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Computer Simulation Captures Immune Response To Flu
Researchers have successfully tested for the first time a computer simulation of major portions of the body"s immune reaction to influenza type A, with implications for treatment design and preparation ahead of future pandemics, according to work accepted for publication, and posted online, by the Journal of Virology. The new "global" flu model is built out of preexisting, smaller-scale models that capture in mathematical equations millions of simulated interactions between virtual immune cells and viruses.

Sexual Violence Against Girls In Africa Linked To STD Incidence, Pregnancy Complications, Miscarriage And Depression
A UNICEF-funded study from Swaziland has shown that sexual violence against female children is linked to lifetime STD contraction, pregnancy complications or miscarriage, unwanted pregnancy, and depression. The findings are reported in an Article published Online First and in an upcoming edition of The Lancet, written by Dr Avid Reza and Dr Matthew Breidling Centers for Disease Control and Prevention (CDC), Atlanta, GA, USA, and Dr Jama Gulaid, UNICEF, Mbabane, Swaziland, and colleagues.
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'Outstanding' Primary-Care Researcher Receives Prestigious Award
The "outstanding" work of Julia Hippisley-Cox, Professor of Clinical Epidemiology and General Practice at The University of Nottingham, has been recognised by the Royal College of General Practitioners.
Cardiovascular

Why Retroviruses Such As HIV Love Their Neighbors

Retroviruses such as HIV that are already within cells are much more easily transmitted when they are next to uninfected cells than if they are floating free in the bloodstream. "Cell-to-cell transmission is a thousand times more efficient, which is why diseases such as AIDS are so successful and so deadly," said Walther Mothes, associate professor of microbial pathogenesis at the Yale School of Medicine. "And because the retroviruses are already in cells, they are out of reach of the immune system." Now, Yale University researchers led by Mothes and Jing Jin, a postdoctoral associate in Mothes" lab, have made movies of viral activity within cells that help explain why cell-to-cell transmission is so efficient and provide potential targets for a new generation of AIDS drugs. Using imaging technology that can track individual particles of virus in real time, the Yale team discovered that infected cells can specifically produce viruses at the point of contact between cells, they report in the July 27 edition of the open access journal PLoS Biology. Ten times more of these particles are found at these cellular poles than elsewhere at the surface of cells, the researchers report. The ability of infected cells to specifically produce viruses only at cell-cell interfaces explains how viruses spread so efficiently, they note. The researchers also identified a possible weakness in the transmission chain. The team found that viruses express a sticky protein that docks with uninfected cells and then attracts viral assembly to these sites. If this adhesion molecule lacked a "cytoplasmic tail," then the viral particles did not assemble at the jumping off point between cells. Mothes expects many more such targets will be identified as scientists work out the mechanics of cell-to-cell transmission. "We are just opening the door to this whole process," Mothes said. "It is a black box, and many, many cellular factors have to be involved in making this happen. Our hope is that somewhere down the road we will have a completely new anti-viral strategy based on targeting cell-to-cell transmission." Nathan M. Sherer was another Yale-affiliated author of the paper. The work was funded by the National Cancer Institute and amfAR, The Foundation for AIDS Research. Citation: PLoS Biology, July 27, 2009 Yale University


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