(Press-News.org) Biologists at UC San Diego have discovered that electrical oscillations in the brain, long thought to play a role in organizing cognitive functions such as memory, are critically important for the brain to store the information that allows us to navigate through our physical environment.
The scientists report in the April 29 issue of the journal Science that neurons called "grid cells" that create maps of the external environment in one portion of our brain require precisely timed electrical oscillations in order to function properly from another part of the brain that serves as a kind of neural pacemaker.
Their discovery has important implications for understanding the underlying causes of neurological diseases such as Alzheimer's disease and for restoring memory in areas of the brain that are necessary for orientation.
"This work is the first to demonstrate that oscillatory activity has a well-defined function in brain areas that store memories," says Stefan Leutgeb, an assistant professor of biology at UCSD who headed the team of researchers.
Scientists have long known that among the first brain areas to degenerate in Alzheimer's disease, leading to symptoms such as memory loss and disorientation, are the hippocampus and the nearby entorhinal cortex, important structures for the formation of memory. Those two regions of the brain contain three types of neurons that contribute to the formation of spatial memories and the spatial information in episodic memories from our life experiences.
These three types of neurons provide an internal GPS system to the brain. For example, one type of neuron, called "place cells," generates electrical activity only when an animal is at a certain position, while another type, called "head direction cells," acts like a compass. A third class of neurons, called "grid cells," provides grid-like patterns for the brain to store memories of physical dimensions of the external environment. The most striking feature about these cells is that their electrical activity is distributed at equidistant, periodic locations within each cell (shown in the figure). Grid cells were discovered by Norwegian scientists in rats in 2005, but in 2010 researchers in London detected groups of cells in human entorhinal cortex that share the same characteristics.
Leutgeb and his team of UCSD biologists—postdoctoral researcher Julie Koenig, undergraduate student Ashley Linder and Jill Leutgeb, an assistant professor of biology—were motivated to understand the function of electrical oscillations in the brain, which are routinely measured in clinical settings to diagnose neurological disorders.
Leutgeb's group demonstrated that neurons called grid cells in the entorhinal cortex that create maps of the external environment require precisely timed electrical oscillatory input signals from a neural pacemaker in the subcortex of the brain to function properly.
"Our findings represent a major milestone in understanding memory processing, and they will guide efforts to restore memory function when cells in the entorhinal cortex are damaged," says Stefan Leutgeb.
A group of scientists from Boston University reports related findings in a companion paper in the same April 29th issue of Science.
The UCSD researchers monitored the electrical activity of grid cells in rats that explored a small four-foot by four-foot enclosure. Grid cells, located in the entorhinal cortex just adjacent to the hippocampus, maintain an internal representation of the external environment. This representation is a grid-like map made of repeating equilateral triangles that tile the space in a hexagonal pattern. As an animal navigates through its environment, a given grid cell becomes active when the animal's position coincides with any of the vertices within the grid.
The scientists silenced the oscillatory input by manipulating a small group of pacemaker cells in the brain and observed a significant deterioration of the grid cells' maps of the environment.
Surprisingly, silencing the oscillatory input did not disrupt brain signals that indicate precise location (provided by place cells) and the compass signal (provided by head direction cells).
"It has been thought that the hippocampus is under control of the entorhinal cortex, so there was the assumption that grid cells would have a very large impact on place cells. We are surprised at how the function of place cells is maintained in the face of significant disruption in grid cell function," says Leutgeb.
"This important result shows that, in general, you can eliminate a substantial amount of incoming information to a brain circuit without that brain circuit losing a majority of its functionality," he adds. "The implication of this finding is that restoring memory function does not require that we exactly reassemble damaged neural circuitry, rather we can regain function by preserving or restoring key components."
"Our findings are a major step towards identifying these key components in an effort to preserve memory function in aging individuals and in patients with neurodegenerative diseases," he says.
INFORMATION:
The research project was supported by grants from the National Science Foundation, the National Institutes of Health, the Ellison Medical Foundation and the Alzheimer's Association.
Electrical oscillations found to be critical for storing spatial memories in brain
2011-04-29
ELSE PRESS RELEASES FROM THIS DATE:
Use of costly breast cancer therapy strongly influenced by reimbursement policy
2011-04-29
What Medicare would pay for and where a radiation oncologist practiced were two factors that strongly influenced the choice of intensity-modulated radiation therapy (IMRT) for treating breast cancer, according to an article published April 29 online in the Journal of the National Cancer Institute. The use of IMRT and the cost of radiation therapy increased sharply over the period of the study.
IMRT is a radiation delivery technique that modulates the radiation beams to conform to the shape of the tumor or tumor bed in an attempt to maximize the dose of radiation to the ...
Eddies found to be deep, powerful modes of ocean transport
2011-04-29
Researchers from Woods Hole Oceanographic Institution (WHOI) and their colleagues have discovered that massive, swirling ocean eddies—known to be up to 500 kilometers across at the surface—can reach all the way to the ocean bottom at mid-ocean ridges, some 2,500 meters deep, transporting tiny sea creatures, chemicals, and heat from hydrothermal vents over large distances.
The previously unknown deep-sea phenomenon, reported in the April 28 issue of the journal Science, helps explain how some larvae travel huge distances from one vent area to another, said Diane K. Adams, ...
2 unsuspected proteins may hold the key to creating artificial chromosomes
2011-04-29
FINDINGS: Whitehead Institute scientists report that two proteins once thought to have only supporting roles, are the true "stars" of the kinetochore assembly process in human cells.
RELEVANCE: The kinetochore is vital to proper DNA distribution during cell division. This finding suggests that scientists may be able to stimulate kinetochore assembly in a process that could lead to new genetic research tools, such as efficient creation of artificial human chromosomes. Widespread use of artificial human chromosomes has been thwarted by scientists' current inability to ...
Mutant mouse reveals new wrinkle in genetic code, say UCSF scientists
2011-04-29
Call it a mystery with a stubby tail: an odd-looking mouse discovered through a U.S. government breeding program in the 1940s that had a short, kinky tail and an extra set of ribs in its neck – and nobody knew why.
A team of scientists led by researchers at the University of California, San Francisco has now spilled the genetic secrets of this mutant rodent. In doing so, they may have uncovered a new wrinkle in the genetic code – an entirely unrecognized way our bodies regulate how genes are expressed in different tissues throughout life.
This discovery has broad implications ...
Astronomers unveil portrait of 'super-exotic super-Earth:' Densest known rocky planet
2011-04-29
An international team of astronomers today revealed details of a "super-exotic" exoplanet that would make the planet Pandora in the movie Avatar pale in comparison.
The planet, named 55 Cancri e, is 60 per cent larger in diameter than Earth but eight times as massive. Twice as dense as Earth – almost as dense as lead – it is the densest solid planet known, according to a team led by astronomers from the Massachusetts Institute of Technology (MIT), the University of British Columbia (UBC), the Harvard‑Smithsonian Center for Astrophysics and the University of California ...
Water currents of South Africa could stabilize climate in Europe
2011-04-29
One of the ocean currents which particularly interests oceanographers and climatologists is the Gulf Stream. This current, originating in the Gulf of Mexico, transports enormous amounts of warm tropical waters to the North Atlantic and is the cause of Europe's habitable climate. Climate predictions point to the fact that this will change in the future and affect especially the climate in countries of the Mediterranean region, with more dry spells. As global warming progresses, the North Atlantic will receive more precipitation and a greater amount of water from the melting ...
New method for measuring biomass reveals fish stocks are more stable than widely believed
2011-04-29
Fish and marine species are among the most threatened wildlife on earth, due partly to over exploitation by fishing fleets. Yet there are differences in assessing trends in worldwide fishing stocks which, researchers writing in Conservation Biology argue, stem from inappropriate use of time trends in catches.
"Estimates of fishery status based on catches suggest that around 30% of fisheries are collapsed and 70% are overexploited or collapsed," said lead author Dr Trevor Branch from the University of Washington in Seattle. "Our assessment shows that the data are seriously ...
Guidelines on rare diseases: Methods on handling evidence neither identified nor required
2011-04-29
People with rare diseases have the same right to high-quality health care in line with current medical knowledge as other patients do. However, relevant and reliable clinical studies on rare diseases are often lacking. Among other things, this makes the development of corresponding guidelines more difficult, but precisely such guidelines could help improve treatment quality.
The German Federal Ministry of Health therefore commissioned the Institute for Quality and Efficiency in Health Care (IQWiG) to answer the following question: What methodological approaches are used ...
Folic acid for everybody -- arguments in favor of food fortification
2011-04-29
Neural tube defects in neonates are common in Germany compared with the rest of Europe. Extensive folic acid fortification of foods in Germany might prevent these in 85-100% of cases, Wolfgang Herrmann and Rima Obeid argue in this issue of Deutsches Ärzteblatt International (Dtsch Arztebl Int 2011; 108[15]; 249-54).
A woman's folic acid intake before and during early pregnancy ensures that the fetus does not develop the neural tube defect commonly known as spina bifida. Every year, 800 pregnancies in Germany are diagnosed with a neural tube defect. Most of those pregnancies ...
Obesity: Conclusive results for the Montreal Heart Institute's EPIC Centre Kilo-Actif program
2011-04-29
Montreal, April 28, 2011 – A program which combines interval training and healthy eating practices seems to be perfectly indicated for those suffering from obesity, according to the results of a new study from the Montreal Hearth Institute's centre for preventive medicine and physical activity (ÉPIC Centre). Results of the study were announced at the National Obesity Summit, currently taking place in Montreal.
Within the framework of this study, researchers analyzed the track record of 62 participants in Kilo-Actif, a 9-month program intended for obesity sufferers that ...