Biological cells uncover brain chemistry secrets
January 4th, 2010 - 12:56 pm ICT by ANILondon, Jan 4 (ANI): In a breakthrough study, researchers at the University of California - San Diego have developed biological cells that can give insight into the chemistry of the brain.
The scientists used the cells, which change colour when exposed to specific chemicals, to show how a class of schizophrenia drug works.
The team is hopeful that the discovery could help shed light on many other drugs work on the brain. A class of drugs called atypical neuroleptics has become commonly prescribed for schizophrenia, in part because they seem to improve problems like delusions, hallucinations and dementia linked with the neurodegenerative disease.
But, not much was known about how they altered brain chemistry.
It was known that the drugs trigger the release of a large amount of a chemical called acetylcholine, which enables brain cells to communicate with each other.
However, the drugs have also been shown to hobble a receptor on the surface of the receiving cell, which would effectively block the message.
The San Diego team designed biological cells - called CNiFERs - which changed colour when acetylcholine latched onto this particular class of receptors.
It was the first time that scientists observed such an event in a living brain.
They implanted the cells into rat brains, and then stimulated a deeper part of the brain in a way known to release acetylcholine nearby.
This made CNiFERs change colour, proving that they were working.
They then gave the rats one of two atypical neuroleptics and found that in both cases the drug severely depressed the response from the CNiFERs.
This suggested that the drugs’ receptor-blocking action over-rides the increase they trigger in acetylcholine.
Researcher Professor David Kleinfeld said the new cells had great potential to reveal the mysteries of chemical action in the brain.
“It’s a world of signalling between cells that we were blind to before,” the BBC quoted him as saying.
The study has been published in Nature Neuroscience. (ANI)
- New biosensors show how drugs used to treat schizophrenia work - Dec 14, 2009
- New study sheds light on brain's inherent ability to focus on learning - Dec 09, 2010
- New study could lead to potential drug targets for schizophrenia, Parkinson's - Mar 12, 2011
- Effects of nicotine upon brain mirror those of cocaine - May 04, 2011
- Finding of long-sought drug target structure may accelerate drug discovery - Mar 16, 2011
- Magnetic pulses could overcome depression, schizophrenia - Feb 08, 2012
- Potential therapeutic target for schizophrenia identified - Feb 24, 2011
- Chemical system in brain that behaves differently in cocaine addicts identified - Aug 11, 2010
- Nicotine could play role in Alzheimer's disease therapy - Oct 14, 2010
- Why a class of diabetes drugs boosts weight gain - May 02, 2011
- Study finds gene mutation strongly linked to schizophrenia - Feb 03, 2011
- Fruit fly's response to starvation could help regulate human appetite - Apr 01, 2011
- Nicotine exposure in pregnancy 'puts offspring at learning disabilities risk' - Dec 04, 2010
- Delayed symptoms ravage asthmatics - Aug 14, 2011
- How oestrogen can make you smarter - Nov 18, 2010
Tags: acetylcholine, atypical neuroleptics, biological cells, brain cells, brain chemistry, breakthrough study, california san diego, david kleinfeld, delusions hallucinations, drugs work, great potential, london jan, neurodegenerative disease, professor david, rat brains, receptors, researcher professor, schizophrenia drug, study researchers, university of california san diego