Published:February 20, 2017 5:16 pm
Scientists have uncovered the mechanisms that the Zika virus uses to alter brain development, an advance that may unravel the mysteries of why the infection causes birth defects. There are currently 70 countries and territories reporting active Zika transmission, according to the World Health Organisation (WHO). While a Zika infection typically results in mild or symptom-free infections in healthy adults and children, the risk of microcephaly in the developing foetus is an alarming consequence that has created a worldwide health threat.
Watch What Else Is Making News
Babies with microcephaly can have a wide array of problems including a small brain and head, developmental delays, seizures, vision and hearing loss and feeding difficulty, said researchers from The University of Texas Medical Branch at Galveston (UTMB) in the US.
Scientists are trying to determine how a Zika infection triggers these defects.
Since a normal brain develops from simple cells called stem cells that are able to develop into any one of various kinds of cells, the team deduced that microcephaly is most likely linked with abnormal function of these cells.
There are two main lineages of the virus, African and Asian.
Recently, the UTMB team found that only the Asian lineage has been linked with microcephaly.
The researchers established a method of investigating how Zika alters the production, survival and maturation of brain stem cells using cells donated from three human fetal brains.
They focused on the impact of the Asian lineage Zika virus that was involved in the first outbreak in North America in late 2015.
“We discovered that the Asian lineage Zika virus halted the proliferation of brain stem cells and hindered their ability to develop into brain nerve cells,” said Ping Wu, senior author on the study and UTMB professor.
“However, the effect that the Zika virus had on the ability of stem cells to develop into specialised cells differed between donors. This difference seems to be linked with a Zika-induced change in global gene expression pattern, it remains to be seen which genes are responsible.
“The unique system containing stem cells from three donors will allow us to dissect molecular mechanisms underlying Zika virus-induced brain malformation,” said Wu.
UTMB associate professor Nikos Vasilakis said that they discovered that two weeks after the cells had developed into a certain type, the Zika infection was mainly found in glial cells, which provide support and insulation for the brain.
The findings are published in the journal Stem Cell Reports.