Tag Archives: neuron

Bausteine des Gedächtnisses verstehen

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Freiburger Neurobiologen decken räumliche und zeitliche Dynamik bestimmter Glutamat-Rezeptoren im Gehirn auf

Dr. Uwe Schulte, Dr. Jochen Schwenk und Prof. Dr. Bernd Fakler haben mit ihrem Team erstmals die große räumliche und zeitliche Dynamik in der Proteinzusammensetzung der AMPA-Rezeptoren, der wichtigsten erregenden Neurotransmitter-Rezeptoren im Gehirn, aufgedeckt. Diese Rezeptoren befinden sich in den Synapsen, den Kontaktstellen zwischen zwei Nervenzellen, und sind für die schnelle Übertragung und Verarbeitung von Informationen verantwortlich. Die Resultate zeigen eine bislang ungeahnte Vielfalt der Rezeptoren und ermöglichen es, deren jeweilige Funktionen in den verschiedenen Regionen des Gehirns zu erforschen. Die Ergebnisse haben die Biologen in der Fachzeitschrift „Neuron“ veröffentlicht. (more…)

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Mystery Solved: How Nerve Impulse Generators Get Where They Need to Go

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Study identifies essential molecule for transport of protein from neuron cell body to axon

COLUMBUS, Ohio – Scientists have solved a longstanding mystery of the central nervous system, showing how a key protein gets to the right spot to launch electrical impulses that enable communication of nerve signals to and from the brain.
 
Nerve impulses are critical because they are required for neurons to send information about senses, movement, thinking and feeling to other cell types in the neural circuitry. And an impulse is not fired up just once; it is initiated and then must be repeatedly transmitted along axons – long, slender extensions of nerve cell bodies – to keep the nervous system’s messages stable during their rapid travel. (more…)

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Study stops stress-based drug relapse in rats

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In a new study in Neuron, scientists identified specific key steps in the chain of events that causes stress-related drug relapse. They identified the exact region of the brain where the events take place in rat models and showed that by blocking a step, they could prevent stress-related relapse.

PROVIDENCE, R.I. [Brown University] — All too often, stress turns addiction recovery into relapse, but years of basic brain research have provided scientists with insight that might allow them develop a medicine to help. A new study in the journal Neuron pinpoints the neural basis for stress-related relapse in rat models to an unprecedented degree. The advance could accelerate progress toward a medicine that prevents stress from undermining addiction recovery. (more…)

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Pesticides and Parkinson’s: UCLA Researchers Uncover Further Proof of a Link

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Study suggests potential new target in fight against debilitating disease

For several years, neurologists at UCLA have been building a case that a link exists between pesticides and Parkinson’s disease. To date, paraquat, maneb and ziram — common chemicals sprayed in California’s Central Valley and elsewhere — have been tied to increases in the disease, not only among farmworkers but in individuals who simply lived or worked near fields and likely inhaled drifting particles.

Now, UCLA researchers have discovered a link between Parkinson’s and another pesticide, benomyl, whose toxicological effects still linger some 10 years after the chemical was banned by the U.S. Environmental Protection Agency. (more…)

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Mammalian Brain Knows Where It’s at

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A new study in the journal Neuron suggests that the brain uses a different region than neuroscientists had thought to associate objects and locations in the space around an individual. Knowing where this fundamental process occurs could help treat disease and brain injury as well as inform basic understanding of how the brain supports memory and guides behavior.

PROVIDENCE, R.I. [Brown University] — Where are you?

Conventional wisdom in brain research says that you just used your hippocampus to answer that question, but that might not be the whole story. The context of place depends on not just how you got there, but also the things you see around you. A new study in Neuron provides evidence that a different part of the brain is important for understanding where you are based on the spatial layout of the objects in that place. The finding, in rats, has a direct analogy to primate neuroanatomy. (more…)

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Researchers Report Potential New Treatment to Stop Alzheimer’s Disease

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Molecular ‘tweezers’ break up toxic aggregations of proteins in mouse model

Last March, researchers at UCLA reported the development of a molecular compound called CLR01 that prevented toxic proteins associated with Parkinson’s disease from binding together and killing the brain’s neurons.

Building on those findings, they have now turned their attention to Alzheimer’s disease, which is thought to be caused by a similar toxic aggregation or clumping, but with different proteins, especially amyloid-beta and tau. (more…)

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Berkeley Lab Scientists Help Develop Promising Therapy for Huntington’s Disease

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Initial results in mice could lead to new way to fight neurodegenerative diseases

There’s new hope in the fight against Huntington’s disease. A group of researchers that includes scientists from the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) have designed a compound that suppresses symptoms of the devastating disease in mice.

The compound is a synthetic antioxidant that targets mitochondria, an organelle within cells that serves as a cell’s power plant. Oxidative damage to mitochondria is implicated in many neurodegenerative diseases including Alzheimer’s, Parkinson’s, and Huntington’s. (more…)

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Mice Have System to Handle Smell of Fear

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Mice appear to have a specialized system for detecting and at least initially processing instinctually important smells such as those that denote predators. The finding raises a question about whether their response to those smells is hardwired.

PROVIDENCE, R.I. [Brown University] — A new study finds that mice have a distinct neural subsystem that links the nose to the brain and is associated with instinctually important smells such as those emitted by predators. That insight, published online this week in Proceedings of the National Academy of Sciences, prompts the question whether mice and other mammals have specially hardwired neural circuitry to trigger instinctive behavior in response to certain smells.

In the series of experiments and observations described in the paper, the authors found that nerve cells in the nose that express members of the gene family of trace amine-associated receptors (TAAR) have several key biological differences from the much more common and diverse neurons that express members of the olfactory receptor gene family. Those other nerve cells detect a much broader range of smells, said corresponding author Gilad Barnea, the Robert and Nancy Carney Assistant Professor of Neuroscience at Brown University. (more…)

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