Natural antibodies could make the flu vaccine more powerful

Natural antibodies generated after infection could make flu vaccines more powerful by reducing person-to-person transmission.
New research suggests that incorporating these antibodies, particularly neuraminidase (NA), into future vaccines could add an important layer of community protection.
NA plays a key role in lowering infection risk and reducing how contagious someone becomes when infected, making it a crucial component for more effective vaccines.
Modifying vaccines to include NA antibodies provides an extra layer of defense, especially important for infants, immunocompromised individuals, and those who can’t mount strong vaccine responses.
The study’s findings could lead to improved vaccine designs that provide stronger and longer-lasting protection against the flu, which infects upwards of one billion people globally each year.

A person wearing a blue glove holds a syringe.

Today’s influenza vaccines primarily prevent infection in individuals, but new research suggests that incorporating antibodies generated after infection could lead to more powerful vaccines by also reducing person-to-person transmission.

Future vaccines that boost the antibodies—neuraminidase, or NA, in particular, along with HA head and HA stalk (HA stands for hemagglutinin)—may add an important layer of community protection, the researchers say.

“NA is a part of the influenza virus that has been relatively overlooked in vaccine design yet they play a key role not only in lowering infection risk but also in reducing how contagious someone becomes when infected,” says Aubree Gordon, co-senior study author and director of the Michigan Center for Infectious Disease Threats and Pandemic Preparedness.

The study is published in the journal Nature Communications and was funded by the National Institutes of Health in the US. It comes amid warnings of a severe flu season ahead and as the first deaths of the 2025-2026 flu season are being recorded in the Northern Hemisphere. Influenza infects upwards of one billion people and leads to some 650,000 deaths globally each year. Lost productivity and hospitalizations due to the flu also result in major economic loss and burden.

“Modifying vaccines to include NA antibodies provides an extra layer of defense that’s especially important for infants, immunocompromised individuals, and others who can’t mount strong vaccine responses,” says Gordon, an epidemiologist from the School of Public Health. “This could also be very important if we were to have an influenza pandemic.”

She helped lead a multinational research team that followed 171 Nicaraguan households and their 664 contacts over three influenza seasons—2014, 2016, 2017. Almost all of the participants had never been vaccinated, allowing researchers to observe transmission patterns driven primarily by antibodies from infection.

Through bloodwork, virologic testing, and the power of mathematical modeling, the researchers identified which antibodies were most effective at limiting spread.

Senior coauthor Simon Cauchemez, epidemiologist and infectious disease modeler from Institut Pasteur and its Mathematical Modelling of Infectious Diseases Unit, says the detailed household data and modeling methods let the researchers chart and document how the antibodies reacted and which were most powerful in keeping an infected person from spreading the flu to people they came into contact with.

“Understanding which factors drive the spread of influenza is essential to design more effective control strategies but often challenging. Here, we were able to obtain such insight thanks to the analysis of very detailed data documenting influenza transmission in households with state-of-the-art modelling techniques,” Cauchemez says.

Very few people in the study were vaccinated, giving the researchers watch how immunity, primarily from prior infection, impacts the chances you’ll get influenza and whether you spread it to others. It’s an important distinction because people who get influenza can be strongly protected against that same type of influenza for many years while vaccines to influenza tend to provide moderate protection for less than a year.

“By studying immunity after infection,” the authors write, “we can identify which antibody responses are most protective and translate those insights into improved vaccine designs that provide stronger and longer-lasting protection.”

Additional coauthors are from the University of Michigan; Institut Pasteur and Sorbonne Universite; Sustainable Sciences Institute and Centro de Salud Sócrates Flores Vivas, Ministry of Health, both in Managua, Nicaragua; Laboratorio Nacional de Virología, Centro, Nacional de Diagnóstico y Referencia, Ministry of Health, Managua, Nicaragua; Icahn School of Medicine; the Center for Vaccine Research and Pandemic Preparedness; and Ignaz Semmelweis Institute.

Source: University of Michigan

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Q. What is the main goal of incorporating natural antibodies into flu vaccines?

A. To make the vaccine more powerful by also reducing person-to-person transmission.

Q. Which part of the influenza virus has been relatively overlooked in vaccine design, but plays a key role in lowering infection risk and reducing contagiousness?

A. Neuraminidase (NA).

Q. Who is particularly important to consider when designing flu vaccines that include NA antibodies?

A. Infants, immunocompromised individuals, and others who cannot mount strong vaccine responses.

Q. What was the method used by researchers to identify which antibodies were most effective at limiting spread of the flu?

A. Bloodwork, virologic testing, and mathematical modeling.

Q. How did the researchers obtain detailed data on influenza transmission in households?

A. Through a study involving 171 Nicaraguan households and their 664 contacts over three influenza seasons.

Q. What is an important distinction between immunity from prior infection and vaccine-induced protection against flu?

A. People who get influenza can be strongly protected against that same type of influenza for many years, while vaccines tend to provide moderate protection for less than a year.

Q. Why is understanding which factors drive the spread of influenza essential for designing effective control strategies?

A. It allows researchers to design more targeted and effective interventions.

Q. What was the funding source for the study published in Nature Communications?

A. The National Institutes of Health (NIH) in the US.

Q. How many people are infected with the flu each year, according to the article?

A. Upwards of one billion people globally.

Q. What is a major economic loss and burden associated with the flu?

A. Lost productivity and hospitalizations due to the flu.