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Virus del cerebro que tiene efectos "circundantes"

Brain Virus Has “Bystander” Effects

Colors show calcium levels in brain cells in experiments with cytomegalovirus infection.

New Haven, Conn. — A common brain virus that is usually harmless in adults but can be devastating in early development causes deterioration of infected cells and also affects nearby non-infected brain cells, which may explain why it is so destructive, a Yale School of Medicine researcher reports in the Journal of Virology.

The virus, cytomegalovirus (CMV), can cause disorders such as hydrocephalus, epilepsy, learning disabilities, and deafness by infecting the developing brain, and also infects the brain in organ transplant recipients and persons with HIV infection who have compromised immune systems.

In the early stages of infection, CMV targets astrocytes, which are important in neuronal development and intercellular communication within the brain. Astrocytes respond to and release transmitters such as glutamate and extracellular ATP through increases in intracellular calcium. Astrocytes also make long distance calls to each other, so to speak, and modulate synaptic transmission between neurons.

Anthony van den Pol, professor of neurosurgery and senior author of the study, and lead author Winson Ho, a student at Yale School of Medicine, used digital imaging to examine mouse brain cells infected by mouse CMV. They found that the virus weakened long distance glial intercellular communication and neuronal synaptic signaling, even in bystander cells with no sign of infection.

“The ‘bystander effects’ we observed would tend to cause further deterioration of cellular communication in the brain in addition to the problems caused by the loss of directly infected cells,” van den Pol said. “These effects might help explain why CMV is the leading viral cause of neurological dysfunction in the developing brain.”

In a paper published earlier this year in the Journal of Virology, van den Pol’s lab showed that interferon in the brain can reduce proliferation of CMV, which might then reduce the problems in cellular communication precipitated by CMV.

Journal of Virology 81: 7286-7292 (July 2007)

Press Contact: Jacqueline Weaver 203-432-8555

Courtesy: Yale University

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