A child's nose could be better at fighting off COVID-19

Embargoed until: Publicly released: 2022-08-02 11:30

Australia; QLD; WA; NT

Photo by Jeremiah Lawrence on Unsplash

The lining of a child's nose may be better at fighting off COVID-19 than that of an adult's, according to Australian researchers. Searching for reasons why children seem to have better COVID-19 outcomes, the researchers took cell samples of the nasal epithelium (the lining of the nose) from children and adults, and exposed them to COVID-19 variants. They say the original COVID-19 strain and Delta replicated less efficiently in the cells from children and prompted a higher antiviral response, but this was not the case for Omicron. The researchers say this is a small study of just under 40 people and will need to be replicated.

Media release

From: PLOS

Kids’ noses can better fight COVID-19

University of Queensland-led research has found the lining of children’s noses are better at inhibiting SARS-CoV-2 infections than adult noses.

Dr Kirsty Short from UQ’s School of Chemistry and Molecular Biosciences said it might be one reason why children’s immune responses have so far proven more effective at avoiding and fighting COVID-19.

“Children have a lower COVID-19 infection rate and milder symptoms than adults, but the reasons for this have been unknown,” Dr Short said.

“We’ve shown the lining of children’s noses have a more pro-inflammatory response to the ancestral SARS-CoV-2 than adult’s noses.

“But we found it’s a different ball game when it come to the Omicron variant.”

The research team exposed the samples of nasal lining cells from 23 healthy children and 15 healthy adults to SARS-CoV-2.

The results showed the virus replicated less efficiently in the children’s nasal cells, as well as a heightened antiviral response.

Dr Short said there were a number of theories why.

“It could be an adaptation to the increased threats of ‘foreign invaders’ such as viruses or bacteria observed in childhood,” she said.

“It’s also possible that increased exposure to these threats in childhood ‘trains’ the nasal lining in children to mount a stronger pro-inflammatory response.

“Or alternatively, metabolic differences between children and adults could alter how virus-fighting genes express themselves.”

The researchers found the Delta COVID-19 variant was significantly less likely to replicate in the nasal cells of children compared to adults.

But the trend was markedly less pronounced in the case of Omicron.

“Taken together, it shows children’s nasal lining supports lower infection and replication of ancestral SARS-CoV-2, but this may be changing as the virus evolves,” Dr Short said.

“Future clinical studies will be needed to validate these preliminary findings in a larger population and to determine the role of other factors, such as antibodies in protecting children from SARS-CoV-2 infection.”

The research has been published in PLOS Biology (DOI: 10.1371/journal.pbio.3001728).

Attachments

Note: Not all attachments are visible to the general public. Research URLs will go live after the embargo ends.

Research PLOS, Web page

Journal/
conference: PLOS Biology

Research:Paper

Organisation/s: The University of Queensland, Queensland University of Technology (QUT), Edith Cowan University, Telethon Kids Institute, Menzies School of Health Research, The University of Western Australia, Curtin University

Funder: This work is supported by the Australia Research Council (Discovery Early Career Researcher Award DE190100565 to M.J.), The National Health and Medical Research Council (Project grant APP2010917 to F.A.M. and G.B.; Senior research Fellowship APP1155794 to F.A.M; APP1124612 to LL; 2010757 to KYC and LL; NHMRC investigator grant 2007919 to K.R.S.) the Australian Infectious Diseases Research Centre (COVID-19 seed grant to A.A.K) and Academy of Finland and COVID19 research donations (Grant 318434 to G.B.). This program has in part been funded by the Western Australian Future Health Research & Innovation Fund. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Media Contact/s

Contact details are only visible to registered journalists.