Whooping cough, a once-controlled childhood disease, is making a troubling comeback in recent years. Researchers at the University of Texas have discovered a promising approach to enhance vaccine effectiveness by targeting two powerful antibodies that neutralize the dangerous pertussis toxin. The breakthrough could lead to more robust vaccines and potentially help protect infants who are most vulnerable to severe symptoms. This research offers hope for reducing the impact of a disease that continues to pose significant risks to children's health.
April 08, 2025
Whooping cough vaccines get a booster by targeting 2 powerful antibodies
"Our findings could be incorporated into future
versions quite easily" - Jennifer Maynard, UT Professor
New research from The University of Texas (UT) at
Austin in the US could aid in improving whooping cough vaccines, to push this
disease toward eradication by targeting two key weaknesses in the infection.
Key Points
1
Whooping cough resurging after pandemic vaccine coverage decline
2 Two key
antibodies discovered to neutralize dangerous pertussis toxin
3 Research
aims to improve vaccine effectiveness and protection
4 New
approach targets most vulnerable sites on bacterial toxin
Whooping cough, or pertussis, was once a leading
cause of death for children in the US and worldwide before the introduction of
vaccines in the 1940s.
But the disease has made a troubling comeback in
recent years as vaccine coverage declined after the Covid-19 pandemic.
In 2024, several outbreaks left public health
officials and hospitals scrambling to accommodate a sudden influx of patients,
primarily infants, who are often too young to be vaccinated and suffer the most
severe symptoms.
Now, a team of researchers, including members of
UT’s McKetta Department of Chemical Engineering and Department of Molecular
Biosciences, has made significant strides in understanding and enhancing
pertussis immunity.
One of the things that makes pertussis infections
dangerous is pertussis toxin (PT), a chemical weapon produced by the bacteria
that weakens a patient’s immune response and causes many of the severe symptoms
associated with whooping cough.
The new research, described in a new study published
in the Proceedings of the National Academy of Sciences, focuses on two powerful
antibodies, hu11E6 and hu1B7, which neutralise the PT in different ways.
“There are currently several promising new pertussis
vaccines in the research and clinical trial phases,” said Jennifer Maynard,
professor of chemical engineering at the Cockrell School of Engineering and
corresponding author of the new study. “Our findings could be incorporated into
future versions quite easily, improving overall effectiveness and longevity of
protection.”
Training the immune system to target the most
vulnerable sites on the toxin is expected to create more effective vaccines,
and the more effective and longer-lasting a vaccine is, hopefully, the more
people will take it, said Maynard.
In addition to helping guide future vaccine designs,
the hu1B7 and hu11E6 antibodies themselves hold promise as therapeutic
medicines for infected and high-risk infants.
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