Zika breakthrough: Scientists find link between virus and foetal brain damage

The findings are the first concrete evidence of a link between Zika virus and microcephaly, which until now had been circumstantial.

Zee Media Bureau

Paris: In a major breakthrough in understanding how the Zika virus attacks the dveloping brains of fetuses, scientists on Friday claimed that they had found the first evidence of a biological link between the deadly mosquito-borne disease and microcephaly, a birth defect in which the infants' brains fail to grow properly.

Laboratory tests found that the virus directly targeted key cells required for brain development and then destroyed or disabled them.

The findings are the first concrete evidence of a link between Zika virus and microcephaly, which until now had been circumstantial, said Guo-li Ming, a professor of neurology at Johns Hopkins' Institute for Cell Engineering, and a co-leader of the research.

"Studies of foetuses and babies with the telltale small brains and heads of microcephaly in Zika-affected areas have found abnormalities in the cortex, and Zika virus has been found in the foetal tissue," he said in a statement.

Scientist exposed three types of human cells in a lab dish to the Zika virus, a method called in-vitro experiment.

As per reports, there have been more than 4,800 confirmed and suspected cases of babies born with microcephaly in Brazil.

The first -- known as human neural progenitor cells (hNPCs) -- is crucial for the development of the cortex, or outer layer, of foetal brains.

Damage to these cells, which eventually differentiate into mature neurons, would be consistent with the brain defects caused by microcephaly.

The other two types of cells were stem cells and neurons.

As predicted, Zika virus attacked the human neural progenitor cells. Within three days of exposure, 90 percent were infected, and nearly a third had died.

Infected cells, meanwhile, had been hijacked to turn out new copies of the virus.

Furthermore, the genes needed to fight viruses failed to activate, which was a highly unusual outcome.

By comparison, the other two types of human cells were relatively unharmed.
"Our results clearly demonstrate that Zika can directly infect hNPCs in vitro with high efficiency," the study concluded.

"It is very telling that the cells that form the cortex are potentially susceptible to the virus," Ming added.

The findings may help to identify drugs that protect these vulnerable cells or reduce infections after they occur.

"Now that we know cortical neural progenitor cells are the vulnerable cells, they can likely also be used to quickly screen potential new therapies," said co-author Hongjun Song, also from the Institute for Cell Engineering, based in Baltimore, Maryland.

By itself, Zika is typically no more threatening than a bad cold or a mild case of the flu. Sometimes there are no symptoms at all. 

The research has been published in the journal Cell Stem Cell.

(With AFP inputs)

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