XML Feed for RxPG News   Add RxPG News Headlines to My Yahoo!   Javascript Syndication for RxPG News

Research Health World General
 
  Home
 
 Latest Research
 Cancer
 Psychiatry
  Depression
  Neuropsychiatry
  Personality Disorders
  Bulimia
  Anxiety
  Substance Abuse
  Suicide
  CFS
  Psychoses
   Bipolar Disorder
   Schizophrenia
  Child Psychiatry
  Learning-Disabilities
  Psychology
  Forensic Psychiatry
  Mood Disorders
  Sleep Disorders
  Peri-Natal Psychiatry
  Psychotherapy
  Anorexia Nervosa
 Genetics
 Surgery
 Aging
 Ophthalmology
 Gynaecology
 Neurosciences
 Pharmacology
 Cardiology
 Obstetrics
 Infectious Diseases
 Respiratory Medicine
 Pathology
 Endocrinology
 Immunology
 Nephrology
 Gastroenterology
 Biotechnology
 Radiology
 Dermatology
 Microbiology
 Haematology
 Dental
 ENT
 Environment
 Embryology
 Orthopedics
 Metabolism
 Anaethesia
 Paediatrics
 Public Health
 Urology
 Musculoskeletal
 Clinical Trials
 Physiology
 Biochemistry
 Cytology
 Traumatology
 Rheumatology
 
 Medical News
 Health
 Opinion
 Healthcare
 Professionals
 Launch
 Awards & Prizes
 
 Careers
 Medical
 Nursing
 Dental
 
 Special Topics
 Euthanasia
 Ethics
 Evolution
 Odd Medical News
 Feature
 
 World News
 Tsunami
 Epidemics
 Climate
 Business
 
 India
Search

Last Updated: Nov 18, 2006 - 12:32:53 PM

Nature Neuroscience

Schizophrenia Channel
subscribe to Schizophrenia newsletter

Latest Research : Psychiatry : Psychoses : Schizophrenia

   DISCUSS   |   EMAIL   |   PRINT
Loss of PRODH and COMT gene activity linked to schizophrenia
Dec 2, 2005 - 7:04:00 PM, Reviewed by: Dr.

"This genetic model offers a way to make additional predictions about how specific gene defects in addition to PRODH and COMT deletions contribute to the development of schizophrenia in patients with 22q11 microdeletions. Further studies using this model will likely help to answer many more questions about this disease."

 
Disruption of the normal interaction between the genes PRODH and COMT contributes directly to major symptoms of schizophrenia by upsetting the balance of the brain chemicals glutamate and dopamine, according to a group of investigators that includes a scientist now at St. Jude Children's Research Hospital.

The investigators developed a model of schizophrenia that provides a way to study and understand how the loss of both PRODH and COMT gene activity contributes to the symptoms of schizophrenia.

The insights they gained into the disease with this model are important because the loss of the PRODH gene causes the imbalance in the levels of both glutamate and dopamine; and this imbalance contributes directly to the symptoms of schizophrenia, according to Stanislav Zakharenko, MD, PhD, an assistant member of the Department of Developmental Neurobiology at St. Jude.

The team investigated the roles of PRODH and COMT because these genes are located in the q11 region of human chromosome 22. Previous work by other scientists showed that a mutation in this region--the 22q11 microdeletion--is one of the major risk factors for developing schizophrenia.

The study's findings linked changes seen at the molecular level directly to symptoms of schizophrenia seen in humans, said Zakharenko, who is a co-author of a report on this work that appears in the November 15 issue of Nature Neuroscience. The work was completed by Zakharenko and his colleagues at Columbia University (New York), Rockefeller University (New York) and the University of Utrecht (the Netherlands). Zakharenko is continuing his work on the molecular causes of schizophrenia at St. Jude.

The key finding in the current study was that the models of PRODH deficiency had increased COMT activity in the frontal cortex of the brain. "This might reflect a response to the increased dopamine activity caused by PRODH deficiency," Zakharenko said. "And it shows that when PRODH is lost, the additional loss of COMT due to the 22q11 mutation may worsen the symptoms of schizophrenia by allowing dopamine levels to rise." The prefrontal cortex is the part of the brain involved in complex cognitive functioning (e.g., thinking and reasoning).

In the same issue of Nature Neuroscience, another group of investigators reports that their study of adolescents with the 22q11 deletion showed that low activity of COMT is a risk factor for loss of volume of the part of the brain called the prefrontal cortex; and that this same mutation also puts adolescents at risk for developing psychotic symptoms.

Using their model of schizophrenia, Zakharenko and collegues first discovered that the loss of PRODH function directly causes hyperactivity of nerves that use glutamate to signal other nerves in the brain. Next, they found that disruption of PRODH gene activity causes the upregulation of the COMT gene, which encodes for the enzyme that breaks down dopamine. Upregulation is the increase in the rate at which a gene is decoded so the protein it codes for can be manufactured by the cell.

Prior research had already shown that PRODH makes an enzyme that breaks down proline, an amino acid that mimics the action of glutamate on most nerves in the brain. When PRODH activity is low, proline levels are high, creating an excess of excitatory activity leading to overall hypersensitivity of nerve cells to stimulation that might contribute to some schizophrenia symptoms. "Our model of schizophrenia was particularly useful because it lacked only a part of PRODH gene, so the level of proline rose to approximately that seen in individuals with schizophrenia," Zakharenko said.

Although dopamine and glutamate systems were suspected to contribute separately to the development of schizophrenia, researchers had not found a clear connection between them, according to Zakharenko. However, the present study clearly shows this connection. Specifically, when PRODH activity is low, proline levels are high, and there is excess in dopamine activity, he said. The subsequent increase in COMT compensates for the increased release of this dopamine caused by PRODH deficiency. "This finding shows why loss of COMT activity is linked to symptoms of schizophrenia," Zakharenko said.

The study also showed why patients with schizophrenia who also have the 22q11 microdeletion are especially disadvantaged. "COMT upregulation appears to be a response that brings the level of dopamine signaling back to normal," Zakharenko said. "So patients with the 22q11 microdeletion are unable to compensate for their PRODH deficiency by upregulating COMT."

The team further showed that PRODH deficiency increased the release of glutamate at synapses formed by CA3 and CA1 neurons in the part of the brain called the hippocampus. These synapses are routinely used as models of specific types of brain activity responsible for learning and memory. A synapse is the gap between an incoming nerve and its target cell across that gap. Signals pass from one cell on one side of the gap to another cell on the other side. The increased release of excitatory chemicals glutamate and proline due to PRODH deficiency inhibited the ability of the synapse to undergo a change called long-term potentiation (LTP)--a long-lasting strengthening in the connection between two nerve cells. LTP is an important step in forming memories, and disruption of this process interferes with the ability to store information.

Another study using the PRODH-deficiency model showed that the drug D-amphetamine causes exaggerated movement similar to that caused by amphetamine in humans with schizophrenia, according to the researchers. A PRODH deficiency caused lab models to have problems remembering how to respond to an audible tone in a way that was previously learned.

"These observations showed that lack of regulation of glutamate levels due to loss of PRODH function contributed to learning difficulties similar to those found in schizophrenia," Zakharenko said.

Moreover, the researchers showed that PRODH deficiency caused a reduction in the levels of three proteins that, in combination, are associated with dopamine function in the frontal cortex. Because these proteins cooperate with COMT to regulate the overall dopamine activity, the microdeletion 22q11 is likely to contribute to schizophrenia symptoms by eliminating PRODH. "This finding is further evidence that PRODH and COMT interact to control dopamine levels and further explains why the 22q11 microdeletion is associated with schizophrenia," Zakharenko said.

Finally, the investigators used the drug D-amphetamine to stimulate release of dopamine, while blocking COMT activity with a drug called tolcapone. Blocking COMT activity significantly increased the effect of D-amphetamine in PRODH-deficient models, proving that disruption of COMT disrupts the brain's ability to rein in dopamine activity.

"This genetic model offers a way to make additional predictions about how specific gene defects in addition to PRODH and COMT deletions contribute to the development of schizophrenia in patients with 22q11 microdeletions," said Zakharenko. "Further studies using this model will likely help to answer many more questions about this disease."
 

- Nature Neuroscience
 

www.stjude.org

 
Subscribe to Schizophrenia Newsletter
E-mail Address:

 

Other authors of the study include Joseph A. Gogos, Maria Karayiorgou, Marta Paterlini, Wen-Sung Lai, Jie Qin, Hui Zhang, Jun Mukai, David Sulzer, Paul Pavlidis and Steven A. Siegelbaum (Columbia University and Rockefeller University) and Koen G.C. Westphal and Berend Olivier (University of Utrecht).

This work was supported in part by the National Institutes of Health, the New York Academy of Sciences and by National Alliance for Research on Schizophrenia and Depression.

St. Jude Children's Research Hospital
St. Jude Children's Research Hospital is internationally recognized for its pioneering work in finding cures and saving children with cancer and other catastrophic diseases. Founded by late entertainer Danny Thomas and based in Memphis, Tenn., St. Jude freely shares its discoveries with scientific and medical communities around the world. No family ever pays for treatments not covered by insurance, and families without insurance are never asked to pay. St. Jude is financially supported by ALSAC, its fund-raising organization. For more information, please visit www.stjude.org.


Related Schizophrenia News

Study aims to identify schizophrenics at risk for type 2 diabetes
Effects of ketamine mimic only some of the symptoms of schizophrenia
Association between famine and schizophrenia may yield clues about genetic basis
Neuropeptide S (NPS) may help in treating schizophrenia
Neuropeptide S (NPS) may help in treating schizophrenia
NMDA receptor hypofunction demonstrated in schizophrenia
Altered NRG1-erbB4 signaling may contribute to NMDA receptor hypofunction in schizophrenia
Transcription factor Elk-1's role in neurodegeneration and schizophrenia
Schizophrenia limits one's ability to perceive body language
Hospitalized schizophrenics are at a higher risk for developing medical/surgical complications


For any corrections of factual information, to contact the editors or to send any medical news or health news press releases, use feedback form

Top of Page

 

© Copyright 2004 onwards by RxPG Medical Solutions Private Limited
Contact Us