Malnutrition linked to increased risk of Zika birth defects
New York: Researchers have found that a rise in cases of Congenital Zika Syndrome (CZS) is linked to poor diet among the infants’ mothers.
Congenital Zika Syndrome (CZS) refers to a collection of developmental malformations associated with Zika virus (ZIKV) congenital infection.
This syndrome includes devastating conditions that have a huge impact on the rest of the life of the individual and their family, such as smaller (microcephaly) and unfolded (lissencephalic) brains, retinal abnormalities, enlarged ventricles of the heart, a lack of the inter-hemispheric connections and calcifications in the brain.
Brazil has been widely affected by ZIKV, but 75 per cent of CZS have been found in the socio-economically disadvantaged region of the Northeast, said the study, published in the journal Science Advances.
“We knew that areas of Brazil with the lowest socioeconomic status had the highest level of developmental impairment in babies due to CZS, which is why we looked at the possible link between ZIKV and one of the potentially most important co-factors, nutrition,” said researchers from University of Oxfor in US and Federal University of Rio de Janeiro in Brazil.
This study showed that developmental impairment caused by ZIKV congenital infection is made much worse by environmental co-factors, specifically diets poor in protein, which explains why the devastating effects of CZS vary across ZIKV endemic regions.
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The link between Zika virus infection and the CZS has been demonstrated in previous studies, which helped researchers understand how the infection affected brain growth and development of blood vessels.
These showed that ZIKV infects the cells that develop into the brain and alter genes and proteins related to the normal cell cycle and blood vessel development.
The current study also used a mouse model to replicate the effects of Zika infection in mice that had a low-protein diet, and found that several of the pathological signs found in humans appeared in the undernourished mice in a similar way.
“When we replicated the effects seen in humans who had poor diets in mice we saw similar effects in the foetuses, such as placental damage as well as poor embryonic body growth and a reduction in brain size of newborns born to undernourished pregnant mouse,” said study researcher Zoltan Molnar from the University of Oxford.
According to the researchers, the mouse mothers were clearly less able to fight against ZIKV, which was shown by a robust and persistent ZIKV infection in the spleens of undernourished mothers, in contrast to healthy mice.
“Our undernourished mouse model helped us to identify the cellular mechanisms that are responsible for the differences in humans. Improving diet alone will not protect against ZIKV infections, but it can determine the severity of the CZS,” Molnar said.