway to examine what causes the anomalies and how these biological processes can be influenced to change the progression of the disease.
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