Study suggests possibilities for treatments for anxiety disorders

June 4, 2010 By Leave a Comment

Washington, June 4 (ANI): A memory of safety can now be induced in rats” brain, mimicking the effect of training.

The study, which was carried out with support from the National Institute of Mental Health (NIMH), suggests possibilities for future treatment of anxiety disorders.

Rats normally freeze when they hear a tone they have been conditioned to associate with an electric shock.

The reaction can be extinguished by repeatedly exposing the rats to the tone with no shock. In this work, administering a protein directly into the brain of rats achieved the same effect as extinction training.

The protein, brain-derived neurotrophic factor or BDNF, is one of a class of proteins that support the growth and survival of neurons.

Prior work has shown that extinction training does not erase a previously conditioned fear memory, but creates a new memory associating the tone with safety.

Dr. Gregory Quirk at the University of Puerto Rico School of Medicine, who led the investigation, said: “The surprising finding here is that the drug substituted for extinction training, suggesting that it induced such a memory.”

Memory formation involves changes in the connections, or synapses, between neurons, a process known as synaptic plasticity.

One brain structure critical for extinction memory in rats is the infralimbic prefrontal cortex (ILC).

Drugs that block synaptic plasticity impair the formation of extinction memory when injected into the ILC, causing rats to continue freezing at high levels after extinction training.

BDNF, on the other hand, permits a learning experience to increase the size and strength of synaptic contacts between neurons.

Previous work from other groups has implicated BDNF in extinction learning.

In this study, after rats were conditioned to fear a tone by pairing it with a footshock, BDNF was infused directly into the ILC.

The next day, BDNF-infused rats showed little freezing to the tone, as if they had received extinction training.

Experiments showed that BDNF-induced extinction did not erase the original fear memory.

Training to reinstate the tone-shock association was just as effective with the rats receiving BDNF as those without.

Also, the effect of BDNF was specific to extinction. It did not reduce general anxiety or change the animals” tendency to move around.

The researchers also found that rats that were naturally deficient in BDNF were more likely to do poorly in extinction trials.

These rats were deficient in BDNF in the hippocampus, a brain structure that plays an important role in memory and extinction, and which has connections to the ILC.

Failure to extinguish fear is thought to contribute to anxiety disorders, such as post-traumatic stress disorder (PTSD). People with PTSD have a smaller than normal hippocampus and ILC.

NIMH Director Dr. Thomas Insel said: “Many lines of evidence implicate BDNF in mental disorders.

“This work supports the idea that medications could be developed to augment the effects of BDNF, providing opportunities for pharmaceutical treatment of post-traumatic stress disorder and other anxiety disorders.”

The study appears in the journal Science. (ANI)

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Caffeine ‘effective in preventing cataract formation’

May 6, 2010 By Leave a Comment

Washington, May 6 (ANI): Caffeine may provide the lens protection against damage that could lead to the formation of cataracts, according to a new study.

The study has been presented at the 2010 Annual Meeting of the Association for Research in Vision and Ophthalmology.

Researchers from the University of Maryland School of Medicine in Baltimore, MD hypothesized that caffeine may inhibit the intraocular generation of reactive oxygen species in the lens and consequent damage to the tissue.

The team studied the oxyradical effects in vitro by incubating mice lenses in medium exposed UVA in the presence of kynurenine with and without caffeine. In vivo studies were conducted in rats by incorporating caffeine with galactose in their diet. In both cases, caffeine was found to be effective in protecting the lens against damage.

As reported in the abstract, “These effects of caffeine have not been reported before and are hence considered highly interesting in view of its relatively high content in widely consumed beverages.” (ANI)

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Acupuncture may aid spinal recovery

April 27, 2010 By Leave a Comment

London, April 27 (ANI): Acupuncture – the procedure of inserting and manipulating filiform needles into various points on the body to relieve pain – may aid spinal injury recovery, says a new study.

A previous study showed that acupuncture can improve the sensory and motor functions of people with spinal cord injuries.

More recently, researchers at Kyung Hee University in Seoul, South Korea, tried to find out why, reports New Scientist.

Doo Choi and his colleagues damaged the spines of 75 rats. One third were treated with acupuncture.

After 35 days, the rats that received the needle treatment stood and walked better than those that did not.

What”s more, the acupuncture-treated rats had less nerve cell death and lower levels of the protein that causes inflammation.

The researchers hypothesize that the needles cause a stress response in the body that lessens inflammation.

The inflammation that occurs after spinal cord injuries causes nerve cell death and lessens the chance of recovery.

The study may have implications for spinal injury treatment in humans, though more research is needed.

The study”s results were published in the most recent edition of Neurobiology of Disease. (ANI)

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Rats eat students’ exam papers

April 21, 2010 By Leave a Comment

Nepalese university students awaiting results of end-of-year exams may be kept in suspense for a while longer after it emerged that many of their papers had been eaten by rats.

Hundreds of unmarked exam papers from Kathmandu’s Tribhuvan University were handed to a local police station to be kept under lock and key, but were inadvertently placed in a storeroom infested with rats, a police official said.

“The exams were two and half months ago. We kept the answer papers in a secure room,” police inspector Ram Prakash Chaudhary said.

“But a few days ago we discovered that some of them had been eaten by rats.

“We told the university officials about the problem straight away. But they only came to pick up the papers today, after the news came out.”

The papers had been stored in an old building with a leaking water pipe, the Rising Nepal newspaper said.

The newspaper accused Tribhuvan, the country’s oldest and biggest university, of “utter negligence”.

No-one at the university could be reached for comment.

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Scientists create Alzheimer”s rat for human research

March 30, 2010 By Leave a Comment

Washington, Mar 30 (ANI): A group of scientists has genetically manipulated rat to create ideal model for studying Alzheimer”s disease in humans.

Prof. Claudio Cuello at McGill University and his collaborators have genetically manipulated rats that can emulate Alzheimer”s disease in humans, enabling research that will include the development of new treatments.

Alzheimer”s is a brain condition leading to a progressive decline of memory and other brain functions. Although research mice have been developed in the past, rats are more intelligent than other rodents and the behavior of these rats is rich and predictable, which means that for the first time researchers will be able to detect and study the evolution of learning and memory deficits.

Moreover, researchers can now study a suspected “latent phase” of Alzheimer”s disease.

The disease is caused by the accumulation in the brain of molecules known as peptides. This accumulation has been repeated in lab mice, but the human condition develops through different stages and these rats enable this progression to be mimicked for the first time. Studies of this phase were previously impossible as humans do not have biochemical markers that would allow the development of Alzheimer”s to be predicted. (ANI)

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High-fructose corn syrup ‘worse than regular sugar’

March 23, 2010 By Leave a Comment

Washington, March 23 (ANI): A new research has shown that all sweeteners are not equal when it comes to weight gain.

In the study, researchers from Princeton University found that rats with access to high-fructose corn syrup gained significantly more weight than those with access to table sugar, even when their overall caloric intake was the same.

In addition to causing significant weight gain in lab animals, long-term consumption of high-fructose corn syrup also led to abnormal increases in body fat, especially in the abdomen, and a rise in circulating blood fats called triglycerides.

“Some people have claimed that high-fructose corn syrup is no different than other sweeteners when it comes to weight gain and obesity, but our results make it clear that this just isn”t true, at least under the conditions of our tests,” said psychology professor Bart Hoebel, who specializes in the neuroscience of appetite, weight and sugar addiction.

“When rats are drinking high-fructose corn syrup at levels well below those in soda pop, they”re becoming obese — every single one, across the board. Even when rats are fed a high-fat diet, you don”t see this; they don”t all gain extra weight,” Hoebel added.

The results of the study have been published online March 18 by the journal Pharmacology, Biochemistry and Behaviour. (ANI)

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Mechanism behind memory formation during sleep uncovered

September 17, 2009 By Leave a Comment

London, Sep 16 (ANI): A team of scientists have for the first time uncovered the mechanism that causes learning and memory formation during sleep.

Researchers led by Gyorgy Buzsaki, professor at the Center for Molecular and Behavioral Neuroscience at Rutgers University, Newark, have determined that short transient brain events, called “sharp wave ripples,” are responsible for consolidating memory and transferring the learned information from the hippocampus to the neocortex, where long-term memories are stored.

Sharp wave ripples are intense, compressed oscillations that occur in the hippocampus when the hippocampus is working “off-line,” most often during stage four sleep, which, along with stage three, is the deepest level of sleep.

“(During stage four sleep) it’s as if many instruments and members of the orchestra come together to generate a loud sound, a sound so loud that it is heard by wide areas of the neocortex. These sharp, ‘loud’ transient events occur hundreds to thousands of times during sleep and ‘teach’ the neocortex to form a long-term form of the memory, a process referred to as memory consolidation,” Nature quoted Buzsaki as saying.

The intensity and multiple occurrences of those ripples also explain why certain events may only take place once in the waking state and yet can be remembered for a lifetime, added Buzsaki.

The scientists could pinpoint that sharp wave ripples caused memory formation by eliminating those ripple events in rats during sleep.

The rats were trained in a spatial navigation task and then allowed to sleep after each session.

It was found that rats that selectively had all ripple events eliminated by electrical stimulation were impeded in their ability to learn from the training, as compressed information was unable to leave the hippocampus and transfer to the neocortex.

Identification of a specific brain pattern responsible for strengthening learned information could facilitate applied research for more effective treatment of memory disorders.

“This is the first example that if a well-defined pattern of activity in the brain is reliably and selectively eliminated, it results in memory deficit; a demonstration that this specific brain pattern is the cause behind long-term memory formation,” said Buzsaki.

The study has been published in Nature Neuroscience. (ANI)

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Brain circuit that controls binge eating uncovered

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): Conducting an animal study, researchers at the University of Missouri have gained significant insights into the brain circuit that controls binge eating.

The researchers found that deactivating the basolateral amygdala, a brain region involved in regulating emotion, specifically blocked consumption of a fatty diet in a rat.

However, they were surprised to see that deactivating the same brain region did not stop the rat from wanting to look for the food repeatedly.

“It appears that two different brain circuits control the motivation to seek and consume,” said Matthew Will, assistant professor of psychological sciences in the MU College of Arts and Science and investigator in the Christopher S. Bond Life Sciences Center.

“Understanding how this circuit in the brain works may provide insight into the exact networks and chemicals in our brain that determine the factors influencing our feeding habits,” he added.

Will and his colleagues point out that the release of opioids, pleasure chemicals that can lead to euphoria, into the brain produces binge eating in non-hungry rats.

Their study has shown that deactivating the basolateral amygdala blocks this type of binge eating.

“A key to curbing the obesity epidemic in America is controlling the desire to binge eat. Humans have more programming to start and continue eating than to stop eating, especially when they have a bowl of ice cream in front of them. Most of us would finish it even if we weren’t hungry,” Will said.

He said that the fact that deactivating basolateral amygdala had no effect on feeding in rats that were simply deprived of food for 24 hours suggested that this brain region is specifically involved in the overconsumption of food based on its palatability or pleasure driven by opioids, rather than the level of hunger.

“The finding that the basolateral amygdala only appears involved in the opioid produced consumption was the most surprising part of the study. Normally, if a rat stops eating, they will go lay down and take it easy. In this case, they showed all signs of still wanting to eat, but didn’t,” Will said.

A research article describing the study was published in August in Behavioral Neuroscience. (ANI)

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Exercise the best bet to fight weight regain

September 3, 2009 By Leave a Comment

Washington, Sept 3 (ANI): Exercise can help control weight regain after dieting by reducing appetite and burning fat before burning carbohydrates, according to a new study.

According to researchers from the University of Colorado Denver, burning fat first and storing carbohydrates for use later in the day slows weight regain and may minimize overeating by inducing a feeling of fullness to the brain.

They insist that exercise prevents the increase in the number of fat cells that occurs during weight regain.

This discovery also challenges the conventional wisdom that the number of fat cells is set and cannot be altered by dietary or lifestyle changes.

These coordinated physiological changes in the brain and the body lower the ‘defended’ weight, that is, the weight that our physiology drives us to achieve, and suggest that the effects of exercise on these physiological processes may make it easier to stay on a diet.

During the study, the researchers used obesity-prone rats. For the first 16 weeks, the rats ate a high-fat diet, as much as they wanted, and remained sedentary.

They were then placed on a diet. For the following two weeks, the animals ate a low-fat and low-calorie diet, losing about 14pct of their body weight.

The rats maintained the weight loss by dieting for eight more weeks. Half the rats exercised regularly on a treadmill during this period while the other half remained sedentary.

The findings revealed that exercising rates regained less weight and burned more fat early in the day, and more carbohydrates later in the day.

It reduced drive to overeat and enhanced the ability to balance energy intake with energy expended.

The team will do further research to demonstrate that exercise is, indeed, preventing the formation of new fat cells early in relapse and not simply altering the size of pre-existing fat cells.

The study appears in American Journal of Physiology. (ANI)

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Fatty apron over stomach, intestines may help grow patches of cells for heart repair

August 30, 2009 By Leave a Comment

London, August 30 (ANI): A team of researchers in Israel have successfully grown patches of cells for heart repair by conducting experiments on rats.

Smadar Cohen, a tissue engineer at Ben-Gurion University of the Negev in Beersheba, has revealed that the study has basically shown that a fatty apron of tissue called the omentum, which sits over the stomach and intestines, may be the perfect spot to grow patches of cells for heart repair.

The researcher says that this achievement may one day help solve a major problem that arises when it comes to repairing the damage using tissue grown in the lab, which does not always integrate well into the body.

During the study, Cohen and colleagues seeded rat cardiac cells onto scaffolds that they transplanted into the omentums of eight rats, reports New Scientist magazine.

After a week of growth, they transplanted the patches of heart tissue into the damaged hearts of another set of rats.

Writing about their findings in the Proceedings of the National Academy of Sciences, the researchers revealed that the patches integrated well with existing heart cells and beat in time, unlike those grown in the lab.

The researchers attribute the success to the omentum-grown cells developing a denser, more mature set of blood vessels.

They believe that the same trick may one day also work in people, although some may object to having two transplants. (ANI)

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Novel therapeutic target for Parkinson’s disease identified

August 29, 2009 By Leave a Comment

Washington, Aug 29 (ANI): Scientists from University of Helsinki Institute of Biotechnology have identified a novel therapeutic target for Parkinson’s disease.

Lead researcher Professor Raimo K. Tuominen and colleagues have identified a growth factor that can be used to halt the progress of damage brought on by a nerve poison, and possibly restore the function of damaged cells.

The team is investigating two new nerve growth factors. MANF (mesencephalic astrocyte-derived neurotrophic factor) and CDNF.

MANF is released from glial cells in the midbrain and is a member of the same growth factor family as CDNF.

The team found that in the experimental PD model, MANF and CDNF injections into the brain prevented dopamine nerve destruction caused by nerve poison and to some extent even restored the function of damaged cells in rats.

This suggests that MANF spreads more readily in brain tissue than other known growth factors.

This may be a highly significant finding in respect to the development of growth factor therapy for PD. (ANI)

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Now, a ‘patch’ to mend broken hearts

August 25, 2009 By Leave a Comment

London, Aug 25 (ANI): Scientists in Israel have developed a ‘patch’ from heart muscle that can be used to fix scarring left over from a heart attack.

The researchers showed that the technique strengthened the hearts of rats that had suffered heart attacks, reports the BBC.

The ‘patch’ was grown in abdominal tissue first, then transplanted to damaged areas of the heart.

This is the first experiment to show that such patches can actually improve the health of a heart after it has been damaged.

The researchers measured an increase in the size of the muscle in damaged areas, and improved conduction of the electrical impulses needed for the heart to pump normally.

Heart attacks usually cause irreversible damage to heart muscle. If people survive, then the damaged muscle can cause another serious condition called heart failure.

The researchers, led by Tal Dvir from Ben-Gurion University of the Negev in Beer-Sheva, hope that the procedure may eventually lead to treatments in humans because of its “simplicity and safety”.

However, they added “because most patients with heart attacks are old, and multiple surgery can pose a large risk to them, our strategy is not currently an option”.

The study has been described in the journal Proceedings of the National Academy of Sciences (PNAS). (ANI)

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Scientists discover deadly plant that eats rats

August 18, 2009 By Leave a Comment

London, August 18 (ANI): British scientists have discovered a deadly plant that eats rats, and is believed to be the largest meat-eating shrub.

According to a report in The Sun, the giant pitcher plant lures rodents into its slipper-shaped mouth and dissolves them with acid-like enzymes.

Scientists, led by botanists Stewart McPherson and Alastair Robinson, tracked it down on Mount Victoria in the Philippines after hearing that missionaries had seen “whole rats” being eaten.

“The plant produces spectacular traps which catch not only insects, but also rodents. It is remarkable that it remained undiscovered until the 21st century,” said McPherson, of Poole, Dorset.

The research team named the incredibly rare species after legendary wildlife broadcaster Sir David Attenborough.

“My team and I named it in honour of Sir David whose work has inspired generations toward a better understanding of the beauty and diversity of the natural world,” said McPherson.

“I was contacted by the team shortly after the discovery and they asked if they could name it after me. I was delighted and told them, ‘Thank you very much’,” said Sir David.

“I’m absolutely flattered. This is a remarkable species the largest of its kind. I’m told it can catch rats then eat them with its digestive enzymes. It’s certainly capable of that,” he added.

The plant, now dubbed Nepenthes attenboroughii, is green and red and can grow a stem more than 4ft long. It is found only in the scrub high on the windswept slopes of Mount Victoria.

McPherson and former Cambridge University botanist Robinson made their discovery during an expedition in 2007.

But, they have only just described the killer shrub in a journal after a three-year study of all 120 species of pitcher plant. (ANI)

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Meet the male cockerel whose insatiable sex drive killed its exhausted mate!

July 10, 2009 By Leave a Comment

London, July 9 (ANI): A cockerel named Elvis has come to be known as a “ladykiller” after his hen’s death from exhaustion, which believably was a result of her inability to keep up with her mate’s sexual appetite.

The cockerel, who used to have four hens vying for his attention, was left with only Berol to keep his libido satisfied after three of the lot died.

According to reports, Berol had to be put to sleep after becoming exhausted by Elvis’s constant demands.

One-year-old Elvis’ owner Katherine Cooke, who works as a nurse at Buckley House veterinary surgery in Hucknall, Nottinghamshire, is now searching for a new home and hen harem for the cockerel.

“Elvis is a young, fit cockerel and he wants what all cockerels want, a new harem – a new group of ladies,” the Telegraph quoted Katherine, 32, as saying.

“He very handsome and is a stereotypical cockerel like the one off the Kellogg’s boxes. He is quite the bachelor.

“He has had a troubled life. He used to live with four lady friends but unfortunately rats got in to their coop one night and there was a mass murder and three of them died. Berol was certainly then the centre of his attention,” she added.

She presently keeps Elvis in a coop at a horse’s stables in nearby Ravenshead.

“Elvis is very, very noisy. I want to try and find a new home but it’s quite difficult because I don’t want him to get an Asbo,” she said. (ANI)

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Novel robotic rat to search for survivors through rubble and burning buildings

July 1, 2009 By Leave a Comment

London, July 1 (ANI): Rescue teams are all set to get a run for their money, for scientists have now unveiled a pioneering robotic rat that could search through rubble and burning buildings for survivors – using only its whiskers.

Called the Scratchbot, the robot used latest state-of-the-art technology to hunt through pitch black or smoke-filled rooms.

Scratchbot does all this only via touch sensors located on a set of whiskers, reports The Scotsman.

The robot could have huge implications in search and rescue missions by picking its way through rubble and debris or help in mine-clearing operations.

The device is the brainchild of researchers from the University of Bristol and University of Sheffield, who have spent six years and 500,000 pounds to research and designing the robotic rat that could revolutionise rescue missions.

The project was inspired by the use of touch in the animal kingdom – specifically how rats explore their environments using whiskers in poorly lit places. (ANI)

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How neuronal activity is timed in brain’s memory-making circuits

May 30, 2009 By Leave a Comment

London, May 30 (ANI): Researchers at the California Institute of Technology (Caltech) have challenged the long-held assumption that theta oscillations-a type of prominent brain rhythm that orchestrates neuronal activity in the hippocampus-remain “in sync” across this key area for the formation of new memories.

In a new study, the researchers have found that instead of being in sync, theta oscillations actually sweep along the length of the hippocampus as travelling waves.

“It was assumed that activity in the hippocampus is synchronized throughout. But when we looked simultaneously at many different anatomical locations across the hippocampus, we found instead a systematic delay in neuronal activity from site to site. Instead of the whole structure oscillating at once, we see travelling waves that propagate across the hippocampus in a consistent direction, along its long axis,” Nature magazine quoted Evgueniy Lubenov, a postdoctoral scholar at the Center for Biological Circuit Design at Caltech, as saying.

Athanassios Siapas, associate professor of computation and neural systems and Bren Scholar at Caltech, added: “In other words, the hippocampus has a series of local time zones, just like we have on Earth.”
During the study, the researchers analysed the theta oscillations generated as rats move around and explore their environment.

The observed how and when rats’ neurons fired relative to their positions and to the phase of the theta oscillations.

They did so using multiple electrodes with recording sites, which enabled them to simultaneously isolate the spiking of many individual neurons.

“Each of these neurons fires only in a restricted region of space. Furthermore, the spikes don’t just happen any time-they pay attention to the phase of the ongoing theta oscillation. If you have access to the phase at which the neuron fired, you have additional information about where the rat was in space,” Lubenov said.

Upon combining the data about neuronal firing, oscillation phase and rat location, the researchers observed that neuronal activity indeed sweeps across the hippocampus in a wave, with its peak appearing in one region, then another, then another, rather than hitting the entire hippocampus in one synchronized pulse.

“This changes our notion of how spatial information is represented in the rat brain. It was believed that the firing of hippocampal neurons encodes the physical location of the rat in its environment-in other words, a point of physical space. Our findings suggest that what is encoded is actually a portion of the rat’s trajectory-that is, a segment of physical space,” Lubenov said.

Siapas added: “Such segments may be the elementary unit of hippocampal computation. Assume the path a rat takes in an environment is represented and stored as a sequence of point locations. If the rat visits the same location more than once, the representation becomes ambiguous. Representing the rat trajectory as a sequence of segments oriented in space resolves such ambiguities.”

The researchers say that the significance of their findings lies in the fact that they may prove helpful in understanding how information is transmitted from the hippocampus to other areas of the brain.

“Different portions of the hippocampus are connected to different areas in other parts of the brain. The fact that hippocampal activity forms a traveling wave means that these target areas receive inputs from the hippocampus in a specific sequence rather than all at once,” said Siapas.

The researcher also dismissed the suggestion that this behaviour is found only in rat brains, insisting that theta oscillations are ubiquitous in mammalian brains.

“I would expect the traveling-wave nature of theta oscillations to be a general finding, applicable to humans as well,” he said.

And while it is not known whether human hippocampal cells function as place cells, as they do in rats, “it may turn out to be the case that the human hippocampus plays a role in providing spatial cues that are important to episodic memory,” Lubenov said.

What we do know is that, by showing that theta oscillations travel across the hippocampus, the Caltech team will likely change the way neuroscientists think about how the hippocampus works. (ANI)

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How drug-or-alcohol addiction tricks the brain

May 29, 2009 By Leave a Comment

Washington, May 29 (ANI): The brain’s pleasure center gets hijacked when someone becomes addicted to drugs or alcohol. This, in turn, disrupts the normal functioning of its reward circuitry.

Now, researchers investigating the addiction “switch” have implicated a naturally occurring protein, a dose of which allowed them to get rats hooked with no drugs at all.

The research has been published in the journal Science.

“If we can understand how the brain’s circuitry changes in association with drug abuse, it could potentially suggest ways to medically counteract the effects of dependency,” said Scott Steffensen, a neuroscientist at Brigham Young University who co-authored the study with two of his undergraduate students, one of his grad students, and a team of researchers at the University of Toronto.

Chronic drug users, as noted by previous research, can experience an increase of a naturally-occurring protein called BDNF (brain-derived neurotrophic factor) in the brain’s reward circuitry, a region scientists call the ventral tegmental area.

In the study, the researchers took the drugs out of the equation and directly infused extra BDNF onto this part of the brain in rats.

The Toronto team noted that a single injection of BDNF made rats behave as though they were dependent on opiates (which they had never received). Though rats instinctively prefer certain smells, lighting and texture, these rats left their comfort zone in search of a fix.

“This work may reveal a mechanism that underlies drug addiction,” said lead author Hector Vargas-Perez, a neurobiologist at the University of Toronto.

The BYU team confirmed that the protein is a critical regulator of drug dependency.

After the BDNF injection, specific chemicals that normally inhibit neurons in this part of the brain instead excited them, a “switch” known to occur when people become dependent on drugs. (ANI)

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Gisele Bundchen’s residential area plagued by rats

May 28, 2009 By Leave a Comment

Beijing, May 28(IANS) Brazilian supermodel Gisele Bundchen’s place is horrified with rats as they have plagued her residential area.

Bundchen screamed in horror after seeing one of the rodents, who have infected the street in New York’s West Village area where she lives alongside stars including Rupert Everett and Michael Cera, reports China Daily.

“There’s been a parade of big fat rats every night. You can hear shrieks from fighting rats and from girls walking by who see the rats. They come out from a building where the owner hasn’t bothered to replace stolen garbage cans, leaving the rats to fight over all the trash on the street,” said a source.

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Rats are loyal to their neighbourhoods

May 27, 2009 By Leave a Comment

Washington, May 27 (ANI): In what may have important implications for controlling diseases that spread from rats to humans, Johns Hopkins scientists have found that rodents spend the majority of their lives close to their homes.

The researchers have also observed that some rodents may, in the face of danger, travel as far as seven miles to repopulate abandoned areas.

Wild Norway rats-also called wharf rats, sewer rats or brown rats-can weigh nearly 2 pounds and transmit a variety of diseases to humans.

Even though expensive eradication efforts have been made in Baltimore, point out the researchers, the number of rats there has remained unchanged over the past 50 years.

With a view to finding out why such drives have failed to eradicate rats from Baltimore, the researchers trapped about 300 rats from 11 residential areas and conducted genetic studies to see how the rats were related.

They found that East Baltimore rats are separated from their unrelated West-side counterparts by a large waterway known as the Jones Falls. Within these hemispheres, rat families form smaller communities of about 11 city blocks.

Each community is further divided into neighborhoods that span little more than the length of an average alley. And to a city rat, this is home sweet home.

Based on their observations, the researchers have come to the conclusion that while rats rarely migrate, neighborhood eradication efforts may backfire by encouraging the rodents to repopulate other areas and further spread disease.

They believe that the best solution may be to tackle the problem on a much larger scale-perhaps by targeting entire families at once.

A research article on the study has been published in the journal Molecular Ecology. (ANI)

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Rats may be studied to see how Alzheimer’s robs sufferers of episodic memory

May 19, 2009 By Leave a Comment

Washington, May 19 (ANI): In what may open new ways to study how Alzheimer’s disease causes life-robbing loss of memory in humans, scientists at the University of Georgia say that their latest study suggests that rats can be used as nonhuman models to study how “episodic-like memory” works.

“This research shows that rats remember the time at which they encounter a distinctive event, in addition to what the event was and where it happened.

These experiments provide insight into the memory system that retains the time of occurrence of earlier events,” said Jonathon Crystal, an associate professor in the Department of Psychology’s Neuroscience and Behavior Program in UGA’s Franklin College of Art and Sciences.

In episodic memory, unique past events are recalled and can be placed in time and at a specific location.

While scientists believed it for many years that only humans have episodic memory, behavioral experiments have shown that rats do have such memory.

If these findings are replicated in further experiments, they will provide scientists with a way to study this type of memory in a nonhuman model.

“It has been argued that retrieval of episodic memories is analogous to traveling back in time. Recent studies with nonhuman animals suggest that animals remember specific episodes from their past, but there has been controversy over whether episodic-like memory in rodents is the same as it is in humans,” said the researchers.

They have revealed that their experiment involved setting up a situation in which rats were “asked” to remember the time of day at which they encountered a distinctive event, in addition to what occurred and where it happened.

The event was the feeding of chocolate-flavored pellets-chocolate being a flavor that rats, like humans, crave.

The rats were fed in the morning and afternoon on separate days, but chocolate was available at only one time and place. Rats adjusted their revisits to the chocolate location by using the time of day rather than how long ago the event occurred.

“Our results suggest that at the time of memory assessment, rats remember when a recent episode occurred, similar to human episodic memory,” said Crystal.

Zhou agrees: “As a memory system that is late to develop in childhood and is the first to decline in old age, episodic memory has attracted intensive attention in the scientific community recently.

Because there are many limitations in human studies, I think the development of a rodent model of episodic memory will provide an invaluable tool for understanding the underlying mechanisms. It will also bridge the gap between studies of memory in humans and animals.”

The study has been published in the online edition of The Proceedings of the National Academy of Sciences. (ANI)

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