LA JOLLA, CA, June 22, 2006-- Scientists at The Scripps Research Institute have analyzed the structure of hepatitis B virus and found that it has unique features that distinguish it from other enveloped viruses such as influenza and herpes virus.

Using electron cryomicroscopy and computer image analysis, the scientists visualized two intermediate forms of the virus that exist within infected cells. In addition, they were able to determine a three-dimensional map by analysis of infectious hepatitis B virus isolated from patient blood samples. These results could help future researchers understand more clearly how hepatitis B virus replicates in the cell and point the way toward new therapeutic approaches that could disrupt the hepatitis B virus infection pathway.

A 3-D model of the hepatitis B virus. The double-stranded DNA genome (red) is enclosed by a protein capsid shell (blue) contained within a membrane (gold) studded with glycoprotein spikes that bind to liver cells.
The study, a collaborative effort between the laboratories of Scripps Research scientists Professor Mark Yeager, M.D., Ph.D., and Professor Francis V. Chisari, M.D., was published in the June 23, 2006 (Volume 22, Issue 6) edition of the journal Molecular Cell.

More than 350 million people worldwide are infected with hepatitis B virus, which kills more than a million each year due to acute and chronic hepatitis, and hepatocellular carcinoma. The virus, which attacks the liver, is spread through infected blood transfusions, needle sharing by intravenous drug abusers, and sexual contact.

Virions are inert virus particles that carry the virus genome from cell to cell. In the hepatitis B virus, this genetic material is protected by a shell of protein molecules called a capsid. Hepatitis B virions, also known as Dane particles, are approximately 40 nanometers in size, and the capsid is surrounded by a membrane envelope. While the structure of the hepatitis B capsid has been studied intensively in vitro, until this study little was known about the structure and assembly of native capsids present in infected cells in vivo, and even less was known about the structure of mature virions.

"We used cryomicroscopy and image analysis to examine the native structure of HBV [hepatitis B virus ] capsids from transgenic mice and virions isolated from patient blood samples," Yeager said. "By rapidly freezing the samples we were able to use cryo-electron microscopy to image the particles while they were maintained at the temperature of liquid nitrogen--around--300" F--which preserves them in a state close to what exists in vivo. Image processing allowed us to derive 3-D maps that revealed for the first time how the outer lipid envelope interacts with the capsid shell. "

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