Stem cell transplantation may correct rare genetic disorder in kids

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): Scripps Research Institute scientists have offered new hope for parents whose children suffer from the rare genetic disorder ‘cystinosis’ by showing through an experiment on mice that stem cell transplantation can successfully correct the defect.

“After meeting the children who suffer from this disease, like an 18-year-old who has already had three kidney transplants, and the families who are desperately searching for help, our team is committed to moving toward a cure for cystinosis, a lysosomal storage disorder. This study is an important step toward that goal,” said principal investigator Stephanie Cherqui.

In the study, the researchers used bone marrow stem cell transplantation to address symptoms of cystinosis in a mouse model.

The procedure virtually halted the cystine accumulation responsible for the disease, and the cascade of cell death that follows.

Cystine is a by-product of the break down of cellular components the body no longer needs in the cell’s “housekeeping” organelles, called lysosomes.

Normally, cystine is shunted out of cells, but in cystinosis a gene defect of the lysosomal cystine transporter causes it to build up, forming crystals that are especially damaging to the kidneys and eyes.

Cystinosis is a rare but devastating disease affecting children as young as six months, who begin to suffer renal dysfunction, which grows progressively worse with time. Other symptoms include diabetes, muscular disease, neurological dysfunction, and retinopathy.

The only available drug to treat cystinosis, cysteamine, while slowing the progression of kidney degradation, does not prevent it, and end-stage kidney failure is inevitable.

In the new study, the researchers found that transplanted bone marrow stem cells carrying the normal lysosomal cystine transporter gene abundantly engrafted into every tissue of the experimental mice.

This led to an average drop in cystine levels of about 80 percent in every organ.

Not only it prevented kidney dysfunction, there was less deposition of cystine crystals in the cornea, less bone demineralization, and an improvement in motor function.

“The results really surprised and encouraged us. Because the defect is present in every cell of the body, we did not expect a bone marrow stem cell transplant to be so widespread and effective,” says Cherqui.

Cherqui said that adult bone marrow stem cell therapy is particularly well suited as a potential treatment for cystinosis because these cells target all types of tissues.

In addition, stem cells reside in the bone marrow for the duration of a patient’s life, becoming active as needed, a particular benefit for a progressive disease like cystinosis.

The study has been published in the journal Blood. (ANI)

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Over-expressed protein may make non-invasive breast cancer invasive

September 10, 2009 By Leave a Comment

Washington, Sep 9 (ANI): An over-expressed protein can convert active but non-invasive breast cancer into a different cell type, and thereby turn it into invasive breast cancer, according to scientists at The University of Texas M. D. Anderson Cancer Center.

The researchers say that overexpression of the protein 14-3-3? (zeta) launches a molecular cascade that removes bonds that tie the pre-malignant cells together, and hold them in place, converting them from stationary epithelial cells to highly mobile mesenchymal-like cells.

This epithelial-to-mesenchymal transition (EMT) is recognized as a crucial step in metastasis, the spread of cancer to distant organs that causes 90 percent of all cancer deaths.

“We have discovered a key molecular mechanism for the deadly transition of non-invasive breast cancer into invasive disease,” said senior author Dr. Dihua Yu.

The researchers have shown that the zeta protein teams up with the oncoprotein ErbB2, also known as HER2, in a two-hit process to convert normal mammary cells to invasive cancer cells.

The findings of the study also provided a biomarker in zeta to identify high-risk patients for more aggressive treatment before their noninvasive breast cancer converts to invasive disease.

The researchers also got new therapeutic targets among the components of the molecular pathway launched by zeta.

According to Yu, some drugs already aim at these targets.

In addition, they found a solution to a puzzling mystery about how a subset of non-invasive breast cancer with excessive presence of an ErbB2/HER2 develops into invasive breast cancer.

Earlier, the researchers showed that zeta is over-expressed in many other cancer types, like lung, liver, uterine, stomach cancers.

“Our findings might have broader implications relating to the mechanism of invasion and metastasis in other types of cancer,” Yu said.

The researchers said that it would be very challenging to target zeta by drugs because it also regulates other important proteins in normal cellular processes.

The study has been published in the journal Cancer Cell. (ANI)

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Bumper jute production brings cheer to farmers in West Bengal

August 29, 2009 By Leave a Comment

Jalpaiguri, Aug 28 (ANI): Despite late arrival of monsoon rains this year, jute farmers in Jalpaiguri district in West Bengal are rejoicing due to bumper production of the crop.

They say that the production this year is as good as previous years.

“Like the previous years, this year also the production is good. There has been no loss due to rain deficit. The price has also not changed. More or less it’s the same. Overall, it’s good and we are happy,” said Nirmal Roy, a farmer.

However, some feel that a better market for their crops would have been a bonus to their high yield.

“Despite late monsoon this year, the production is quite good and we expected a better market. However, if the rains had come a little earlier then the production would have been much better. Nonetheless, what we got is good, but a little better market would have been much satisfactory,” said Suren Roy, another farmer.

Meanwhile, jute traders hope that the market would get stable in a few days time.

“The business is good this time. There were more markets before but this time it’s less. However, we hope that the market would get revive in another five to seven days,” said Narender Singh Rathore, a jute merchant, Jalpaiguri.

Jute is one of the most viable cash crops of India. And this cash crop is mostly cultivated in the eastern margin of the country.

West Bengal stands first in the country in jute production and the districts of Jalpaiguri and Coochbehar are the forerunners in the production of jute in the whole of West Bengal.

Mostly used for making bags and other sundry items, jute is also highly in demand in the carpet industry due to its fine quality.

The jute produced in Jalpaiguri is of such superior quality that it is also known as the brown cascade. By Tarak Sarkar (ANI)

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How eating less can help boost lifespan

June 27, 2009 By Leave a Comment

London, June 25 (ANI): Scientists have long known that a restricted diet extends life. Now, researchers at the Salk Institute for Biological Studies have identified two enzymes that provide a new molecular explanation for how eating less leads to living longer.

Howard Hughes Medical Institute investigator Andrew Dillin and colleagues identified two proteins, WWP-1 and UBC-18, that link dietary restriction to longevity in roundworms.

Dillin says when researchers removed the two enzymes from the test animals, the benefits of a restricted diet disappeared.

And when those enzymes were enhanced, longevity and disease resistance increased.

The scientists say understanding how these molecules influence longevity could have implications for developing new treatments for age-related diseases.

“The only other known factor regulating longevity in response to diet restriction operates at the very end of the signaling cascade,” said Howard Hughes Medical Investigator and senior author Andrew Dillin, Ph.D., an associate professor in the Molecular and Cell Biology Laboratory.

“These two enzymes are further up the ladder, bringing us closer to the receptor that receives the signal for throwing the switch to promote a healthy lifespan,” Dillin added.

The study has been published in the June 24, 2009, advance online edition of the journal Nature. (ANI)

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Snoring in pregnancy ups diabetes risk

June 11, 2009 By Leave a Comment

WASHINGTON: If you are pregnant and your husband complains about your repeated snoring, you may have bigger problems than a groggy,
sleep-deprived partner.

A new study by Northwestern University has found that women who reported frequent snoring during their pregnancy were more likely to develop gestational diabetes. The condition can cause health problems for both the mother and infant.

Researchers also found that pregnancy increases the likelihood that a woman will snore.

Pregnant women who were frequent snorers had a 14.3% chance of developing gestational diabetes, while women who did not snore had a 3.3% chance.

Francesca Facco, study lead author said: “Snoring may be a sign of poor air flow and diminished oxygenation during sleep that can cause a cascade of events in your body. This may activate your sympathetic nervous system, so your blood pressure rises at night. This can also provoke inflammatory and metabolic changes, increasing the risk of diabetes or poor sugar tolerance.”

This is the first study to report a link between snoring and gestational diabetes.

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Genetic mutation ‘triggers most melanoma’

April 7, 2009 By Leave a Comment

Washington, April 7 (ANI): A team of British scientists has identified a genetic mutation that may trigger up to 70 percent of cases of the most deadly form of skin cancer – melanoma.

Previous studies have shown that the BRAF gene was often damaged or mutated in melanomas – but it is not known whether this was a cause or result of the cancer.

The Institute of Cancer Research study shows that acquiring the mutation can be the first in a cascade of genetic changes leading to melanoma.

It confirms that BRAF is a driving force behind the disease and could be the trigger that causes melanoma.

“We know that excessive sun exposure is the main cause of skin cancer, but not much is known about the genetics behind it,” the BBC quoted lead author Professor Richard Marais, as saying.

“Our study shows that the genetic damage of BRAF is the first step in skin cancer development. Understanding this process will help us develop more effective treatments for the disease,” Marais added.

Over-exposure to sunlight causes at least two thirds of all malignant melanomas. This excessive exposure damages DNA and causes genetic mutations.

The study features in the journal Cancer Cell. (ANI)

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Scientists create nanoparticle to fight drug addiction

March 25, 2009 By Leave a Comment

Washington, Mar 25 (ANI): Scientists at University at Buffalo (UB) have developed a nanoparticle that can silence a gene that triggers drug addiction.

Boffins in UB’s Institute for Lasers, Photonics and Biophotonics and UB’s Department of Medicine have developed a stable nanoparticle that delivers short RNA molecules in the brain to “silence” or turn off a gene that plays a critical role in many kinds of drug addiction.

“These findings mean that in the future, we might be able to add a powerful pharmaceutical agent to the current arsenal of weapons in order to more effectively fight a whole range of substance addictions,” said Paras N. Prasad, Ph.D.

The new nanotechnology method may also be applicable to treating Parkinson’s disease, cancer and a range of other neurologic and psychiatric disorders, which require certain drugs to be delivered to the brain.

Researchers have also claimed that this highly translational research strongly suggests that the nanoparticles would be applicable to other diseases and will soon study their use in treating AIDS dementia, prostate cancer and asthma.

“The findings of this study tell us that these nanoparticles are both a safe and very efficient way of delivering to a variety of tissues highly sophisticated new drugs that turn off abnormal genes,” said Stanley A. Schwartz, M.D., Ph.D., and a co-author on the study.

In the study, the researchers have described the development of an innovative way to silence DARPP-32, a brain protein, understood to be a central “trigger” for the cascade of signals that occurs in drug addiction.

DARPP-32 is a protein in the brain that facilitates addictive behaviours.

Silencing of the DARPP-32 gene with certain kinds of ribonucleic acid (RNA), called short interfering RNA (siRNA), can inhibit production of this protein and thus, could help prevent drug addiction.

“When you silence this gene, the physical craving for the drug should be reduced,” said Adela C. Boniou, Ph.D., a co-author on the study.

One downside in the method has been to find a way to safely and efficiently deliver the siRNA, which is not stable on its own.

The researchers successfully combined the siRNA molecules with gold nanoparticles shaped like rods, called nanorods, marking the first time that siRNA molecules have been used with gold nanorods.

“What is unique here is that we have applied nanotechnology to therapeutic concepts directed at silencing a gene in the brain, using RNA techniques,” said Supriya D. Mahajan, Ph.D., research assistant professor in the UB Department of Medicine in the School of Medicine and Biomedical Sciences.

The gold nanorods not only are biocompatible, but are rod-shaped rather than spherical, thus allowing for more siRNA molecules to be loaded on to their surface. Thus, their stability is further increased and allows for better penetration into cells.

“We have demonstrated that we can use these gold nanorods to stabilize the siRNA molecules, take them across the blood-brain barrier and silence the gene. The nanorods nicely address all three of these requirements,” said Indrajit Roy, Ph.D., deputy director for biophotonics at the institute.

The in vitro findings of the study were recently published online in the Proceedings of the National Academy of Sciences. (ANI)

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Warming climate could make diatoms capture less greenhouse gases

March 18, 2009 By Leave a Comment

Washington, March 18 (ANI): A new research by Michigan State University (MSU) scientists has indicated that tiny creatures at the bottom of the food chain called diatoms could become less able to “sequester” greenhouse gas as the climate warms.

Diatoms, microscopic algae that are a major component of plankton living in puddles, lakes and oceans, suck up nearly a quarter of the atmosphere’s carbon dioxide (CO2).

For the research, Zoology professor Elena Litchman, with MSU colleague Christopher Klausmeier and Kohei Yoshiyama of the University of Tokyo, explored how nutrient limitation affects the evolution of the size of diatoms in different environments.

“They are globally important since they ‘fix’ a significant amount of carbon,” Litchman explained of the single-cell diatoms.

“When they die in the ocean, they sink to the bottom carrying the carbon from the atmosphere with them. They perform a tremendous service to the environment,” she added.
Litchman analyzed data from lakes and oceans across the United States, Europe and Asia and found a striking difference between the size of diatoms in freshwater and in marine environments.

In oceans, diatoms grow to be 10 times larger on average than in freshwater and have a wider range of sizes.

“One factor that affects growth is nutrient availability,” Litchman said.

The research shows that limitations by nitrogen and phosphorus exert different selective pressures on cell size. The availability of these nutrients depends on the mixing of water from greater depths.

Using a mathematical model, Litchman and her colleagues found that when those nutrients are constantly limited and mixing is shallow, smaller diatoms thrive.
But, when nitrate comes and goes, as often happens in roiling oceans, diatoms evolve larger to store nutrients for lean times. Deep mixing also benefits large diatoms.

Depending on how intermittent the nitrate supply is and how deep the ocean mixes, there can be a wide range of diatom sizes.

Size matters for the creatures that eat them and also for carbon sequestration, as large diatoms are more likely to sink when they die.
“Changing climate could alter the mixing depths and delivery of nutrients to diatoms and their subsequent sizes with a cascade of consequences,” Litchman said.
According to Litchman, “On a global scale, increased ocean temperatures could make the ocean more stratified. This would cause less mixing and create stronger nutrient limitation and less frequent nutrient pulses.”

“A change like this would select for different sizes of diatoms. If smaller sized diatoms dominate, then carbon sequestration becomes less efficient and there may be more CO2 remaining in the atmosphere, which would exacerbate global warming,” she explained. (ANI)

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Curing Alzheimer’s disease would need combination therapy

March 18, 2009 By Leave a Comment

Washington, March 18 (ANI): Researchers at the University of Illinois at Chicago College of Medicine say that a potential cure for Alzheimer’s disease may require a combination therapy, which will target the malformations of the proteins that characterise this condition.

Alzheimer’s disease is characterized by two distinctive protein malformations: amyloid plaques, which are sticky deposits made up of a short protein called amyloid beta, and tau tangles, which are made of short filaments of the tau protein.

Referring to a previous study, the researchers highlight the fact that tau tangles work together with amyloid beta to create a perfect storm that destroys neural function and memory.

They, however, insist that no study to date has been able to show as to how amyloid beta and the tau tangles wreak their damage on the nervous system.

Scott Brady, professor and head of anatomy and cell biology at the UIC College of Medicine, points out that when short assemblies of amyloid, rather than the long-chain plaques, get inside neurons, they interfere with the cells’ transport system.

This, according to him, limits their ability to send vital proteins and vesicles to where they are needed within the cell, and interferes with the synaptic connections to other nerve cells.

Brady says that the new study has shown that the short assemblies of amyloid activate a transport-regulatory enzyme called CK2, which causes the motor protein to drop its cargo.

His team have also found that inhibition of CK2 is sufficient to prevent the effects of amyloid on transport.

An earlier study by the same researchers showed that tau tangles halt transport to the neuron periphery through other regulatory enzymes, by causing the motor protein to release the microtubule track.

The new study shows that the CK2 activated by amyloid also works as a primer for one of the enzymes activated by tau tangles, GSK3.

“Now we have the perfect storm. Both amyloid and tau tangles cause problems. But when you put them together, you exacerbate the problems, creating the cascade of events that cause Alzheimer’s loss of neural connections,” said Brady.

“It makes sense of why both have to be present to have Alzheimer’s.

“It is also telling us that treating one is not going to be sufficient. We’re going to have to think in terms of combination therapies that will allow us to address many targets at once. This may explain why attempts to manipulate one or the other haven’t been successful in patients,” he added.

A research article on the current study appears in the online edition of Proceedings of the National Academy of Sciences. (ANI)

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Israel seriously considering military action against Iran: US report

March 5, 2009 By Leave a Comment

Washington, Mar 5 (ANI): A report by top US political figures and experts released on Wednesday in Washington has claimed that Israel is seriously considering unilateral military action against Iran to prevent it from acquiring nuclear weapons.

The Jerusalem Post quoted the report as saying that Israel’s time frame for action is growing shorter, not only because of Iranian advances, but because Teheran might soon acquire upgraded air defenses and disperse its nuclear program to additional locations.

The report, named as “Preventing a Cascade of Instability” was released by the Washington Institute for Near East Policy (WINEP).

An early draft of the report was endorsed by Dennis Ross before he withdrew upon joining the Obama administration, in which he is serving as a special representative dealing with various countries in the region, including Iran.

Senator Evan Bayh of the Senate Select Committee on Intelligence, and Congressman Gary Ackerman, chairman of the House Foreign Affairs subcommittee on the Middle East, were among the signatories.

The report has urged for intensifying international sanctions against Iran for the effective engagement of Obama administration with Tehran.

The bipartisan group has also advised increasing security guarantees and the supply of missile defenses and other protective measures to allies in the Middle East, both to reassure them of America’s support to them.

The report has, however, noted that Israel is not interested in becoming part of an American nuclear umbrella as many Israelis fear that a declared US guarantee could come at the price of circumscribing Israel’s freedom of action in confronting existential dangers.

Former US ambassador to the United Nations Nancy Soderberg, one of the task force members who traveled to the region to research the report, expressed her concerns at a WINEP event on the report’s release.

She noted that the timetable for an Israeli attack might be “significantly” moved up if Jerusalem believed Russia would fulfill its promise to supply Iran with the S-300 surface-to-air missile system, which would greatly complicate any Israeli attack.

If the delivery does occur, the report recommends more arms sales to Israel, such as more modern aircraft, so it can maintain its military edge.

Later, she said that the aim of the report was to come up with strategies where neither the United States nor Israel was at the point of launching military action.

To that end, the 10-page document urges more international sanctions and expanding financial pressure taken by the US Treasury, by creating similar programs at the US Commerce and State Departments. (ANI)

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Israel seriously considering military action against Iran: US report

March 5, 2009 By Leave a Comment

Washington, Mar 5 (ANI): A report by top US political figures and experts released on Wednesday in Washington has claimed that Israel is seriously considering unilateral military action against Iran to prevent it from acquiring nuclear weapons.

The Jerusalem Post quoted the report as saying that Israel’s time frame for action is growing shorter, not only because of Iranian advances, but because Teheran might soon acquire upgraded air defenses and disperse its nuclear program to additional locations.

The report, named as “Preventing a Cascade of Instability” was released by the Washington Institute for Near East Policy (WINEP).

An early draft of the report was endorsed by Dennis Ross before he withdrew upon joining the Obama administration, in which he is serving as a special representative dealing with various countries in the region, including Iran.

Senator Evan Bayh of the Senate Select Committee on Intelligence, and Congressman Gary Ackerman, chairman of the House Foreign Affairs subcommittee on the Middle East, were among the signatories.

The report has urged for intensifying international sanctions against Iran for the effective engagement of Obama administration with Tehran.

The bipartisan group has also advised increasing security guarantees and the supply of missile defenses and other protective measures to allies in the Middle East, both to reassure them of America’s support to them.

The report has, however, noted that Israel is not interested in becoming part of an American nuclear umbrella as many Israelis fear that a declared US guarantee could come at the price of circumscribing Israel’s freedom of action in confronting existential dangers.

Former US ambassador to the United Nations Nancy Soderberg, one of the task force members who traveled to the region to research the report, expressed her concerns at a WINEP event on the report’s release.

She noted that the timetable for an Israeli attack might be “significantly” moved up if Jerusalem believed Russia would fulfill its promise to supply Iran with the S-300 surface-to-air missile system, which would greatly complicate any Israeli attack.

If the delivery does occur, the report recommends more arms sales to Israel, such as more modern aircraft, so it can maintain its military edge.

Later, she said that the aim of the report was to come up with strategies where neither the United States nor Israel was at the point of launching military action.

To that end, the 10-page document urges more international sanctions and expanding financial pressure taken by the US Treasury, by creating similar programs at the US Commerce and State Departments. (ANI)

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Now, a biomaterial to rebuild broken bones

February 19, 2009 By Leave a Comment

Melbourne, Feb 19 (ANI): In a major breakthrough towards rebuilding broken bones, Aussie scientists have created a synthetic biomaterial that encourages the body to create bone on its own.

The biomaterial created by researchers at Queensland University of Technology (QUT) and Stryker Australia could probe top be an answer to successful bone grafts and treating bone disease.

Dr Cameron Lutton of QUT said that the biomaterial activates the initial stages of bone healing by encouraging the body’s natural clotting process, thus promoting bone growth.

“The biomaterial interacts with blood and mimics early bone healing events,” ABC Online quoted Lutton as saying.

When a bone is broken, a fast inflammatory response comes into action where blood clots and specialised cells are quickly attracted to the fracture site, encouraging a cascade of proteins, hormones and other cells to create new bone.

However, the natural process fails to occur if the gap is too large, due to a large break or removal of a tumour.

“If the chunk of bone missing is too big it can’t heal, this is the circumstance that people need assistance,” said Lutton.

Although researchers use bone grafts or synthetic materials to assist in the healing process, but even they have their limitations.

But, the new biomaterial created by QUT researchers scores over all these methods because of its surface structure, which is coated by a special arrangement of polymers that attract the right proteins to the wounded bone, said Dr Ben Goss project researcher.

“There are polymers that attract proteins and those that repel them. By getting the right balance we can attract and repel the right proteins to create bones,” said Goss.

In laboratory conditions, the biomaterial induces the proteins and hormones needed for the initial inflammatory response.

“We know that it does the right thing to the blood to begin bone regeneration,” said Goss.

Currently animal trials of the biomaterial are undergoing, which if successful, may lead to human trials to treat patients with significant bone defects.(ANI)

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Satellites’ smash creates copious space junk

February 12, 2009 By Leave a Comment

London, Feb 12 (ANI): A major collision between two satellites on February 10 has resulted in hundreds of pieces of debris floating in space that could pose a risk to other spacecraft.

According to a report in New Scientist, the accident happened between a defunct Russian Cosmos satellite and a communication satellite owned by the US firm Iridium, some 790 kilometers above northern Siberia.

“This is the first time that two intact spacecraft have accidentally run into each other,” said Nicholas Johnson, chief scientist of NASA’s Orbital Debris Program Office in Houston, Texas.

“The two craft were moving in almost perpendicular directions when they collided, and the extent of the damage will become clearer as the debris from the two satellites spreads out,” he added.

According to Iridium documents, such satellites orbit at speeds of more than 25,000 kilometers per hour.

The NASA office, which detects and tracks debris measuring less than 10 centimeters across, has just begun its assessment of the damage, Johnson told New Scientist.

But, the US military, which tracks objects spanning 10 centimeters or more, has already detected more than 500 pieces of debris from the collision, according to Julie Ziegenhorn, a spokesperson for the military’s Strategic Air Command.

The chance the debris will collide with other spacecraft is still unclear.

“The International Space Station, which orbits at an altitude of some 350 kilometers, does not seem to be at immediate risk of colliding with the debris,” Johnson said.

But, the detritus could potentially hit a number of Earth observation, communication, and scientific satellites.

If that happened, the satellite it struck could itself break up, creating ever more space junk in a cascade effect.

Most of the debris is expected to stay in orbit for years.

“The majority is right there around 790 kilometers, and those will take a long time to fall back to Earth,” said Johnson. “The majority will take decades at least,” he added. (ANI)

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Competition between two sides of the brain makes it asymmetrical

January 15, 2009 By Leave a Comment

Washington, January 15 (ANI): A Wellcome Trust-funded study has shown that a competition between the two sides of the brain causes it to become asymmetrical, which is thought to be important to enable the two hemispheres to specialise and operate more efficiently.

The study on brain development in zebrafish is the first to cast light on the mechanisms that brings about the left-right asymmetry in the brains of most animals.

During the study, PhD student Jenny Regan and her colleagues in Professor Stephen Wilson’s team at University College London (UCL) found that a protein called Fgf8 acts as a magnet to attract nerve cells to one side of the brain.

“Fgf8 is found in both sides of the brain, leading to a ‘tug-of-war’ competition between the two sides to attract the migrating group of nerve cells. This isn’t a fair fight, however – Fgf8 on the left-hand side has an ally to help it win the battle,” says Dr. Regan.

The researchers have also revealed that another protein called Nodal, present only on the left, teams up with Fgf8 to attract the group of nerve cells, thereby triggering cascade of events that lead to asymmetric development of the brain, with neurons on the left making different connections to those on the right.

According to them, the combined action of Fgf8 and Nodal ensures that when the asymmetry develops, it is usually in the same direction, which helps explain why there is consistent handedness between individuals.

Nodal is known to also play a role in other areas of the body where asymmetry occurs, such as the heart and positioning of internal organs.

Inhibiting it makes the competition fairer, and the group of nerve cells has an equal probability of migrating to the right or left side.

However, a bias in the direction of migration can be restored by adding extra Fgf8 to one side of the brain.

“Brain asymmetry is essential for proper brain function. It allows the two sides of the brain to become specialised, increasing its processing capacity and avoiding situations of conflict where both sides of the brain try to take charge,” says Professor Wilson.

“For example, faced with a predator, an animal would not want both sides of the brain to try to drive the escape as this might lead to conflict over which direction to turn. Instead, the animal might keep watch more with one eye (and consequently one half of the brain) and so each side of the brain might be dominant for particular activities,” the researcher adds.

Studies conducted in the past have already demonstrated that rearing chickens in the dark makes their brains less asymmetric. The chicks can still peck for food and watch out for predators if they do one of the tasks at a time, but they are less efficient in doing both tasks together as compared to fully asymmetric animals in which one eye specialises for one task and the other eye for the other task.

In humans, people with schizophrenia have disrupted brain asymmetries, it is not clear to date whether there is a causal link between the asymmetry and schizophrenia.

“The direction and handedness that brain asymmetry takes is not critical for survival, but the strong bias towards one direction may be to ensure that all members of a population have consistent behaviours. This may be very important for social animals, such as humans and schooling fish,” says Professor Wilson.

A research article on this study has been published in the journal Neuron. (ANI)

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Scientists uncover gene therapy to eliminate brain tumours

January 14, 2009 By Leave a Comment

Washington, Jan 13 (ANI): In laboratory and animal studies, scientists have found a 2-pronged gene therapeutic approach could facilitate tumour regression and long-term survival via selective recruitment of immune cells.

Researchers at Cedars-Sinai Medical Center have identified a sequence of molecular events that could help them recruit key immune cells called dendritic cells into areas of the brain where they are not naturally found and recognize tumor cells as targets for attack.

The researchers found that a protein – HMGB1 – released from dying tumor cells activates dendritic cells and stimulates a strong and effective anti-tumor immune response.

HMGB1 does so by binding to an inflammatory receptor called toll-like receptor 2, or TLR2, found on the surface of dendritic cells.

“Toll receptors play a major role in the immune system’s recognition of bacterial and viral components, but now we have shown that they also trigger an immune response against tumors,” said Maria G. Castro, Ph.D., co-director of Cedars-Sinai’s Board of Governors Gene Therapeutics Research Institute and one of the article’s senior authors.

He added: “Activation of Toll receptors was essential for two key stages in initiating immune responses against the tumor – the migration of peripheral dendritic cells into the brain tumor and the subsequent activation of dendritic cells and stimulation of a specific anti-tumor cytotoxic T-cell mediated response.”

For the study, the researchers used a combined gene therapeutic approach, using one protein (Flt3L) to draw dendritic cells from bone marrow into the brain tumors, and a second protein (Herpes Symplex type I Thymidine Kinase, or TK), combined with the antiviral gancyclovir to kill tumor cells and elicit long-term survival.

They found a novel mechanism by which tumor cell death in response to the treatment leads to the release of an endogenous tumor protein, HMGB1, which is essential to trigger the anti-tumor immunological cascade.

For the first time, the study showed that HMGB1 released from dying brain cancer cells activates TLR2 signaling on tumor infiltrating dendritic cells, leading to the activation and expansion of tumor-antigen specific T cells.

This caused the regression of the brain tumors and increased survival time by six months in experimental brain tumor models.

“The discovery of a central role for HMGB1 and TLR2 in overcoming immune ignorance to brain tumor antigens provides a new therapeutic approach in the fight against brain tumors. Our conclusions relating to anti-glioma immune responses have also been extended to enhancing immune responses against a number of other metastatic brain cancers, such as melanoma,’ said Pedro Lowenstein, M.D., Ph.D., director of the Board of Governors Gene Therapeutics Research Institute and co-senior author.

The researchers are now planning to test this novel therapeutic approach in a human clinical trial for recurrent brain tumours in 2009.

The study will be published in the latest issue of PLoS Medicine, an open-access online journal of the Public Library of Science. (ANI)

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