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A viral cloaking device
July 21, 2008Viruses achieve their definition of success when they can thrive without killing their host. Now, biologists Pamela Bjorkman and Zhiru Yang of the California Institute of Technology have uncovered how one such virus, prevalent in humans, evolved over time to hide from the immune system.
The human immune system and the viruses hosted by our bodies are in a continual dance for survival--viruses ever seek new ways to evade detection, and our immune system devises new methods to hunt them down. Human Cytomegalovirus (HCMV), says Bjorkman, Caltech's Delbrück Professor of Biology and a Howard Hughes Medical Institute (HHMI) Investigator, "is the definition of a successful virus--it thrives but it doesn't affect the host."
HCMV is carried by eight in 10 people. Although it generally harms only those who are immunocompromised, it has also been linked with brain tumors like the one for which Ted Kennedy recently had surgery. Understanding how HCMV survives may help in the development of a vaccine, as well as in the fight against other viruses with similar evasive tactics.
"We are interested in mechanisms taken by viruses to escape our immune system," says Caltech biology postdoc and HHMI associate Zhiru Yang. She and Bjorkman published their findings on HCMV survival mechanisms in the July 15 edition of Proceedings of the National Academy of Sciences. They describe the underpinnings of a viral cloaking device, partly made of stolen goods from healthy cells, that helps HCMV to move undetected through the body.
For 20 years, Bjorkman's lab has been dedicated to understanding class 1 major histocompatibility complex (MHC) proteins and the immune response, most recently related to AIDS research. MHC proteins carry peptides, small pieces that are chopped up from the cell's internal proteins, to the cell's surface. If a cell has been infected, MHC presents viral peptides to signal T cells to kill it. So some viruses evolved to evade T cells by keeping MHC from reaching the cell surface. In turn, the immune system recruited other hunters to search for cells that don't show MHC proteins.
Sometime along its treacherous evolutionary path, HCMV stole a class 1 MHC molecule from its host and modified it for supreme stealth. "This is a decoy," Bjorkman says. She and Yang analyzed the structure of the mimic, called UL18, to compare how similar it is to the real thing. They found that despite a mere 23 percent match in genetic sequences, UL18 looks almost exactly the same as a true class 1 MHC.
The same immune cells that search for missing MHC proteins are designed to bind to them when they find them, thereby inhibiting an immune response. Yang and Bjorkman found that UL18 happens to bind 1,000 times tighter to these inhibitory receptors than real MHC molecules do. "This is exactly what the virus wants--to avoid being recognized by T cells, but to engage inhibitory receptors to turn off immune cells," Yang notes. "Only a small number of UL18 molecules are required to have the same inhibitory effect as a large number of MHC class I molecules."
"What I find astounding is that the virus stole this gene and kept it almost identical but improved upon its binding," Bjorkman says.
UL18 didn't stop there. "It also binds peptides--that's unique to this MHC mimic. We don't know why," Bjorkman adds. The peptide is obscured from killer cells by yet another shield, Yang says. In a trait it shares with HIV proteins, HCMV's UL18 covers itself with carbohydrates, which are unrecognizable to the immune system. A real class 1 MHC molecule has one site for adding carbohydrates; the fake has 13, Bjorkman notes. The only place where it's not covered is where it binds to the inhibitory receptor.
All its efforts have made UL18 virtually undetectable. "It's a good example of a viral protein that evolved from its host ancestor to block unwanted interactions," Yang says. "The more we understand that, the more effectively we can fight viruses that hide out," Bjorkman adds.
California Institute of Technology
"We are interested in mechanisms taken by viruses to escape our immune system," says Caltech biology postdoc and HHMI associate Zhiru Yang. She and Bjorkman published their findings on HCMV survival mechanisms in the July 15 edition of Proceedings of the National Academy of Sciences. They describe the underpinnings of a viral cloaking device, partly made of stolen goods from healthy cells, that helps HCMV to move undetected through the body.
For 20 years, Bjorkman's lab has been dedicated to understanding class 1 major histocompatibility complex (MHC) proteins and the immune response, most recently related to AIDS research. MHC proteins carry peptides, small pieces that are chopped up from the cell's internal proteins, to the cell's surface. If a cell has been infected, MHC presents viral peptides to signal T cells to kill it. So some viruses evolved to evade T cells by keeping MHC from reaching the cell surface. In turn, the immune system recruited other hunters to search for cells that don't show MHC proteins.
Sometime along its treacherous evolutionary path, HCMV stole a class 1 MHC molecule from its host and modified it for supreme stealth. "This is a decoy," Bjorkman says. She and Yang analyzed the structure of the mimic, called UL18, to compare how similar it is to the real thing. They found that despite a mere 23 percent match in genetic sequences, UL18 looks almost exactly the same as a true class 1 MHC.
The same immune cells that search for missing MHC proteins are designed to bind to them when they find them, thereby inhibiting an immune response. Yang and Bjorkman found that UL18 happens to bind 1,000 times tighter to these inhibitory receptors than real MHC molecules do. "This is exactly what the virus wants--to avoid being recognized by T cells, but to engage inhibitory receptors to turn off immune cells," Yang notes. "Only a small number of UL18 molecules are required to have the same inhibitory effect as a large number of MHC class I molecules."
"What I find astounding is that the virus stole this gene and kept it almost identical but improved upon its binding," Bjorkman says.
UL18 didn't stop there. "It also binds peptides--that's unique to this MHC mimic. We don't know why," Bjorkman adds. The peptide is obscured from killer cells by yet another shield, Yang says. In a trait it shares with HIV proteins, HCMV's UL18 covers itself with carbohydrates, which are unrecognizable to the immune system. A real class 1 MHC molecule has one site for adding carbohydrates; the fake has 13, Bjorkman notes. The only place where it's not covered is where it binds to the inhibitory receptor.
All its efforts have made UL18 virtually undetectable. "It's a good example of a viral protein that evolved from its host ancestor to block unwanted interactions," Yang says. "The more we understand that, the more effectively we can fight viruses that hide out," Bjorkman adds.
California Institute of Technology
Immune System Current Events and Immune System News RSSEvolution in action: Our antibodies take 'evolutionary leaps' to fight microbes
With cold and flu season in full swing, the fact that viruses and bacteria rapidly evolve is apparent with every sneeze, sniffle, and cough. A new report in the January 2009 issue of The FASEB Journal, explains for the first time how humans keep up with microbes by rearranging the genes that make antibodies to foreign invaders. This research fills a significant gap in our understanding of how the immune system helps us survive.
Understanding Extinct Microbes May Influence the State of Modern Human Health
The study of ancient microbes may not seem consequential, but such pioneering research at the University of Oklahoma has implications for the state of modern human health. Cecil Lewis, assistant professor in the Department of Anthropology, says results of this research raise questions about the microbes living on and within people.
Lung cancer cells activate inflammation to induce metastasis
A research team from the University of California, San Diego School of Medicine has identified a protein produced by cancerous lung epithelial cells that enhances metastasis by stimulating the activity of inflammatory cells.
Researchers engineer pancreatic cell transplants to evade immune response
In a finding that could significantly influence the way type 1 diabetes is treated, researchers at Albert Einstein College of Medicine of Yeshiva University have developed a technique for transplanting insulin-producing pancreatic cells that causes only a minimal immune response in recipients.
Salk researchers develop novel glioblastoma mouse model
Researchers at the Salk Institute for Biological Studies have developed a versatile mouse model of glioblastoma-the most common and deadly brain cancer in humans-that closely resembles the development and progression of human brain tumors that arise naturally.
Immune cells contribute to the development of Parkinson's disease
Parkinson disease is a neurodegenerative disorder that impairs movement, balance, speech, and other functions. It is characterized by the loss of nerves in the brain that produce a substance known as dopamine.
Redesigned protein accelerates blood clotting
Researchers have made several, subtle changes in the structure of a key protein, dramatically increasing its ability to drive blood clotting, according to a study published in a December edition of the Journal of Thrombosis and Haemostasis.
Biomedical researchers create artificial human bone marrow in a test tube
Artificial bone marrow that can continuously make red and white blood cells has been created in a University of Michigan lab.
Peering inside the skull of a mouse to solve meningitis mystery
NYU Langone Medical Center scientists and their collaborators at the Scripps Research Institute in La Jolla, Calif., have discovered an unexpected cause for the fatal seizures seen in mice with viral meningitis, an infection of the central nervous system, according to a study published in the journal Nature.
Breathing life into injured lungs: World-first technique will expand lung donor organ pool
For the first time in the world, transplant surgeons at Toronto General Hospital, University Health Network used a new technique to repair an injured donor lung that was unsuitable for transplant, and then successfully transplanted it into a patient.
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