New finding may help in dengue fever fight

May 7, 2010 By Leave a Comment

Washington, May 7 (ANI): A new study by scientists from Imperial College London has found that some of the human immune system”s defences against the virus that causes dengue fever actually help the virus to infect more cells.

According to the researchers, their new findings could help with the design of a vaccine against the dengue virus.

The study also brings scientists closer to understanding why people who contract dengue fever more than once usually experience more severe and dangerous symptoms the second time around.

Dengue fever is transmitted by a mosquito bite and is prevalent in sub-tropical and tropical regions including South East Asia and South America. Symptoms include high fever, severe aching in the joints and vomiting. The dengue virus can also cause hemorrhagic fever, which can be fatal.

Professor Gavin Screaton, the lead author of the study from Imperial College London, and his colleagues identified a set of antibodies, produced by the human immune system to fight off the dengue virus, that they believe scientists should avoid including in any new vaccine to prevent dengue fever.

The new research shows that these precursor membrane protein (prM) antibodies do not do a very effective job of neutralising the virus. Moreover, these antibodies actually help the virus to infect more cells.

The study suggests that when a person who has already been infected with one strain of dengue virus encounters a different strain of dengue virus, the prM antibodies awakened during the first infection spring into action again. However, rather than protecting the body from the second infection, these prM antibodies help the virus to establish itself.

This activity of the prM antibodies could explain why a second infection with a different strain of the virus can cause more harm than the first infection. The researchers believe that if a dengue virus vaccine contained prM antibodies, this could cause similar problems.

The researchers reached their conclusions after analysing individual antibodies to the dengue virus extracted from blood samples donated by infected volunteers.

The new research has been published in the journal Science. (ANI)

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Rare pangolin rescued in Patna

September 5, 2009 By Leave a Comment

Patna, Sep 5 (ANI): Wildlife officials of Bihar rescued a rare pangolin from Patna on Friday.

A team of forest officials was rushed to the spot on hearing that a pangolin was spotted by villagers near the Bakhtiyarpur police station.

The pangolin was caged and brought to the Sanjay Gandhi Wildlife Centre where it was examined at the zoo hospital.

Abhay Kumar, director of Patna Zoo said that the animal was in a healthy condition.

“The forest officials in Patna had transported pangolin to Sanjay Gandhi Wildlife Centre. Pangolin is fully healthy and is in the hospital,” said Kumar.

A pangolin is a mammal of the order Pholidota. Pangolins have large keratin scales covering their skin and are the only mammals with this adaptation.

They are found in tropical regions of Africa and Asia. Pangolins are nocturnal animals, and use their well-developed sense of smell to find insects. (ANI)

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Chennai forest officials rescue rare pangolin

July 5, 2009 By Leave a Comment

Krishnagiri (Tamil Nadu), July 5 (ANI): Forest officials in Chennai have rescued an Indian pangolin after the rare anteater strayed outside the forest area.

Residents of Natrampalayam village in Krishnagiri district of the state informed the forest officials after they saw a pangolin moving around near the forest area.

The officials released the pangolin later deep into the forest.

“The life is threatening because of poaching activities all over the area where they are distributed. In India, they are distributed to north eastern part of the country where it is very rare,” said Ganesan, a forest officer in Krishnagiri district.

Pangolins, placed under schedule 1, are found in tropical regions of Africa and Asia.

Pangolins are poached for meat and the scales having medicinal values, are used for improving blood circulation. (ANI)

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Mosquito parasite could combat dengue fever

May 3, 2009 By Leave a Comment

Washington, May 1 (ANI): Dengue fever is a viral disease blighting many of the world’s tropical regions. Now, a group of researchers has made a major finding which may help fight the terrible disease.

Carried by mosquitoes, such as Aedes aegypti, 40 percent of the world’s population is believed to be at risk from the infection. What is more, previous exposure to other strains of the fever does not confer protection. In fact, subsequent infections are significantly worse, and can result in fatal dengue haemorrhagic fever.

The lack of a functioning vaccine forced Scott O’Neill and Elizabeth McGraw to look for a more creative form of defence. Knowing that a parasite, Wolbachia pipientis, shortens the lifespan of host insects and could restrict dengue fever transmission by killing the insects before they can pass the infection on, O’Neill and his team successfully infected Ae. aegypti with a strain of the Wolbachia bacterium and shortened the mosquitoes’ lifespan.

But before insects carrying the bacterium can be released into the environment, the O’Neill and McGraw teams have to convince international governments that mosquitoes carrying the Wolbachia parasite could successfully limit transmission of the virus.
cGraw and O’Neill had to find out how the bacterium affects the mosquito’s physiology and behaviour and published their results in the Journal of Experimental Biology.

Knowing that Wolbachia slows down some insects’ activity and speeds up others, the team decided to test how the parasite affects Ae. aegypti as they age and the infection takes hold. Working with uninfected and infected mosquitoes produced by Conor McMeniman, Oliver Evans and Eric Caragata used a system designed by Craig Williams to film the activities of male and female mosquitoes as they aged to find how the bacteria affected the insects’ activity levels.

According to McGraw, the experiments generated a huge amount of video data, so Evans teamed up with Megan Woolfit and David Green to pipe the data to a cluster of workstations to track the insects’ movements and analyse their activity levels.

After a year of experimental design, data collection and analysis, it was clear that the infected mosquitoes were more active than the uninfected insects. Most surprisingly, as the mosquitoes aged and the infection took hold, it did not increase their activity levels further.

Having found that the insects became more active in response to their bacterial lodgers, Craig Franklin joined the team to help measure the insects’ CO2 production to find how their metabolic rates respond to the parasite. Again, the insects’ metabolic rates were higher than those of the uninfected mosquitoes.

As to why the infected insects are more active than the uninfected insects, McGraw says there are three possible explanations; the insects are living fast and dying young; the insects are hungrier and consume more energy in their constant search for food; or the bacteria somehow affect the insects’ tissues to change their behaviour and increase their metabolic rate. McGraw suspects that the last explanation is the most likely. (ANI)

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