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 Her idea revolved around mosquito spit.
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."
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.
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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 diseases 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)
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