How a vaccine made of mosquito spit could help stop the next epidemic

By Clare Baldwin

(Reuters) – Five years ago, in an office complex with a giant sculpture of a mosquito just northwest of Phnom Penh, Jessica Manning struck on a novel idea. Rather than spend more years in what felt like a futile search for a malaria vaccine, she would take on all mosquito-borne pathogens at once.

Her idea revolved around mosquito spit.

A lab technician Nhek Sreynik works with mosquitoes, at a lab in Kompong Speu Province, in Cambodia, June 11, 2020. REUTERS/Chantha Lach

Building on the work of colleagues and other scientists, Manning, a clinical researcher for the U.S. National Institute of Allergy and Infectious Diseases, believed she could use pieces of mosquito saliva protein to build a universal vaccine.

The vaccine, if it pans out, would protect against all of the pathogens the insects inject into humans – malaria, dengue, chikungunya, Zika, yellow fever, West Nile, Mayaro viruses and anything else that may emerge.

“We need more innovative tools,” said Manning. A vaccine like this would be “the Holy Grail.”

On Thursday, The Lancet published the initial results of this work with her colleagues: the first-ever clinical trial of a mosquito spit vaccine in humans.

The trial showed that an Anopheles mosquito-based vaccine was safe and that it triggered antibody and cellular responses.

Michael McCracken, a researcher not involved in the study, called the initial results “foundational.”

“This is big, important work,” said McCracken, who studies immune responses to mosquito-borne viruses at the Walter Reed Army Institute of Research in Maryland. “Mosquitoes are arguably the deadliest animal on Earth.”

A boy sits in the pediatrics ward at Kampong Speu District Referral Hospital, at the beginning of a dengue, also called ‘breakbone fever’, epidemic in Krong Chbar Mon, Cambodia April 2019. Jessica Manning/Handout

Malaria alone kills more than 400,000 people each year, according to the World Health Organization. Those deaths occur mostly in poor countries that do not receive as much vaccine research and funding. Because of global warming, however, those mosquitoes that thrive in the tropics are moving into more countries each year.

The global disruption of the COVID-19 pandemic has brought a sharp focus to infectious diseases and vaccine research. One of the key areas of concern are pathogens transmitted by mosquitoes.

The novel coronavirus, believed to have originated in bats, has so far infected more than 7.4 million people and killed nearly 420,000 worldwide. The Asian Development Bank estimates the pandemic could cost the global economy as much as $8.8 trillion.

TARGETING THE CARRIER

Manning’s research is specific to mosquitoes but is an example of how scientists are broadening their thinking about how to tackle infectious diseases, and the new types of tools they are developing.

What Manning is looking for is called a vector-based vaccine. A vector is the living organism – like a mosquito – that transmits a pathogen such as malaria – between humans, or from animals to humans.

All existing vaccines for humans target a pathogen. Manning’s goes after the vector.

The idea is to train the body’s immune system to recognize the saliva proteins and mount a response that would weaken or prevent an infection.

Scientists have known for decades that mosquito spit helps establish mosquito-borne infections and enhance their severity. Just recently, scientists have begun to exploit this.

A study of macaque monkeys published in 2015 showed vaccination with sand fly saliva reduced leishmaniasis lesion size and parasite load. A study of mice published in 2018 showed immunization with Anopheles mosquito spit protected against malaria. Another mouse study published last year showed immunization with Aedes mosquito saliva improved survival against the Zika virus.

The study published in The Lancet was conducted in 2017.

The Phase I trial conducted at the National Institutes of Health Clinical Center in Bethesda, Maryland, tested for safety and side effects in 49 healthy volunteers.

Participants were randomly assigned to receive one of two versions of the vaccine or a placebo. After a few weeks, hungry mosquitoes were placed on the arms of study participants. The study measured immune response to the mosquito spit proteins but did not involve pathogens.

More trials are needed to determine the effect the mosquito spit vaccine would have against actual pathogens.

No systemic safety concerns were identified. One participant developed an 8-centimeter (3.15 inches) reddened area around the injection site and was treated with steroids and antihistamines.

“I’m not as worried about redness as I would be about something more systemic like fever, headache, muscle aches, nausea or vomiting,” said Stephen Thomas, an infectious disease expert at SUNY Upstate Medical University who was not involved with the study.

Thomas has previously worked on dengue vaccine programs for the U.S. Department of Defense and helped manage its response to Ebola and the Zika virus.

Another scientist at the University of Maryland is running a follow-up trial with more mosquito spit proteins and a different vaccine formulation.

Meanwhile, Manning has returned to Cambodia and is running a field study to identify vaccine-candidate spit proteins in Aedes mosquitoes. She also has a separate project sequencing the genomes of all pathogens found in Aedes and Culex mosquitoes, some of which can infect humans.

One worrying discovery so far? “They carry a ton of different viruses that we are only just discovering.”

(Reporting by Clare Baldwin; Editing by Elyse Tanouye and Bill Berkrot)

Tick, mosquito-borne infections spiking in United States: CDC

FILE PHOTO - A sign is displayed as San Diego County officials hand spray a two block area to help prevent the mosquito-borne transmission of the Zika virus in San Diego, California, U.S. August 19, 2016. REUTERS/Earnie Grafton

By Gina Cherelus

NEW YORK (Reuters) – The number of Americans sickened each year by bites from infected mosquitoes, ticks or fleas tripled from 2004 through 2016, with infection rates spiking sharply in 2016 as a result of a Zika outbreak, U.S. health officials said on Tuesday.

The U.S. Centers for Disease Control and Prevention said that some 96,075 diseases caused by bites by mosquitoes, ticks and fleas were reported in 2016, up from 27,388 in 2004, in an analysis of data from the CDC’s National Notifiable Diseases Surveillance System.

Infections in 2016 went up 73 percent from 2015, reflecting the emergence of Zika, which is transmitted by mosquitoes and can cause severe birth defects. Zika was the most common disease borne by ticks, mosquitoes and fleas reported in 2016, with 41,680 cases reported, followed by Lyme disease, with 36,429 cases, almost double the number in 2004.

The increases may be a result of climate change, with increased temperatures and shorter winters boosting populations of ticks, mosquitoes and other disease-carrying creatures known as “vectors.”

“It enables these ticks to expand to new areas. Where there are ticks, there comes diseases,” said Lyle Petersen, director of the CDC’s Division of Vector-Borne Diseases.

Warmer summer temperatures also tend to bring outbreaks of mosquito-borne illnesses, Petersen said.

While Zika stood out as the latest emerging threat in the report, it also showed a long-term increase in cases of tick-borne Lyme disease, which can attack the heart and nervous system if left untreated.

Researchers warned that their numbers likely do not include every case as many infections are not reported.

These increases are due to many factors, including growing populations of the insects that transmit them and increased exposure outside of the United States by travelers who unknowingly transport diseases back home.

The CDC said more than 80 percent of vector-control organizations across the United States lack the capacity to prevent and control these fast-spreading, demanding illnesses. Petersen said that federal programs are increasing funding for those organizations.

(Reporting by Gina Cherelus; editing by Scott Malone and Grant McCool)

Tech companies wage war on disease-carrying mosquitoes

Researcher Ethan Jackson places the Project Premonition mosquito trap in the wild in this handout photo obtained by Reuters June 30, 2017. Microsoft/Handout via REUTERS

By Julie Steenhuysen

CHICAGO (Reuters) – American technology companies are bringing automation and robotics to the age-old task of battling mosquitoes in a bid to halt the spread of Zika and other mosquito-borne maladies worldwide.

Firms including Microsoft Corp and California life sciences company Verily are forming partnerships with public health officials in several U.S. states to test new high-tech tools.

In Texas, Microsoft is testing a smart trap to isolate and capture Aedes aegypti mosquitoes, known Zika carriers, for study by entomologists to give them a jump on predicting outbreaks.

Verily, Alphabet’s life sciences division based in Mountain View, California, is speeding the process for creating sterile male mosquitoes to mate with females in the wild, offering a form of birth control for the species.

While it may take years for these advances to become widely available, public health experts say new players brings fresh thinking to vector control, which still relies heavily on traditional defenses such as larvicides and insecticides. “It’s exciting when technology companies come on board,” said Anandasankar Ray, an associate professor of entomology at the University of California, Riverside. “Their approach to a biological challenge is to engineer a solution.”

SMART TRAPS

The Zika epidemic that emerged in Brazil in 2015 and left thousands of babies suffering from birth defects has added urgency to the effort.

While cases there have slowed markedly, mosquitoes capable of carrying the virus – Aedes aegypti and Aedes albopictus – are spreading in the Americas, including large swaths of the southern United States.

(For a map of U.S. mosquito territory, see http://tmsnrt.rs/2tqlJHa)

The vast majority of the 5,365 Zika cases reported in the United States so far are from travelers who contracted the virus elsewhere. Still, two states – Texas and Florida – have recorded cases transmitted by local mosquitoes, making them prime testing grounds for new technology.

In Texas, 10 mosquito traps made by Microsoft are operating in Harris County, which includes the city of Houston.

Roughly the size of large birdhouses, the devices use robotics, infrared sensors, machine learning and cloud computing to help health officials keep tabs on potential disease carriers.

Texas recorded six cases of local mosquito transmission of Zika in November and December of last year. Experts believe the actual number is likely higher because most infected people do not develop symptoms.

Pregnant women are at high risk because they can pass the virus to their fetuses, resulting in a variety of birth defects. Those include microcephaly, a condition in which infants are born with undersized skulls and brains. The World Health Organization declared Zika a global health emergency in February 2016.

Most conventional mosquito traps capture all comers – moths, flies, other mosquito varieties – leaving a pile of specimens for entomologists to sort through. The Microsoft machines differentiate insects by measuring a feature unique to each species: the shadows cast by their beating wings. When a trap detects an Aedes aegypti in one of its 64 chambers, the door slams shut.

The machine “makes a decision about whether to trap it,” said Ethan Jackson, a Microsoft engineer who is developing the device.

The Houston tests, begun last summer, showed the traps could detect Aedes aegypti and other medically important mosquitoes with 85 percent accuracy, Jackson said.

The machines also record shadows made by other insects as well as environmental conditions such as temperature and humidity. The data can be used to build models to predict where and when mosquitoes are active.

Mustapha Debboun, director of Harris County’s mosquito and vector control division, said the traps save time and give researchers more insight into mosquito behavior. “For science and research, this is a dream come true,” he said.

The traps are prototypes now. But Microsoft’s Jackson said the company eventually hopes to sell them for a few hundred dollars each, roughly the price of conventional traps. The goal is to spur wide adoption, particularly in developing countries, to detect potential epidemics before they start.

“What we hope is (the traps) will allow us to bring more precision to public health,” Jackson said.

SORTING MOSQUITOES WITH ROBOTS

Other companies, meanwhile, are developing technology to shrink mosquito populations by rendering male Aedes aegypti mosquitoes sterile. When these sterile males mate with females in the wild, their eggs don’t hatch.

The strategy offers an alternative to chemical pesticides. But it requires the release of millions of laboratory-bred mosquitoes into the outdoors. Males don’t bite, which has made this an easier sell to places now hosting tests.

Oxitec, an Oxford, England-based division of Germantown, Maryland-based Intrexon Corp, is creating male mosquitoes genetically modified to be sterile. It has already deployed them in Brazil, and is seeking regulatory approval for tests in Florida and Texas.

MosquitoMate Inc, a startup formed by researchers at the University of Kentucky, is using a naturally occurring bacterium called Wolbachia to render male mosquitoes sterile.

One of the biggest challenges is sorting the sexes.

At MosquitoMate’s labs in Lexington, immature mosquitoes are forced through a sieve-like mechanism that separates the smaller males from the females. These mosquitoes are then hand sorted to weed out any stray females that slip through.

“That’s basically done using eyeballs,” said Stephen Dobson, MosquitoMate’s chief executive.

Enter Verily. The company is automating mosquito sorting with robots to make it faster and more affordable. Company officials declined to be interviewed. But on its website, Verily says it’s combining sensors, algorithms and “novel engineering” to speed the process.

Verily and MosquitoMate have teamed up to test their technology in Fresno, California, where Aedes aegypti arrived in 2013.

Officials worry that residents who contract Zika elsewhere could spread it in Fresno if they’re bitten by local mosquitoes that could pass the virus to others.

“That is very much of a concern because it is the primary vector for diseases such as dengue, chikungunya and obviously Zika,” said Steve Mulligan, manager of the Consolidated Mosquito Abatement District in Fresno County.

The study, which still needs state and federal approval, is slated for later this summer.

(Editing by Marla Dickerson)

Puerto Rico declares Zika outbreak over, CDC maintains travel warning

Aedes aegypti mosquitoes are seen at the Laboratory of Entomology and Ecology of the Dengue Branch of the U.S. Centers for Disease Control and Prevention in San Juan, Puerto Rico, March 6, 2016. REUTERS/Alvin Baez/File Photo

By Julie Steenhuysen

(Reuters) – Puerto Rico on Monday declared that the 2016 Zika epidemic is over, saying transmission of the virus that can cause birth defects when pregnant women are exposed has fallen significantly.

About 10 cases of the mosquito-borne disease have been reported in each four-week period since April 2017, down from more than 8,000 cases reported in a four-week period at the peak of the epidemic in August 2016, the Puerto Rico Health Department said in a statement.

The U.S. Centers for Disease Control and Prevention, however, has not changed its travel advice, noting that pregnant women should not travel to Puerto Rico.

The CDC said its travel notice for Puerto Rico remains in place and that it expects the virus will continue to “circulate indefinitely” in most regions where it has been introduced.

The Department of Health and Human Services declaration of a public health emergency in Puerto Rico relating to pregnant women and children born to women with the virus remains in effect, the CDC said in an emailed statement on Tuesday.

On its website, the CDC cites public health reports saying that “mosquitoes in Puerto Rico are infected with Zika virus and are spreading it to people.”

CDC acting Director Dr. Anne Schuchat said in a statement that she is “pleased that the peak of the Zika outbreak in Puerto Rico has come to a close.” However, she said, “We cannot let our guard down.”

Schuchat said CDC will continue to focus on protecting pregnant women and work closely with the Puerto Rican health department to support Zika surveillance and prevention efforts on the island, which is a U.S. territory.

A major outbreak of Zika began in Brazil in 2015 and spread rapidly to dozens of countries. There is no treatment for Zika, but private companies and governments are working on a vaccine.

In addition to Puerto Rico, the CDC has warned of a risk of Zika infection for travelers going to Mexico, Cuba, most of the Caribbean and South America, as well as parts of Africa and Southeast Asia. http://bit.ly/2m50Lf7

Locally transmitted Zika cases have also been reported in Texas and Florida.

(Reporting by Julie Steenhuysen in Chicago; Editing by Lisa Shumaker and Jonathan Oatis)

WHO says India reports cases of Zika virus

FILE PHOTO: Aedes aegypti mosquitoes are seen inside Oxitec laboratory in Campinas, Brazil, on February 2, 2016. REUTERS/Paulo Whitaker/File Photo

NEW DELHI (Reuters) – India has reported cases of the Zika virus, the World Health Organization said, adding that efforts should be made to strengthen surveillance.

The WHO said that on May 15 India’s health ministry reported three confirmed cases from the western state of Gujarat. Cases were detected during testing in February and November last year, while one was detected in January this year, according to the statement, which was released on Friday but did not gain public attention until Saturday.

A federal health ministry official said states were following standard protocols and there was “nothing to worry” about. The ministry had in March cited one confirmed case of Zika – from January of this year in Gujarat – while answering a question in India’s parliament.

“These findings suggest low level transmission of Zika virus and new cases may occur in the future,” the WHO said in the statement on its website.

“Zika virus is known to be circulating in South-East Asia Region and these findings do not change the global risk assessment.”

In its most recent outbreak, Zika, which is mainly a mosquito-borne disease, was identified in Brazil in 2015 and has been spreading globally.

When the virus infects a pregnant woman, it can cause a variety of birth defects including microcephaly, where the baby’s head is abnormally small.

(Reporting by Aditya Kalra; Editing by Tom Lasseter and Andrew Bolton)

Scientists to test whether Zika can kill brain cancer cells

FILE PHOTO - Genetically modified male Aedes aegypti mosquitoes are pictured at Oxitec factory in Piracicaba, Brazil, October 26, 2016. REUTERS/Paulo Whitaker

By Kate Kelland

LONDON (Reuters) – Scientists in Britain plan to harness the Zika virus to try to kill brain tumor cells in experiments that they say could lead to new ways to fight an aggressive type of cancer.

The research will focus on glioblastoma, the most common form of brain cancer, which has a five-year survival rate of barely 5 percent.

Zika causes severe disability in babies by attacking developing stem cells in the brain – but in adults, whose brains are fully formed, it often causes no more than mild flu-like symptoms.

In glioblastoma, the cancer cells are similar to those in the developing brain, suggesting that the virus could be used to target them while sparing normal adult brain tissue.

Experts say existing treatments have to be given at low doses to avoid damaging healthy tissue.

Researchers led by Harry Bulstrode at Cambridge University will use tumor cells in the lab and in mice to assess Zika’s potential.

The mosquito-borne virus has spread to more than 60 countries and territories in a global outbreak that was first identified in Brazil in 2015.

“Zika virus infection in babies and children is a major global health concern, and the focus has been to discover more about the virus to find new possible treatments,” Bulstrode said in a statement.

“We’re taking a different approach, and want to use these new insights to see if the virus can be unleashed against one of the hardest-to-treat cancers …

“We hope to show that the Zika virus can slow down brain tumor growth in tests in the lab,” Bulstrode added. “If we can learn lessons from Zika’s ability to cross the blood-brain barrier and target brain stem cells selectively, we could be holding the key to future treatments.”

(Editing by Louise Ireland and Kevin Liffey)

U.S. Zika vaccine begins second phase of testing

FILE PHOTO: A pair of Aedes albopictus mosquitoes are seen during a mating ritual while the female feeds on a blood meal in a 2003 image from the Centers for Disease Control (CDC). REUTERS/Centers for Disease Control/James Gathany/Handout via Reuters

By Julie Steenhuysen

CHICAGO (Reuters) – Researchers have begun the second phase of testing of a Zika vaccine developed by U.S. government scientists in a trial that could yield preliminary results as early as the end of 2017.

Dr. Anthony Fauci, director of the National Institutes of Allergy and Infectious Diseases (NIAID), said on Friday the $100 million trial has already been funded and will proceed, irrespective of the $7 billion in cuts to the National Institutes of Health (NIH) budget proposed by the Trump Administration over the next 18 months.

In a conference call with reporters, Fauci would not comment on the proposed cuts because it is not clear yet what the actual budget will be. Both Democratic and Republican lawmakers oppose cuts to the NIH, which funds 21 institutes, including NIAID.

NIH Director Dr. Francis Collins is scheduled to speak with President Donald Trump later on Friday. “I will certainly be talking to Francis Collins when he returns from the White House,” Fauci said.

Zika typically causes mild symptoms, but when the virus infects a pregnant women, she can pass it to her fetus, causing a variety of birth defects including microcephaly, in which the baby’s head is abnormally small.

Fauci said the current Zika vaccine candidate had cleared preliminary safety hurdles, and would now enter testing for efficacy, which would occur in two phases.

The first phase will continue testing for safety and evaluate the vaccine’s ability to stimulate the immune system to develop antibodies to fight Zika. It will also test different doses to see which works best.

The second phase, set to begin in June, will attempt to determine if the vaccine can actually prevent Zika infection.

Several companies are developing Zika vaccines, including Sanofi SA, GlaxoSmithKline Plc and Takeda Pharmaceuticals.

In the NIAID study, researchers aim to enroll at least 2,490 healthy volunteers in areas with confirmed or potential active transmission of Zika by mosquitoes. These include parts of the continental United States, Puerto Rico, Brazil, Peru, Costa Rica, Panama and Mexico. They will receive either the vaccine, or a placebo, and be followed for two years.

If enough people are exposed to the virus, Fauci said they could get an effectiveness signal as early as the end of this year. The trial is expected to be completed by 2019.

Fauci said the government is already in discussions with pharmaceutical companies that would share the costs of the final stage of testing and handle manufacturing.

Zika is primarily transmitted by mosquitoes, but it can also be transmitted sexually. According to Centers for Disease Control and Prevention, 5,182 people in the continental United States have been infected by Zika either locally or through travel to places where the virus is spreading. Another 38,303 cases have been reported in U.S. territories, including Puerto Rico.

(Reporting by Julie Steenhuysen; editing by Diane Craft)

Zika risk went beyond Florida’s Miami-Dade County: U.S. officials

A map showing the active Zika zone is on display at the Borinquen Health Care Center in Miami, Florida, U.S. on August 9, 2016. REUTERS/Chris Keane/File Photo

By Julie Steenhuysen

(Reuters) – Local transmission of the Zika virus in Florida may have occurred as early as June 15 of last year and likely infected people who lived not only in Miami-Dade County, but in two nearby counties, U.S. health officials said on Monday.

The warning means that some men who donated semen to sperm banks in the area may not have been aware that they were at risk of infection, and may have donated sperm infected with the Zika virus, officials from the U.S. Centers for Disease Control and Prevention and the Food and Drug Administration told reporters in a telephone briefing.

The information is concerning because Zika has been shown to cause birth defects in women who become infected while pregnant. Previously, the CDC had warned of the risk of Zika in Miami-Dade County, beginning on July 29.

But the new warning dials that risk back to June 15, and adds in both Broward and Palm Beach Counties, home to the major tourist destinations of Fort Lauderdale and Palm Beach.

Zika’s arrival in Florida last summer followed the rapid spread of the mosquito-borne virus through Latin America and the Caribbean.

The World Health Organization last year declared Zika a global health emergency because of its link in Brazil with thousands cases of the birth defect microcephaly, which is marked by small head size and underdeveloped brains that can result in severe developmental problems.

U.S. officials said because of frequent travel between the three Florida counties, some women may have been infected and not been aware of it, either through contracting the infection directly from a mosquito bite while visiting Miami-Dade or through sex with an infected partner who had.

And because Zika has been shown to last up to three months in semen, it may mean some men living in the affected counties may have donated sperm without reporting they were at risk.

CDC Zika expert Dr. Denise Jamieson said the risk applies “particularly (to) women who became pregnant or are planning to become pregnant through the use of donor semen.” She urged these women to “consult their healthcare provider to discuss the donation source and whether Zika virus testing is indicated.”

The new warning came to light through investigations of several cases of Zika reported by the Florida Health Department late last year that suggested residents of Palm Beach or Broward counties may have become infected while traveling back and forth from Miami-Dade. According to the CDC, a total of 215 people are believed to have contracted Zika in Florida last year through the bite of a local mosquito. But since only one in five people infected with Zika become ill, experts believe the actual number was higher.

Officials said they weren’t aware of any women who contracted Zika from infected semen donated to one of the 12 sperm banks in the three-county area. There is no approved test for Zika in sperm.

Jamieson said the CDC does not have any new evidence of local Zika transmission, but said it may occur again in the coming year, adding that the CDC was “on the lookout for additional cases of Zika.”

A recent CDC study estimates that Zika infections cause a twenty-fold spike in the risk of certain birth defects, including microcephaly.

(Reporting by Julie Steenhuysen in Chicago; Editing by Sandra Maler and Mary Milliken)

Texas reports four more cases of Zika spread by local mosquitoes

A woman looks at a Center for Disease Control (CDC) health advisory sign about the dangers of the Zika virus as she lines up for a security screening at Miami International Airport in Miami, Florida,

(Reuters) – Texas health officials said they had identified four additional cases of Zika likely spread by local mosquitoes, two weeks after the first case was reported in the state.

The four patients live in very close proximity to the first case, the Texas Department of State Health Services and Cameron County Department of Health and Human Services said in a statement on Friday.

The first case involved a woman living in Cameron County near the Mexico border, who is not pregnant.

The U.S. Centers for Disease Control and Prevention and the Florida Department of Health said earlier on Friday the Miami Beach area was no longer considered an active Zika transmission zone.

The CDC said there had been no new cases of local Zika virus transmission identified in South Miami Beach for more than 45 days, suggesting that the risk of infection was no longer greater than in the rest of Miami-Dade County.

“Florida no longer has any identified areas with active Zika transmission,” Governor Rick Scott said in a statement.

(Reporting by Subrat Patnaik and Akankshita Mukhopadhyay in Bengaluru; Editing by Ted Kerr and Shounak Dasgupta)

Texas reports first case of Zika likely from local mosquitoes

(Reuters) – Texas officials on Monday reported the state’s first case of the Zika virus that was likely transmitted by a local mosquito, expanding the spread within the continental United States of a virus that has been linked to microcephaly, a rare birth defect.

The case involved a woman living in Cameron County near the Mexico border, the Texas Department of State Health Services said. The state said it currently has no other suspected cases of local transmission.

(Reporting by Letitia Stein; Editing by Andrew Hay)