WELCOME TO OUR PARKINSON'S PLACE!

I HAVE PARKINSON'S DISEASES AND THOUGHT IT WOULD BE NICE TO HAVE A PLACE WHERE THE CONTENTS OF UPDATED NEWS IS FOUND IN ONE PLACE. THAT IS WHY I BEGAN THIS BLOG.

I COPY NEWS ARTICLES PERTAINING TO RESEARCH, NEWS AND INFORMATION FOR PARKINSON'S DISEASE, DEMENTIA, THE BRAIN, DEPRESSION AND PARKINSON'S WITH DYSTONIA. I ALSO POST ABOUT FUNDRAISING FOR PARKINSON'S DISEASE AND EVENTS. I TRY TO BE UP-TO-DATE AS POSSIBLE.

I AM NOT RESPONSIBLE FOR IT'S CONTENTS. I AM JUST A COPIER OF INFORMATION SEARCHED ON THE COMPUTER. PLEASE UNDERSTAND THE COPIES ARE JUST THAT, COPIES AND AT TIMES, I AM UNABLE TO ENLARGE THE WORDING OR KEEP IT UNIFORMED AS I WISH. IT IS IMPORTANT TO UNDERSTAND I AM A PERSON WITH PARKINSON'S DISEASE. I HAVE NO MEDICAL EDUCATION,

I JUST WANT TO SHARE WITH YOU WHAT I READ ON THE INTERNET. IT IS UP TO YOU TO DECIDE WHETHER TO READ IT AND TALK IT OVER WITH YOUR DOCTOR. I AM JUST THE COPIER OF DOCUMENTS FROM THE COMPUTER. I DO NOT HAVE PROOF OF FACT OR FICTION OF THE ARTICLE. I ALSO TRY TO PLACE A LINK AT THE BOTTOM OF EACH ARTICLE TO SHOW WHERE I RECEIVED THE INFORMATION SO THAT YOU MAY WANT TO VISIT THEIR SITE.

THIS IS FOR YOU TO READ AND TO ALWAYS KEEP AN OPEN MIND.

PLEASE DISCUSS THIS WITH YOUR DOCTOR, SHOULD YOU HAVE ANY QUESTIONS, OR CONCERNS. NEVER DO ANYTHING WITHOUT TALKING TO YOUR DOCTOR FIRST..

I DO NOT MAKE ANY MONEY FROM THIS WEBSITE. I VOLUNTEER MY TIME TO HELP ALL OF US TO BE INFORMED.

I WILL NOT ACCEPT ANY ADVERTISEMENT OR HEALING POWERS, HEALING FROM HERBS AND ETC. UNLESS IT HAS GONE THROUGH TRIALS AND APPROVED BY FDA. IT WILL GO INTO SPAM.

THIS IS A FREE SITE FOR ALL WITH NO ADVERTISEMENTS

THANK YOU FOR VISITING! TOGETHER WE CAN MAKE A DIFFERENCE!

TRANSLATE

Friday, May 15, 2015

Nerve cells in the fast lane

Last updated: 


Dopamine-producing neurons  important function in the brain
Nerve cells that produce dopamine for the purpose of transmitting signals to other cells affect numerous crucial brain functions. This becomes evident in diseases such as Parkinson's and schizophrenia, where dopamine transmission in the brain is impaired. In collaboration with researchers from Bonn, RUB scientists at the Mercator Research Group "Structure of Memory" have now identified in what way a specific form of this important cell is generated and which networks it forms in the course of brain development. In the process, the researchers discovered a data highway of sorts: the nerve cells use not only dopamine for signal transmission, but also the much-faster glutamate. The results have now been published in the trade magazine Nature Neuroscience.
Crucial role in signal transmission
Dopamine-producing neurons fulfil a crucial role in signal transmission: as the brain develops, they mature into several specialised subtypes, which, acting as a kind of networkers, generate synapses to other important brain regions. Their name derives from the fact that they utilise dopamine as a messenger. This neurotransmitter is very important: it affects, for example, motor control, reward behaviour, motivation and impulse control. Symptoms of diseases such as Parkinson's and schizophrenia include dying of dopamine neurons resp. disruption of dopamine signal transmission.
Glutamate facilitates rapid signal transmission
In collaboration with colleagues from the German Center for Neurodegenerative Diseases (DZNE), the Life & Brain Center Bonn and the Mercator Research Group "Structure of Memory", scientists at Bonn University discovered a data highway of sorts in the animal model. While dopamine-aided signal transmission between neurons is relatively slow, the analysed dopamine-producing neurons have additionally used glutamate as a messenger.
Researchers excited single nerve cells with light stimuli
Using genetic-engineering methods, the researchers coupled the dopamine-producing neurons of mice with light-sensitive proteins. Thus, they were able to excite individual dopamine-neurons with light stimuli and track the signalling pathways. With the aid of glutamate, locally inhibiting neurons were activated in the prefrontal cortex, a control centre in the brain. These, in turn, are responsible for the regulation of signal transmission in the prefrontal cortex: they are involved, for example, in deciding if a signal should be forwarded. In order to identify in what way different subtypes of dopamine-producing neurons are generated, the researchers muted one gene in mice. Thus, the formation of dopamine-neurons in the prefrontal cortex was suppressed.
Mice had to nudge a blinking light
What were the consequences of the lack of dopamine-producing cells? Together with the team headed by Prof Dr Magdalena Sauvage from Ruhr-Universität Bochum, the researchers from Bonn tested this in attention experiments. Mice were rewarded with food if they nudged a rapidly blinking light as quickly as possible. "The results have shown that animals in which the dopamine-producing cells had been genetically switched off didn't demonstrate any apparent changes to their attention and impulse control, but they pursued acquired behaviour patterns much more persistently," says Prof Sauvage. A pathological clinging to certain notions or repeating words and movements in an unsuitable context does also occur in mental disorders such as obsessive-compulsive disorder or schizophrenia, where the function of the prefrontal cortex is disturbed. Accordingly, the results of the research cooperation contribute to an improved understanding of the development and function of dopamine-producing neurons and possibly the diseases related thereto.
http://www.medicalnewstoday.com/releases/293853.php?tw

No comments:

Post a Comment