HIV uses several routes to escape immune system pressure

September 19, 2009 By Leave a Comment

Washington, September 19 (ANI): Researchers at the Emory Vaccine Center have shown that HIV relies upon a number of strategies rather than use any preferred escape route to escape immune system pressure.

The human immune system has the ability to temporarily overpower HIV in early infection.

Studies conducted in the recent past have shown that most newly infected patients develop neutralizing antibodies. These are blood proteins that glob onto the virus and would allow patients to defend themselves – if they were facing only one target.

However, the problem occurs when HIV mutates, and disguises itself enough to get away from the antibodies. The virus eventually wears down the immune system into exhaustion.

The Emory team’s findings attain significance as they suggest that even if any scientist succeeds in identifying a vaccine component that can stimulate neutralizing antibodies, HIV’s capacity for rapid mutation could still be a confounding factor.

Dr. Cynthia Derdeyn, associate professor of pathology at Emory University School of Medicine, Emory Vaccine Center and Yerkes National Primate Research Center, says that a single type of neutralizing antibody may not be enough to contain HIV.

“These neutralizing antibodies work really well – they hit the virus fast and hard. But so far, every time we look, the virus escapes,” she says.

During the study, the researchers took blood samples from the participants a few weeks after infection occurred, and then later as two participants’ immune responses continued.

They isolated individual viruses over the first two years of HIV infection, and tested how well the patients’ own antibodies could neutralize them.

“In one patient where we had very early samples, there was evidence that neutralizing antibody came up within weeks, and that’s earlier than what was previously thought,” Derdeyn says.

In both patients, some viruses mutated part of their outer proteins so that after the mutation, an enzyme would be likely to attach a sugar molecule to it.

Though the sugar molecule interferes with antibody attack, this tactic, known as the “glycan shield”, was not observed in all cases.

Other viruses mutated the part of the outer protein that the neutralizing antibodies stick to directly. In both patients, many changes in the virus’ genetic code were necessary for escape.

“We need to understand early events in the immune response if we are going to figure out what a potential vaccine should have in it. What we can show is that even in one patient, several escape strategies are going on,” Derdeyn says.

According to her, that means that in order to be immune to HIV infection, someone may need to have several types of neutralizing antibodies ready to go.

Seeing how the virus mutates will allow researchers to choose the best parts to put in a vaccine, she says.

The results are online and scheduled for publication in the September issue of the journal Public Library of Science Pathogens.(ANI)

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Vaccine for urinary tract infections comes closer to reality

September 19, 2009 By Leave a Comment

Washington, Sept 18 (ANI): A simple vaccine may soon be available to protect against urinary tract infections, thanks to researchers from University of Michigan.

The study conducted over mice showed that the vaccine prevented infection and produced key types of immunity.

It alerts the immune system to iron receptors on the surface of Escherichia coli bacteria that perform a critical function allowing infection to spread.

Administered in the nose, it induces an immune response in the body’s mucosa, a first line of defense against invading pathogens. The response, also produced in mucosal tissue in the urinary tract, should help the body fight infection where it starts.

The researchers used novel systematic approach, combining bioinformatics, genomics and proteomics, to look for key parts of the bacterium that could be used in a vaccine to elicit an effective immune response.

The team, led by Dr. Harry L.T. Mobley, screened 5,379 possible bacterial proteins and identified three strong candidates to use in a vaccine to prime the body to fight E. coli.

Mobley’s team is currently testing more strains of E. coli obtained from women treated at U-M.

If the robust immunity achieved in mice can be reproduced in humans, it could be the first ever vaccine for urinary tract infections.

Most of the strains produce the same iron-related proteins that can be vaccine targets, an encouraging sign that the vaccine could work against many urinary tract infections.

The findings are published in the open-access journal PLoS Pathogens. (ANI)

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Why pandemic swine flu causes more severe symptoms than seasonal flu

September 12, 2009 By Leave a Comment

London, September 11 (ANI): Scientists at Imperial College London have warned that pandemic swine flu can infect cells deeper in the lungs than seasonal flu can.

They write in a research paper that this may help understand why people infected with the pandemic strain of swine-origin H1N1 influenza are more likely to suffer more severe symptoms than those infected with the seasonal strain of H1N1.

The researchers have also stressed the need for monitoring the current pandemic H1N1 influenza virus for any changes in the way it infects cells, which may make infections more serious.

Generally, influenza viruses infect cells by attaching to bead-like molecules on the outside of the cell, known as receptors. If a virus cannot find its specific receptors, it cannot get into the cell.

Seasonal influenza viruses attach to receptors found on cells in the nose, throat and upper airway, enabling them to infect a person’s respiratory tract.

In the current study, the researchers have found that pandemic H1N1 swine flu can also attach to a receptor found on cells deep inside the lungs, which can result in a more severe lung infection.

They say that the pandemic influenza virus’s ability to stick to the additional receptors may explain why the virus replicates, and spreads between cells more quickly.

“Most people infected with swine-origin flu in the current pandemic have experienced relatively mild symptoms. However, some people have had more severe lung infections, which can be worse than those caused by seasonal flu. Our new research shows how the virus does this – by attaching to receptors mostly found on cells deep in the lungs. This is something seasonal flu cannot do,” Nature Biotechnology quoted Professor Ten Feizi, from the Division of Medicine at Imperial College London, as having writte in the research paper.

The researchers found that pandemic H1N1 influenza bound more weakly to the receptors in the lungs than to those in the upper respiratory tract, which is why most people infected with the virus have experienced mild symptoms.

However, the researchers are concerned that the virus could mutate to bind more strongly to these receptors.

“If the flu virus mutates in the future, it may attach to the receptors deep inside the lungs more strongly, and this could mean that more people would experience serious symptoms. We think scientists should be on the lookout for these kinds of changes in the virus so we can try to find ways of minimising the impact of such changes,” said Prof. Feizi.

“Receptor binding determines how well a virus spreads between cells and causes an infection. Our new study adds to our understanding of how swine-origin influenza H1N1 virus is behaving in the current pandemic, and shows us changes we need to look out for,” added Prof. Feizi.

The financial assistance for the study came from the Wellcome Trust, the Medical Research Council and the Engineering and Physical Sciences Research Council. (ANI)

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‘Dung of the devil’ plant roots may offer swine flu cure

September 10, 2009 By Leave a Comment

Washington, Sept 10 (ANI): Chinese scientists have found that the roots of a plant have powerful natural substances that can kill the H1N1 virus.

Researchers Fang-Rong Chang and Yang-Chang Wu identified chemicals in the extracts of the “Dung of the Devil” plant, which were more effective against the H1N1 virus than the antiviral drug currently available for the flu.

The report will be published in the Sept. 25 issue of ACS’ Journal of Natural Products.

The plant biologically called ferula assa-foetida, is found in Iran, Afghanistan and mainland China.

The authors say: “Overall, the present study has determined that sesquiterpene coumarins from F. assa-foetida may serve as promising lead components for new drug development against influenza A (H1N1) viral infection.”

The plant was also used as a remedy during the1918 Spanish flu that took a toll of nearly 100 million lives.

However, the antiviral capacity of the plant was not fully confirmed until now. (ANI)

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Engineered human fusion protein stops HIV-1 replication in mice

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): Inspired by New World owl monkeys’ ability to make a fusion protein that potently blocks HIV-1 infection, scientists at the University of Geneva in Switzerland have engineered a human HIV-1 inhibitor.

Lead researcher Jeremy Luban points out that owl monkeys make AoT5Cyp, and that the human genome encodes the equivalent of the two components of this fusion protein, namely TRIM5 and cyclophilin A.

However, adds the researcher, humans do not make the T5Cyp fusion protein.

In their new study, Luban and colleagues have engineered a human HIV-1 inhibitor modeled after AoT5Cyp, by fusing human cyclophilin A to human TRIM5 (hT5Cyp).

The researchers said that the human fusion protein blocked HIV-1 infection of human macrophage and T cell lines, without disrupting normal cell function.

During the study, the researchers engineered some mice to lack B, T, and NK immune cells, so that the animals would not reject grafts of human material.

The team then engrafted with human CD4+ T cells engineered to contain hT5Cyp.

HIV-1 replication was potently inhibited in these animals.

Based on their findings, the researchers came to the conclusion that hT5Cyp is a robust inhibitor of HIV-1 replication, and a promising anti-HIV-1 gene therapy candidate.

The study has been published in the Journal of Clinical Investigation. (ANI)

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New gene may provide better immune defense against anthrax

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): Scientists from University of California have identified a gene in anthrax-causing bacteria that could be used as a potential therapeutic target for the deadly disease.

The ClpX gene in bacterium Bacillus anthracis not only contributes to the severity of the anthrax disease but also makes it more difficult for a patient’s immune system to fight the infection.

Inhibiting this gene can prompt body’s natural defence mechanism to better fight the disease.

Mattias Collin, of Lund University, and Marc A. Williams, of the University of Rochester, praised the study and said that this might provide a new way to treat anthrax poisoning.

“This study has indeed identified a potential treasure trove in ClpX”, Colin and Williams wrote. (ANI)

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Soon, simple jab to prevent prostate cancer

September 8, 2009 By Leave a Comment

Washington, Sept 8 (ANI): A simple jab may soon help prevent prostate cancer, say researchers.

The research team from University of Utah and University of Columbia have identified a virus, known to trigger leukaemia, in malignant human prostate cancer cells.

The research team hopes that the virus, XMRV (Xenotropic murine leukemia virus-related virus), would open opportunities for developing diagnostic tests, vaccines, and therapies for treating the cancer.

“We found that XMRV was present in 27 percent of prostate cancers we examined and that it was associated with more aggressive tumours,” said Dr Ila R. Singh, associate professor of pathology at University of Utah and the study’s senior author.

“We still don’t know that this virus causes cancer in people, but that is an important question we’re going to investigate,” Singh added.

The study also makes it evident that XMRV is present in malignant cells, and that XMRV is a gammaretrovirus, a simple retrovirus first isolated from prostate cancers in 2006 by researchers at the University of California, San Francisco (UCSF), and the Cleveland Clinic, known to cause cancer in animals.

During the study, the researchers examined more than 200 human prostate cancers, and compared them to more than 100 non-cancerous prostate tissues.

They found 27 percent of the cancers contained XMRV, compared to only 6 percent of the benign tissues.

The viral proteins were found almost exclusively in malignant prostatic cells, suggesting that XMRV infection may be directly linked to the formation of tumors.

The study is published in the Proceedings of the National Academy of Sciences. (ANI)

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Researchers make bacteria to produce useful proteins

September 7, 2009 By Leave a Comment

Washington, Sep 7 (ANI): Researchers at the University of British Columbia have turned the bacterium Caulobacter crescentus into a protein production factory by adapting a single protein on its surface, thus making useful proteins that can act as vaccines and drugs.

C. crescentus is a harmless bacterium that has a single protein layer on its surface.

Led by Dr. John Smit, the researchers adapted the system that secretes this protein, which self-assembles into a structure called the “S-layer”, to secrete instead many proteins that are useful for vaccines and other therapeutic purposes.

In other words, by keeping the S-layer protein intact and genetically inserting new things inside it, they produce a very dense display of useful proteins on the cell surface.

The researchers are now hoping to use the entire bacterium in a therapeutic application.

Bacteria are commonly used in biotechnology to produce useful protein products.

If the bacteria secrete the protein rather than keep it contained within the cell, purification costs are greatly lowered.

The researchers have developed a commercially available kit based on this technology, which could be especially useful in developing countries as it might be used to manufacture HIV-blocking agents very cheaply and with little specialist expertise.

“This S-layer system is very efficient at producing and secreting proteins – we can make the bacterium into a protein pump, secreting over half of all the protein it makes as engineered S-layer protein,” said Smit.

He added: “Applications of S-layer display that we are currently developing include anti-cancer vaccines, an HIV infection blocker and agents to treat Crohn’s and colitis, and diarrhoea in malnourished populations”.

Smit presented the findings at the Society for General Microbiology’s meeting at Heriot-Watt University, Edinburgh. (ANI)

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Flower confident of Pietersen recovering before South African tour

September 3, 2009 By Leave a Comment

London, Sep 3 (ANI): England cricket team director Andy Flower has expressed confidence that injured batsman Kevin Pietersen will make a full recovery and would return for the tour of South Africa.

Pietersen was forced out of the Ashes series following an Achilles injury, and has suffered a further setback after developing an infection in the scar tissue making him unavailable for the ODI series against Australia.

“He is still struggling a little with that wound in his Achilles. I spoke to him yesterday but I think we are confident in saying he will be back for South Africa,” The Independent quoted Flower, as saying.

Flower further said that he has advised Peitersen to use the time as a break from the busy schedule of an international cricket player.

“Sometimes you never know what is good or bad luck. It is enforced time away and he didn’t want it and we didn’t want it, but since it’s there and there is nothing anyone can do about it, I think he has got to make the most of it,” Flower said.

“I think that is what he is doing. He is spending time with his family and his wife and getting a break from the international game,” he added.

Flower also said that he was unsure about all-rounder Andrew Flintoff’s career, who had underwent a knee surgery after the Ashes series.

“If he can come back and play one-day international and Twenty20 cricket for us and bat at six or seven and bowl like he can bowl, that will make us a force to be reckoned with in one-day cricket,” Flower said.

“Whether he will or not I don’t know, I just hope he does,” he added. (ANI)

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Photosynthetic viruses keep world’s oxygen levels up

September 1, 2009 By Leave a Comment

London, August 31 (ANI): A new research has shown that photosynthetic viruses can keep the world’s oxygen levels up.

The viruses, which infect single-celled algae called cyanobacteria, are hyper efficient photosynthesisers thanks to a unique set of genes.

Previous work had shown that cyanophage viruses have some photosynthesis genes, apparently used to keep the host cyanobacteria on life support during the infection, which otherwise knocks out the cells’ basic functions.

Now, according to a report in New Scientist, Oded Beja from the Technion-Israel Institute of Technology in Haifa said that the cyanophages’ photosynthetic proficiency doesn’t stop there.

While screening DNA sequences in water samples collected during Craig Venter’s Global Ocean Sampling Expedition, his team discovered seven more photosynthesis genes coding for a complex of proteins collectively named photosystem I.

They believe the viral complex has a unique shape that makes cyanophage photosynthesis hyperefficient.

In normal photosynthesis, photosystem I grabs electrons from proteins higher up in the photosynthesis chain reaction.

According to the team, the viral photosystem I genes allow the cyanophages to not only take electrons from the proteins involved in photosythesis but also from other algal proteins.

“We suspect that when these phages enter the cell, they start to replace (the cell’s) photosystem,” said Beja.

“By grabbing electrons from all sources available at the time, they get more energy out of photosynthesis,” he added.

Eric Wommack of the University of Delaware in Newark said that the discovery suggests these viruses may play a role in global oxygen production.

“Their hosts produce half the world’s oxygen and roughly 10 per cent of these cells are infected by cyanophages,” he said.

“So it is possible that as much as 5 per cent of the world’s oxygen production results from cyanophage infected cells,” he added. (ANI)

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Scientists uncover vulnerable enzyme that can be targeted to kill dangerous pathogens

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): A collaborative study conducted by researchers from three institutions in the U.S. has shown that an enzyme, which is essential to many bacteria, can be targeted to kill dangerous pathogens.

Experts at Burnham Institute for Medical Research (Burnham), University of Texas Southwestern Medical Center and University of Maryland have also identified chemical compounds that can inhibit this enzyme, and suppress the growth of pathogenic bacteria.

Writing about their study in the journal Chemistry and Biology, the researchers say that their findings are essential to develop new broad-spectrum antibacterial agents to overcome multi-drug resistance.

Dr. Andrei Osterman, an associate professor in Burnham’s ioinformatics and Systems Biology program, targeted the acterial nicotinate mononucleotide adenylyltransferase (NadD), an essential enzyme for nicotinamide adenine dinculeotide (NAD) biosynthesis, which has many crucial functions in nearly all important pathogens.

The bacterial NadD differs significantly from the human enzyme.

“It’s clear that because of bacterial resistance, we need new, wide-spectrum antibiotics. This enzyme is indispensable in many pathogens, so finding ways to inhibit it could give us new options against infection,” said Dr. Osterman.

The research team used a structure-based approach to search for low-molecular-weight compounds that would selectively inhibit bacterial NadD, but not the human equivalent, by screening, in silico, more than a million compounds.

In their experiments, they tested the best predicted compounds against Escherichia coli and Bacillus anthracis (anthrax), which led them to a handful of versatile inhibitory chemotypes, which they explored in detail.

Using protein crystallography, a 3D structure of the enzyme in complex with one of the inhibitors was solved providing guidelines for further drug improvement.

“This is proof-of-concept that NadD is a good target to create antibacterial agents. This knowledge will be useful for both biodefense and public health. The next step is to find better inhibitors. We do not have a silver bullet yet, but we are certainly hitting a golden target,” said Dr Osterman.

The research was supported by a grant from the National Institute of Allergy and Infectious Diseases. (ANI)

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Country’s swine flu death toll rises to 88

August 27, 2009 By Leave a Comment

New Delhi, Aug 27 (ANI): Country’s swine flu toll climbed to 88 on Thursday.

According to sources a teenaged girl and two women succumbed to the virus in Karnataka and Maharashtra respectively.

Meanwhile, 177 fresh cases of infection were reported from various states across the country.

The swine flu has spread even outside Bangalore as 16-year-old Sunanda Kandawal who was admitted to BLD Medical College Hospital in Bijapur in Northern part of Karnataka on August 24 succumbed to the virus.

Maharashtra Health authorities confirmed the death Purva Amol Joshi (23), and Deepali Shinde (20) in Nashik.

Nashik Civil Hospital surgeon A D Bhalsingh said the victim died on Wednesday night.

With this, 46 people died in Maharashtra, 20 in Karnataka, 7 in Gujarat, three each in Tamil Nadu, Chattisgarh and Delhi, two in Uttarakhand and one each in Kerala, Goa, Rajasthan and Haryana due to the H1N1 virus. (ANI)

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Regular marijuana use leaves men with sexual difficulties

August 25, 2009 By Leave a Comment

London, Aug 25 (ANI): A new study from La Trobe University in Melbourne has found that men who regularly smoke pot are four times more likely to have trouble reaching orgasm.

During the study, lead researcher Marian Pitts analysed the data collected as part of a 2005 telephone survey of 16- to 64-year-olds.

It showed that overall, 8.7 per cent of respondents said they had gotten high in the last year, with twice as many men (11.2 per cent) admitting to marijuana use as women (6.1 per cent).

Although male smokers experienced sexual problems, they still had more partners than non-smokers, reports New Scientist.

The findings showed that marijuana users were twice as likely to have had two or more sex partners in the previous year than men who didn’t smoke pot.

Pitts’ team found an even stronger trend for increased sexual activity among female smokers, who were also seven times more likely to have been diagnosed with a sexually transmitted infection in the last year than non-smokers.

However, they had no more problems in the bedroom than abstainers.

The new study supports the results of the research led by Marie Eloi-Stiven at Weill Medical College of Cornell University in New York, which found that marijuana users were far more likely than others to take Viagra. (ANI)

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New discovery may lead to therapies for RSV, influenza A

August 25, 2009 By Leave a Comment

London, Aug 24 (ANI): A research team led by Indian-origin scientist claims to have identified a cellular molecule that not only helps recognize viruses that cause respiratory problems but also direct cells to produce defensive immune response.

Dr Santanu Bose and colleagues have identified a cellular molecule, called NOD2, that detects respiratory viruses and can instruct cells to defend against them.

The team from The University of Texas Health Science Centre at San Antonio hope that the new discovery could lead to therapies for human respiratory syncytial virus (RSV) and influenza A (commonly known as flu).

“This molecule could be used to boost host immune defenses and stimulate vaccine efficacy against RSV and influenza A, especially among high-risk individuals,” Nature quoted senior author Dr Santanu Bose, assistant professor of microbiology and immunology as saying.

The study showed that mice lacking the sensor survive for only 10 days after infection, compared with up to eight weeks for normal animals.

Researchers said that identifying this sensor and understanding its key role could result in therapies that activate the NOD2 gene during or prior to infection, leading to enhanced protective immunity.

The NOD2 sensor also has the potential to recognize other viruses, such as West Nile virus, yellow fever, Ebola and rabies.

The findings appear in the journal Nature Immunology. (ANI)

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Waste by-product of malaria parasite’s reproductive process linked to devastating fever

August 21, 2009 By Leave a Comment

Washington, August 21 (ANI): Studying hemozoin – a crystal-like by-product released during reproduction among parasites from the Plasmodium family – may help understand why malaria leads to devastating inflammation and fever, according to a Canadian study.

Lead researcher Dr. Martin Olivier, of McGill University in Montreal, points out that, inside the human body, the malaria parasite infects red blood cells where it survives and reproduces by feeding on the cells’ contents.

Eventually, says the researcher, the cells burst and release the parasites and hemozoin.

“Our results describe the mechanism by which the hemozoin activates the immune system, resulting in the production of inflammation mediators and in the high fever that we witness in malaria patients,” said study’s first-author Dr. Marina Tiemi Shio, of the Research Institute of the McGill University Health Centre (RI-MUHC).

According to the researchers, hemozoin is first ingested by “cleaning” cells called macrophages, which leads to a chain reaction ending in the activation of the inflammasome: an important structure inside immune cells which lead to inflammation.

They say that the activation of the inflammasome leads to the production of the body’s fever mediator, interleukin beta (IL-beta).

“Our work is a milestone in that it is the first study that reveals the enzymes that act as intermediary between the hemozoin and inflammasome. Now our picture of the process that goes from infection to fever is more or less complete,” said Dr. Olivier.

“On the other hand, we also proved that malaria is too complex to be narrowed down to one single mechanism. In the absence of either IL-beta or a functional inflammsaome, the development of the disease is delayed but not completely stopped. Although the discovery of this relationship is important, there are other mechanisms at work,” he added.

Even though scientists have been familiar with the mechanisms that go from the activation of the inflammasome to the onset of the malaria symptoms, none of the previous studies has ever shown the beginning of the process.

“These results prove the primary role hemozoin plays in the development of malaria, and designates it as a favoured choice for future innovative treatments,” said Dr. Olivier.

The researchers believe it will be possible to familiarize the immune system to small quantities of hemozoin, and diminish the inflammatory response in the event of infection, according to a principle similar to that of vaccines.

The results of the study have been published in the journal PLoS Pathogens. (ANI)

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Swine flu as Ganesh Chaturthi’s theme in Pune

August 21, 2009 By Leave a Comment

Pune, Aug 21 (ANI): Organisers of the hugely popular Ganesh Chaturthi festival in Pune take up swine flu as festival theme to spread awareness among the people.

The highlights of the festival are fibre mannequins wearing swine flu masks erected by talented artists in the Pune

These special mannequins will have audio-visual support to convey the message regarding swine flu precautions. Some of them are portrayed as school going kids, teachers, doctors all are shown wearing masks.

“During this 10-day Ganesh festival, we have started an awareness programme about swine flu. The aim is to aware people about the flu. Also, there will be allopathic, homeopathic and ayurvedic doctors in the festival, who will provide medication to those who need,” said Srikant Shete, President of Kasba Sarwajanik Ganesh Mandal, Pune.

Another motive is to remind people to take precautions and avoid swine flu infection during the celebration.

India recorded its first H1N1 case in Hyderabad in May and since then the virus has spread across the country with dozens of cases from western Pune city. The latest death toll in India is 33. (ANI)

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Bird flu virus strain leaves survivors at increased Parkinson’s disease risk

August 20, 2009 By Leave a Comment

Washington, August 20 (ANI): An animal study conducted by experts at St. Jude Children’s Research Hospital has suggested that at least one strain of the H5N1 avian influenza virus leaves survivors at significantly increased risk for Parkinson’s disease, and possibly other neurological problems later in life.

In their study report, the researchers write that mice that survived infection with an H5N1 flu strain were found to be more likely than uninfected mice to develop brain changes associated with neurological disorders like Parkinson’s and Alzheimer’s diseases.

Parkinson’s and Alzheimer’s involve loss of brain cells crucial to a variety of tasks, including movement, memory and intellectual functioning.

The researchers say that their study has shown that the H5N1 flu strain causes a 17 percent loss of the same neurons lost in Parkinson’s as well as accumulation in certain brain cells of a protein implicated in both diseases.

“This avian flu strain does not directly cause Parkinson’s disease, but it does make you more susceptible,” said Dr. Richard Smeyne, associate member in St. Jude Developmental Neurobiology.

“Around age 40, people start to get a decline in brain cells. Most people die before they lose enough neurons to get Parkinson’s. But we believe this H5N1 infection changes the curve. It makes the brain more sensitive to another hit, possibly involving other environmental toxins,” Smeyne added.

Smeyne revealed that the study focused on a single strain of the H5N1 flu virus, the A/Vietnam/1203/04 strain, and that the threat posed by other viruses, including the current H1N1 pandemic flu virus, was still being studied.

During the study, the researchers infected some mice with an H5N1 flu strain isolated in 2004 from a patient in Vietnam, which is still considered to be the most virulent of the avian flu viruses.

About two-thirds of the mice developed flu symptoms, primarily weight loss. After three weeks, there was no evidence of H5N1 in the nervous systems of the mice that survived.

However, the inflammation triggered by the infection within the brain continued for months, and it was found to be quite similar to inflammation associated with inherited forms of Parkinson’s.

Although the tremor and movement problems disappeared as flu symptoms eased, the researchers reported that 60 days later, mice had lost roughly 17 percent of dopamine-producing cells in SNpc, a structure found in the midbrain.

They also found evidence that the avian flu infection led to over-production of a protein found in the brain cells of individuals with both Alzheimer’s and Parkinson’s diseases.

“The virus activates this protein,” Smeyne said.

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

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Friendly gut bacteria can help fight infection

August 20, 2009 By Leave a Comment

Washington, Aug 20 (ANI): Scientists from UT Southwestern Medical Centre have discovered friendly human gut bacteria that helps initiate body’s defence mechanisms to fight parasitic infection toxoplasmosis.

The bacteria triggers defence against Toxoplasma gondii, the parasite responsible for toxoplasmosis.

Toxoplasmosis is generally a mild infection, but it can have serious and potentially fatal effects in pregnant women, their fetuses and others with weakened immune systems.

Studies conducted over mice have shown that T gondii directly activates a specific immune protein in the host, called toll-like receptor 11 (TLR-11), which helps control the animals’ immune response to the parasite. Humans, however, don’t have an active form of this receptor.

In the new study, researchers suggest that instead of activating toll-like receptors directly, T gondii’s first interaction in the human gut is with the helpful bacteria that live inside the body.

Those bacteria then release signaling molecules, alerting the human host to the invader.

“While this is very early data, our results suggest that looking at the bacteria present in each patient’s gut could help physicians understand their susceptibility to infectious diseases,” said Dr. Felix Yarovinsky, assistant professor of immunology at UT Southwestern and senior author of the paper.

“It also suggests the possibility of developing novel probiotic strategies for treating parasitic infections such as toxoplasmosis and cryptosporidiosis, a related disease caused by the parasite Cryptosporidium,” Yarovinsky added.

The primary host of protozoan parasite is the house cat, which are generally infected with T gondii by ingesting contaminated meat, water or the feces of a cat that has recently been infected; however, the parasite also can be passed from mother to fetus. Once a person is infected, the parasite penetrates the intestine and spreads throughout all organs.

The researchers studied mice in which TLR-11 had been genetically eliminated. This mimics the human immune response to T gondii. They then infected the TRL-11-deficient mice with T gondii.

They found that the commensal – or good – bacteria in the gut activated their immune system, thereby inducing various inflammatory responses against the invading pathogen.

In humans it is those helpful bacteria that send activating signals to the three toll-like receptors that are functional, inducing various inflammatory responses against invading pathogens like T gondii.

The study appears in journal of Cell Host and Microbe. (ANI)

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Scientists identify how meningitis bacteria invade the brain

August 19, 2009 By Leave a Comment

Washington, Aug 19 (ANI): Scientists in the U.S. have discovered that a specific protein on the surface of a common bacterial pathogen allows the bacteria to leave the bloodstream and enter the brain, initiating the deadly infection known as meningitis.

The new finding may lead to the development of improved vaccines to protect those most vulnerable, including young infants and the elderly.

“Streptococcus pneumoniae, commonly known as pneumococcus, is responsible for half the cases of bacterial meningitis in humans,” said the study’s senior author, Victor Nizet, MD, professor of paediatrics and pharmacy at the University of California, San Diego’s School of Medicine and Skaggs School of Pharmacy and Pharmaceutical Sciences.

Meningitis develops when bacteria penetrate the “blood-brain barrier.”

The blood-brain barrier, comprised of a single layer of highly specialized microvascular endothelial cells, prevents most large molecules from entering into the cerebrospinal fluid, preserving an optimal biochemical environment for brain function.

The research team examined the functions of a protein known as NanA in order to discover how an entire bacterium can breech the blood-brain barrier and gain access to the central nervous system.

NanA is produced by all strains of pneumococcus and displayed prominently on the bacteria’s outer surface.

Through genetic manipulations, the researchers were able to remove the entire NanA protein, or just specific sections of the molecule, from the pathogen.

They found that while normal pneumococci were able to bind, enter and penetrate through human brain microvascular endothelial cells, mutant bacteria lacking the NanA protein -or those expressing only a truncated version of the protein – largely lost these abilities.

Conversely, when the full-length pneumococcal NanA protein was cloned and expressed on the surface of a nonpathogenic laboratory strain, the transformed bacteria gained the ability to bind and enter the same endothelial cells.

Satoshi Uchiyama, MD, a postdoctoral fellow in the Nizet Laboratory and lead author on the study, said: “Our tissue culture studies showed that the NanA protein was both necessary and sufficient for bacterial penetration of the blood brain barrier endothelial cells.”

“After infecting mice intravenously, we also found that far fewer NanA-deficient bacteria left the bloodstream and entered the brain, in comparison to mice infected with the normal pneumococcus,” Uchiyama added.

NanA is best known as an enzyme that cleaves and releases the sugar molecule known as sialic acid, which is present in abundance on the surface of all human cells.

While this enzymatic activity played a small part in promoting NanA-mediated blood-brain barrier interactions, a much stronger role was identified for the outer tip of the protein.

This tip seems to directly attach to the brain microvascular endothelial cells and then stimulate them to take in the pneumococcus.

According to Nizet, because NanA is expressed on the surface of all pneumococcal strains, it is an attractive candidate to include in a universal protein-based vaccine against pneumococcal infection.

The study is available online in the Journal of Experimental Medicine. (ANI)

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7-month-old dies of swine flu in Mumbai, death toll rises to 29 in India

August 18, 2009 By Leave a Comment

Mumbai, Aug 18 (ANI): The death of a seven-month-old girl due to H1N1 virus in Mumbai on Tuesday, pushed the country’s swine flu death toll to 29.

The girl’s death due to swine flu has risen the total number of deaths in Mumbai to three.

“The girl Modia Mohammad Shaikh, a resident of suburban Ghatkopar, died at the hospital early today,” said Additional Municipal Commissioner Manisha Mhaiskar.

The girl had been shifted to Kasturba Gandhi hospital from a private hospital and her blood sample was sent to Haffkine Institute for tests.

The nationwide count of fresh H1N1 cases now stands at 152 with the 97 positive cases being reported from Maharashtra.

Owing to the rising count and death toll, the Centre too has revised its treatment guidelines, doing away with H1N1 tests for people with mild to moderate symptoms and quarantining before starting the treatment.

The patients will be categorised depending on the severity of infection and given appropriate treatment. (ANI)

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