{"id":245106,"date":"2017-08-22T15:29:38","date_gmt":"2017-08-22T18:29:38","guid":{"rendered":"http:\/\/revistapesquisa.fapesp.br\/?p=245106\/"},"modified":"2017-08-22T15:40:54","modified_gmt":"2017-08-22T18:40:54","slug":"zika-a-collaboration-to-characterize-a-syndrome","status":"publish","type":"post","link":"https:\/\/revistapesquisa.fapesp.br\/en\/zika-a-collaboration-to-characterize-a-syndrome\/","title":{"rendered":"Zika, a collaboration to characterize a syndrome"},"content":{"rendered":"
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Rodrigo M\u00e9xas and Raquel Portugal \/ Fiocruz<\/span><\/a> A female Aedes aegypti<\/em> mosquito, the main transmitter of Zika and three other viruses in BrazilRodrigo M\u00e9xas and Raquel Portugal \/ Fiocruz<\/span><\/p><\/div>\n

Published in January 2017<\/em><\/p>\n

In late 2016, the idea began to take hold that microcephaly represents only a fraction of the problems caused by the Zika virus\u2014possibly the smallest but most tragic fraction because of the long-term consequences. Papers published in the last few months began to characterize in detail the broad spectrum of fetal damage that can occur: from the most severe, which is incompatible with life, to undetectable, subtle damage, which could perhaps still allow a full life. In addition to these extremes, which are rare, a broad range of lesions may appear in the central nervous system\u2014the most common are calcifications, a form of brain scar tissue\u2014and these are capable of compromising the development and independence of the infant, to a degree that is currently uncertain. According to experts, this continuum of effects reinforces the idea put forth some time ago that the virus causes a syndrome: congenital Zika syndrome.<\/p>\n

From the first report of the virus being suspected of causing microcephaly until the characterization of the syndrome attributed to it, a relatively short time passed in terms of scientific research, which tends to operate at a pace regulated by the availability of money and infrastructure for experiments. The alarm was sounded in Recife\u2019s maternity wards in early August 2015, when pediatric neurologist Vanessa van Der Linden and other doctors in the northeastern state of Pernambuco began to identify an atypical rise in microcephaly cases. The following month, the Ministry of Health asked epidemiologist Celina Turchi Martelli of the Aggeu Magalh\u00e3es Research Center in Recife to investigate the problem. She contacted researchers in Brazil and abroad and assembled a task force to study the connection between the increased incidence of microcephaly and Zika virus infection. For her work, Martelli was selected by Nature,<\/em> last December, as one of the 10 researchers who mattered most in 2016.<\/p>\n

Three months after seeing an increase in microcephaly cases, evidence that the Zika virus was causing the problem became stronger. In mid-November 2015, obstetrician Adriana Melo, with the help of researchers from the Oswaldo Cruz Foundation (Fiocruz) in Rio de Janeiro, identified the virus in the amniotic fluid of two pregnant women from Para\u00edba (northeast Brazil), whose fetuses had microcephaly. In late November 2015, a team led by virologist Pedro Vasconcelos of the Evandro Chagas Institute (IEC) in Par\u00e1 isolated the virus from several tissues from a newborn from Cear\u00e1 (northeast Brazil) who was born with microcephaly and died shortly after birth.<\/p>\n

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National Institute of Allergy and Infectious Diseases, National Institutes of Health<\/span><\/a> Isolated Zika copies (in red<\/em>) from an infant born with microcephaly in FortalezaNational Institute of Allergy and Infectious Diseases, National Institutes of Health<\/span><\/p><\/div>\n

\u201cAfter the initial tests in which we identified the viruses, I had no doubt that Zika was causing microcephaly,\u201d says Pedro Vasconcelos, director of the IEC, where he heads a laboratory that serves as a national reference center for arboviruses (diseases caused by viruses transmitted by arthropods, such as the Zika, dengue and yellow fever viruses). \u201cI was convinced that we had done good work,\u201d Vasconcelos said in December 2016 during a trip to Rio de Janeiro. \u201cI was at a meeting in Bras\u00edlia in late October 2015, and there was a lot of chatter. I said that if I were sent enough of the right material, in two or three days, I would have a diagnosis,\u201d he says. And so he did.<\/p>\n

In mid-November 2015, pathologist Fernanda Montenegro de Carvalho Ara\u00fajo, from the Central Laboratory of Public Health (Lacen) in Cear\u00e1, sent Vasconcelos tissue samples from a newborn with microcephaly. A few days later, Vasconcelos informed the Ministry of Health that, on November 28, he had found the connection between the Zika virus infection during pregnancy and cases of microcephaly. A press release from the Ministry reported that it was \u201can unprecedented situation for worldwide scientific research\u201d and called for national mobilization to contain Aedes aegypti<\/em>, the main transmitter of the Zika and dengue viruses, as well as the newcomer chikungunya fever, which, at that time, had researchers and health officials more worried.<\/p>\n

Having isolated the virus, Vasconcelos distributed samples to teams in Brazil and abroad to speed up the research. The next few months were very hectic. They needed to learn how to maintain and multiply the virus and generate enough copies for the experiments. At the Institute of Biomedical Sciences (ICB) at the University of S\u00e3o Paulo (USP), virology groups led by Edison Durigon and Paolo Zanotto immediately attempted to replicate the virus. In partnership with a group led by neuroimmunologist Jean Pierre Peron, also of the ICB, and neuroscientist Patr\u00edcia Beltr\u00e3o-Braga, of the USP School of Veterinary Medicine and Animal Husbandry (FMVZ), Durigon and Zanotto\u2019s groups began experiments using mice and stem cells grown in a three-dimensional matrix that allows a variety of cell types to be generated and to self-organize into microscopic spheres (neurospheres) or to be layered like mini-brains.<\/p>\n

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L\u00e9o Ramos Chaves<\/span><\/a> Cell culture used to produce copies of the virus in the Edison Durigon laboratory at USPL\u00e9o Ramos Chaves<\/span><\/p><\/div>\n

The aim of these experiments was to better understand how the virus is transmitted from the mother to the fetus, how it behaves within the fetus, and during which period of the pregnancy women are most vulnerable. They also needed to confirm that it was the Zika virus tha was causing the problems\u2014which is what researchers call a causal relationship\u2014because they had not yet ruled out the possibility that the virus could be present in the brain without causing damage.<\/p>\n

Much evidence began to accumulate in the following months. In February 2016, Slovenian researchers found the virus and quantified its presence in the brain of an 8-month-old fetus, aborted by a woman who had been pregnant while living in Rio Grande do Norte State and who had shown signs of Zika during her pregnancy. This discovery was followed by others that showed that the virus was capable of crossing the placenta and surviving in the amniotic fluid, something few viruses can do.<\/p>\n

With the attention of research groups in Brazil and abroad focused on Zika, new developments emerged almost daily. In Brazil, advances made in laboratories were made public before the results had been analyzed and judged by other scientists, reversing the usual flow of information characteristic of scientific production. Following a guideline announced in September 2015 by the World Health Organization (WHO) and agreed upon by some scientific journal publishers, many researchers made the work of their groups available as quickly as possible.<\/p>\n

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Up until 2015, two articles on Zika had been written by Brazilians: the first (above<\/em>) analyzed the genetic changes in the virus…<\/p><\/div>\n

Two studies presented in early March 2016 demonstrated that the Zika virus was capable of infecting and killing human neural cells. In the first study, researchers from Rio de Janeiro and S\u00e3o Paulo, working under the coordination of Stevens Rehen and Patricia Garcez, neuroscientists at the D\u2019Or Institute for Research and Education (IDOR) and the Federal University of Rio de Janeiro (UFRJ), found that the virus preferred to invade and kill neural progenitors\u2014the precursor stem cells of neurons and glial cells, which make up nervous system tissue. A few days later, researchers from the United States confirmed this finding and showed that the Zika virus, in vitro, was infecting neural cells similar to those that make up the cortex, the outermost layer of the brain, associated with cognitive functions such as attention, memory and language.<\/p>\n

Almost at the same time, ICB and FMVZ groups achieved similar results in the neurosphere and mini-brain experiments published May 11, 2016, in Nature<\/em>. In collaboration with researchers from the Pasteur Institute in Senegal, the S\u00e3o Paulo researchers also presented the first animal model of microcephaly caused by the Zika virus and established the causal relationship between the virus and microcephaly.<\/p>\n

Using copies of the virus produced in the Durigon and Zanotto laboratories, Peron and his group inoculated pregnant mice with the strain of Zika virus that was in circulation in Brazil. The virus crossed the placenta in a strain of mice that is susceptible to viral infections and impaired the development of\u00a0 its pups. The pups had lower birth weights and smaller brains than those born to non infected females. The animals also had brain damage similar to that seen in human infants (see <\/em>Pesquisa FAPESP Issues n\u00ba 242<\/a> and n\u00ba 244<\/a><\/em>). This microcephaly model was then used in tests conducted by researchers from the United States, in partnership with the USP, who demonstrated the potential for developing a vaccine against Zika.<\/p>\n

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…the second described the first cases of internal transmission in Brazil<\/p><\/div>\n

A warning sign<\/strong>
\nIn light of these results and the increase in suspected cases of microcephaly in Brazil, on March 31, 2016, the WHO issued a report in which it asserted that there was a \u201cstrong scientific consensus\u201d that the Zika virus caused microcephaly and Guillain-Barr\u00e9 syndrome, a disorder that leads to the destruction of myelin (a substance that forms the sheath that lines the nerves) and can cause paralysis. It was a major change in the position expressedonly two months before, when the WHO had said there was a \u201cpossible association\u201d of the virus with these problems. The WHO now declared an international public health emergency.<\/p>\n

\u201cSince the beginning of the epidemic, knowledge of the virus has grown considerably, especially [knowledge] about its biology and interaction with mammalian organisms,\u201d says Peron. More information about the Zika virus was produced in 2016 than had come to light in the previous six decades. PubMed, one of the most important databases indexing scientific articles in biology and the life sciences, recorded 1,756 articles on Zika in 2016 (almost 200 of which were written by Brazilians). This total is approximately eight times the number available by the end of 2015. From 1952, when the first human infection was recorded, up until the virus became a worldwide concern in 2015, 218 articles were published on Zika, as indexed in PubMed. Some studies showed Zika\u2019s affinity for the mammalian nervous system, and several others described sporadic cases of fever in Africa and Asia. Despite the 2007 epidemic in the Yap Islands in Micronesia and the 2013 epidemic in French Polynesia, when thousands were infected, nothing was known about Zika\u2019s action on developing fetuses.<\/p>\n

\u201cThe outbreak in Micronesia should have served as a warning,\u201d says Zanotto. \u201cI\u2019m engaging in this self-criticism because, at the time, we arbovirus specialists were sequencing African varieties of Zika, but we never imagined that the virus could change its performance profile so quickly and drastically.\u201d He says that, at the time, he and other experts were\u00a0 keeping tabs on other arboviruses considered to be of greater risk and pandemic potential, such as Rift Valley fever virus, strain 2 of the West Nile fever virus, and the Chikungunya fever virus. \u201cToday there is a consensus in the research community that we need to take a more proactive approach to emerging pathogens,\u201d says Zanotto, who, in late 2015, began to mobilize the Zika Network, a consortium of S\u00e3o Paulo researchers who are investigating the virus with the support of FAPESP.<\/p>\n

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Pan American Health Organization PAHO<\/span><\/a> A participant in a study that followed pregnant women in Recife who had symptoms of ZikaPan American Health Organization PAHO<\/span><\/p><\/div>\n

In addition to collaborating on developing an animal model of the microcephaly caused by Zika, he is working with Durigon and biologist Luis Carlos de Souza Ferreira, also of the USP, to improve a serological test capable of distinguishing a dengue virus infection from a Zika virus infection. Zanotto co-authored one of the two papers by Brazilian researchers among the 218 articles about Zika that were published before 2015. In that study, published in January 2014 in PLOS Neglected Tropical Diseases<\/em>, Zanotto\u2019s team and the group led by Senegalese virologist Amadou Alpha Sall of the Pasteur Institute in Dakar, sequenced genetic material from Zika samples collected in Africa and Asia to study the changes that the virus had undergone since it was isolated in 1947. The work later made it possible to reconstruct the migratory route of the virus (via Asia) to Brazil and verified that along the way it seems to have adapted itself to infect humans.<\/p>\n

One virus, multiple kinds of damage<\/strong>
\nWhile some of the researchers were engaged in learning more about the biology of the virus, other groups concentrated on characterizing the congenital syndrome caused by the Zika virus. In January 2016, a group coordinated by Lavinia Sch\u00fcler-Faccini, a geneticist at the Federal University of Rio Grande do Sul (UFRGS), conducted a series of tests on some of the first children born with Zika-related microcephaly in eight Brazilian states and found that microcephaly was not the only problem. Many presented other neurological changes, such as calcifications; lissencephaly, which is characterized by the absence of the usual folds of a healthy brain; and pachygyria, which is characterized by more extensive folds; and a severe joint problem called arthrogryposis.<\/p>\n

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L\u00e9o Ramos Chaves<\/span><\/a> Mini-brains grown at USP and used in Zika experimentsL\u00e9o Ramos Chaves<\/span><\/p><\/div>\n

In late August 2016, an article published online in Radiology<\/em> and authored by researchers from S\u00e3o Paulo, Para\u00edba, Rio de Janeiro and Campinas, provided the results of the evaluation of 17 infants who had been infected with Zika during gestation and 28 others suspected of having had contact with the virus. All of the infants presented reduced cerebral volume, which was more pronounced among those with confirmed infection, according to the study, coordinated by radiologist Fernanda Tovar-Moll, a professor at UFRJ and a researcher at IDOR. In some cases, the researchers found that the infants\u2019 brains had, in fact, developed normally in early gestation but, over time, developed more slowly.<\/p>\n

Two months later, pediatric neurologists Andr\u00e9 Pessoa, from State of\u00a0 Cear\u00e1, and Vanessa van der Linden, from the state of Pernambuco, reported 13 cases of infants who had been infected by the Zika virus during gestation and who were born with a borderline cephalic circumference and neurological changes detected by imaging exams. A few months after their births, 11 of these infants had skulls that were smaller than normal for their age\u2014that is, they had developed postnatal microcephaly\u2014because of a slowing down of brain development. \u201cThe absence of microcephaly at birth does not exclude congenital Zika infection nor the presence of abnormalities in the brain or other organs related to Zika,\u201d the researchers wrote in an article in Morbidity and Mortality Weekly Report<\/em>.<\/p>\n

In the December 15, 2016, edition of the New England Journal of Medicine<\/em>, infectious disease specialist Patr\u00edcia Brasil and her team at Fiocruz in Rio de Janeiro, in partnership with collaborators in S\u00e3o Paulo, the United States, Sweden and Austria, described the outcome of what is probably the most comprehensive study of pregnant women with Zika in Brazil. In the study, they presented the results of the pregnancies of 186 of the 345 women who have been studied in the city of Rio de Janeiro since the height of the Zika epidemic in Brazil: 125 were positive for Zika, and 61 were negative.<\/p>\n

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Pan Patricia Garcez \/ UFRJ and IDOR<\/span><\/a> A neurosphere formed from healthy cells (left<\/em>) and another produced by virus-infected cellsPan Patricia Garcez \/ UFRJ and IDOR<\/span><\/p><\/div>\n

Of the 117 infants exposed to Zika during gestation and evaluated by researchers, only four (3.4%) were born with microcephaly, and 49 (equivalent to 42% of the total) showed signs of abnormal development in the first month of life, almost always associated with damage to the central nervous system. Imaging studies showed calcifications in the nervous system of several of the 49 infants and a reduction in the size of the brain\u2014but not necessarily of the skull\u2014as well as an increase in the volume of the brain cavities (ventricles). These changes occurred in infants whose mothers had been infected at the beginning, middle or end of their pregnancies\u2014one was infected by the Zika virus during the 39th week, shortly before delivery. These observations indicate that the virus poses a risk to the fetus throughout the pregnancy.<\/p>\n

Taken together, these results help explain why women infected during pregnancy do not always give birth to babies with microcephaly. In S\u00e3o Jos\u00e9 do Rio Preto, in inland S\u00e3o Paulo State, the team led by virologist Maur\u00edcio Nogueira began to follow 1,200 pregnant women in early 2016. Of these, only 54 had the Zika virus infection. None of the babies, however, were born with microcephaly, although 30% had neurological lesions. In Jundia\u00ed, a city that is 60 km from S\u00e3o Paulo, the pediatric group led by Saulo Duarte Passos has been studying 560 pregnant women since March 2016. As of December 2016, 265 babies had been born, and 33 had microcephaly\u2014only three cases were proven to be caused by Zika, and the others are being analyzed. Among those born with normal heads, some presented neurological, visual and auditory changes around the 5th or 6th month following birth.<\/p>\n

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National Institute of Allergy and Infectious Diseases, National Institutes of Health<\/span><\/a> A volunteer receives an anti-Zika vaccine in the initial human tests conducted in the United StatesNational Institute of Allergy and Infectious Diseases, National Institutes of Health<\/span><\/p><\/div>\n

A search for immunity<\/strong>
\nAt the Center for Virology and Vaccine Research (CVVR) at Harvard Medical School in the United States, the group led by Dan Barouch, of which Brazilian immunologist Rafael Larocca is part, tested two vaccine formulations in mice and proved, in partnership with the ICB-USP groups, that they protected the animals from Zika virus infection. Two months later, the test results on monkeys came back, and clinical trials of two vaccine candidate compounds began in humans. Today, there are about 30 formulations at different stages of evaluation. Although Zika vaccines were shown to be effective in humans, it could take years before they are available for use by the general population.<\/p>\n

\u201cIt was amazing to see how responsive Brazilian science was,\u201d says Rehen, research director at IDOR. He believes this was possible because over a period of almost 10 years, large sums of money were made available for research in Brazil, resulting in a foundational capacity to carry out the investigations. \u201cThe existence of a real problem forced the scientific community to organize in search of solutions,\u201d he added. \u201cWe showed we could do it.\u201d<\/p>\n","protected":false},"excerpt":{"rendered":"Interdisciplinary work has confirmed that the Zika virus causes microcephaly and other types of brain damage in perinatally-infected infants","protected":false},"author":16,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"_exactmetrics_skip_tracking":false,"_exactmetrics_sitenote_active":false,"_exactmetrics_sitenote_note":"","_exactmetrics_sitenote_category":0,"footnotes":""},"categories":[159],"tags":[229,242,247,260],"coauthors":[105],"class_list":["post-245106","post","type-post","status-publish","format-standard","hentry","category-science","tag-epidemiology","tag-immunology","tag-medicine","tag-public-health"],"acf":[],"_links":{"self":[{"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/posts\/245106","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/users\/16"}],"replies":[{"embeddable":true,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/comments?post=245106"}],"version-history":[{"count":0,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/posts\/245106\/revisions"}],"wp:attachment":[{"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/media?parent=245106"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/categories?post=245106"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/tags?post=245106"},{"taxonomy":"author","embeddable":true,"href":"https:\/\/revistapesquisa.fapesp.br\/en\/wp-json\/wp\/v2\/coauthors?post=245106"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}