Microcephaly: Building a case against Zika

Virus can damage cells key for developing brains, new study shows

baby with microcephaly

SIZING UP  A doctor measures the head circumference of a baby girl in Brazil. The measurement can offer a quick way to gauge whether a newborn has microcephaly, a birth defect that leaves babies with underdeveloped heads and brains. 

© Flavio Forner/Xibe Images/Corbis

The prime suspect in Brazil’s recent surge in birth defects may be convicted this summer, in the sweltering cities of Colombia.

That’s when the first big wave of pregnant women infected with Zika virus last fall will begin to give birth. Whether or not these babies are born with stunted brains, a condition known as microcephaly, may offer the best evidence yet that Zika is the culprit — or not.

While the world waits, molecular evidence is starting to come in. Zika virus readily infects (and kills) one kind of brain cell in developing embryos, researchers report online March 4 in Cell Stem Cell. “It’s the first step to show that Zika is actually doing something in the brain,” says study coauthor Guo-Li Ming, a neuroscientist from Johns Hopkins School of Medicine. Previous studies have found traces of Zika in damaged fetal brains — but that’s just a correlation.

ABNORMALLY SMALL Babies with microcephaly have head circumferences that are two standard deviations below average (middle). Three standard deviations below average is considered severe microcephaly (bottom). CDC

Still, correlations like these may be why the mosquito-borne virus has sparked so much panic. In the last year, Zika has torn through Brazil and invaded 40 other countries and territories. Now, Zika infection during pregnancy is the leading theory for why so many babies have been born with microcephaly in Brazil. Suspected cases of the rare birth defect are showing up at more than 30 times the rate of previous years.

Seeing microcephaly numbers skyrocket in other countries could make or break the case. So far, only Brazil has reported an uptick in microcephaly (though French Polynesia did in an earlier outbreak). Still, evidence that Zika is to blame remains circumstantial.

“We don’t have absolute proof,” says Christopher Dye, a strategy director of the World Health Organization. But scientists do have enough evidence to consider the virus “guilty until proven innocent,” he says.

University of Pittsburgh public health researcher Ernesto Marques agrees. “We have a victim, and we have a suspected criminal with a gun.” Now, he says, “we have to prove who pulled the trigger.”

The case against Zika

Zika virus has topped the suspect list from the start. “There’s a very real possibility that this virus could be responsible for some of the horrific consequences” seen in children, Bruce Aylward, head of WHO’s outbreaks investigations, said in a news conference February 19.

In late 2014, the first cases of Zika infection emerged in Brazil’s northeast corner. By fall 2015, women started giving birth to babies with shrunken heads. That’s a clue that infection during early pregnancy may be a problem. “The timing is right,” Dye says.

Biological evidence is building up too. “Virus RNA has been found in placenta, amniotic fluid, and brain tissues of stillborn babies with microcephaly,” Marques says. And new case reports keep rolling in. On February 26, the U.S. Centers for Disease Control and Prevention reported Zika infection in nine pregnant travelers. Two women miscarried, one gave birth to a baby with microcephaly, and two had abortions (fetal imaging revealed severe brain abnormalities in one case; the CDC hasn’t released details about the other.)

Recently, scientists examined a fetus with microcephaly whose mother had a suspected Zika virus infection in her first trimester. The fetus had Zika RNA in the brain, and what looked like destroyed brain cell structures, researchers reported February 10 in The New England Journal of Medicine.  In ultrasounds and tissue slices, blurry white specks called calcifications smudged the brain. These specks can signify damaged or dying tissue, says Ming, who wasn’t involved in that study.

For her Cell Stem Cell study, Ming and colleagues grew different types of human cells in the lab, and then gave them a dose of Zika. The virus went wild in neural progenitor cells (a critical part of the embryonic brain), infecting up to 90 percent of cells in a dish. But Zika floundered in more developed brain cells, infecting less than 20 percent or so of dosed cells.

If these findings hold true in people, “it means that fetal brains are much more susceptible to Zika than adult brains,” says stem cell biologist Kristen Brennand of Mount Sinai Hospital in New York City.

And where Zika strikes, it does major damage. The virus killed some cells outright, and messed with others’ growth cycles, Ming and colleagues found. That’s “pretty consistent with what you’d expect if Zika causes microcephaly,” Brennand says. “If you have more cells dying, you’re going to have a smaller head.”

Ming cautions that her cell study doesn’t prove Zika’s guilt. Scientists still need to identify whether infected brain cells lead to abnormal brain structures. “That would give you more direct evidence,” she says. 

Clinical evidence linking Zika to microcephaly will likely also follow. Marques recently wrapped up a study on the earliest cases of microcephaly reported in Brazil. He and colleagues analyzed samples collected from the first group of babies born with the birth defect last October. “This was before Zika became famous,” he says.

Hospitals in the state of Pernambuco sent his team cerebrospinal fluid, the liquid that cushions the brain and spinal cord. In 30 out of 31 samples, the team found antibodies indicating Zika virus infection. But the case against Zika isn’t airtight. In fact, “there are many weak spots,” Dye says, including how hard it can be to measure both microcephaly and Zika virus infection.

Burden of proof

Judging whether a microbial suspect is guilty of causing a disease is simple, in theory.

Robert Koch, the famous 19th century German microbiologist, established a few straightforward guidelines in 1890. First, the microbe in question must be found in all cases of the disease. Additional criteria (involving lab tests in culture and animals) round out “Koch’s postulates.” But with Zika, scientists are still getting hung up on the first one.

Zika virus infection isn’t easy to confirm. Blood tests can give false positives, or fail if too much time has passed since symptoms started. Scientists can only guess how many people in Brazil have been infected. The Brazilian Ministry of Health estimates roughly 400,000 to 1.3 million, but officials have stopped counting.

“We don’t have a good diagnostic test,” WHO’s Dye says. On top of that, microcephaly itself can be challenging to diagnose. So in the theory that Zika virus is responsible for microcephaly, both cause and effect are slippery.

As of March 4, Brazil has reported 5,909 suspected cases of microcephaly (or other brain and spinal cord malformations) since November. But hundreds, if not thousands, of those babies might not actually have the birth defect. That’s because doctors have been flagging cases with a quick and dirty method: a head circumference of less than 32 centimeters. “Many children with normal heads are going to fall within that category,” Aylward said, because the measurement doesn’t factor in gender and gestational age.

Imaging the brain can help detect structural malformations.

Public health officials in Brazil have already examined 1,687 cases. So far, they’ve confirmed just 641. On February 25, WHO released guidelines for making microcephaly assessments more orderly, but even 641 confirmed cases is huge — nearly four times the number of cases Brazil usually reports in a year. “There’s no question that they have a cluster of microcephaly,” said Aylward.

Dye worries that scientists might be counting only the babies with severe defects. “The concern is that we’re seeing the tip of a larger phenomenon,” he says. Thousands of babies with less obvious brain damage might be slipping under the radar. “It could take years to evaluate the full spectrum of conditions,” he says.

New theories, new studies

In recent weeks, controversial alternative theories for Brazil’s birth defects have bubbled up and caught the public’s eye. One blamed microcephaly on a pesticide called pyriproxyfen that Brazil had been adding to the water supply.

Some of these theories “may seem very strange, but they all have to be evaluated,” Dye says.

WHO has released an online rebuttal to some rumors. The pesticide, for instance, is bad news for mosquitoes (it sabotages larvae development), but there’s no evidence that it’s harmful to humans — or any animal with a spine.

“Pyriproxyfen has gone through an enormous number of safety tests over the years,” says public health entomologist Steve Lindsay of Durham University in England. In mice, rats and dogs, there’s no evidence that the pesticide is neurotoxic. For a pesticide, he says, “it’s as safe as you can get.”

WHO also swatted down a theory about genetically modified mosquitoes. Releasing males that can’t reproduce could help Brazil tamp down mosquito populations. But “it’s virtually impossible” that GM mosquitoes are transmitting Zika or causing microcephaly, says entomologist William Walton of the University of California, Riverside. “Male mosquitoes don’t bite,” he says. So they don’t pass what they’re carrying on to humans like females do.

Beyond a Reasonable Doubt

Establishing that Zika really is behind the current microcephaly outbreak will require more work — and a little more time. Critical information will come from upcoming studies in Brazil. CDC scientists are planning to examine 300 to 500 babies born with or without microcephaly in the Brazilian city of João Pessoa. One goal is to tally up how many babies with microcephaly also have evidence of Zika infection. Marques and collaborators have begun a similar study on babies born in Pernambuco (SN: 2/20/16, p.16).

The CDC is also collaborating with Colombia health officials to gauge the effects of Zika infection during pregnancy. Since October, Zika virus case numbers have soared: 42,706 total so far, and more than 6,300 infections are in pregnant women.

In the current outbreak, Colombia is just the second country to have such a large group of women face Zika during pregnancy. Roughly four months have ticked by since many of these women were exposed. If as suspected, Zika strikes developing brains in the first trimester, the most incriminating evidence could come in about five months, when these babies are born. 

“People are going to be looking for increasing numbers of microcephaly,” says vaccine researcher Anna Durbin, of the Johns Hopkins School of Public Health. Such a finding could sew up the case against Zika.

“If there’s going to be smoking gun,” she says, “it’s going to come out of Colombia.”

Meghan Rosen is a staff writer who reports on the life sciences for Science News. She earned a Ph.D. in biochemistry and molecular biology with an emphasis in biotechnology from the University of California, Davis, and later graduated from the science communication program at UC Santa Cruz.

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