Prior Hookworm Infection Could Offer Protection from Severe COVID-19 Symptoms

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08/15/2023

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Prior infection by a parasitic hookworm has been shown to protect mice from severe SARS-CoV-2 disease, offering a potential explanation as to why certain human populations seemed to fare better during the height of the COVID-19 pandemic.

"This work stemmed from an observation that certain regions in the world didn't fare as badly from the early days of the pandemic as you would expect," says Malaghan Institute Postdoctoral Research Fellow Dr. Kerry Hilligan who collaborated with colleagues at the National Institutes of Health, U.S., on the study, recently published in Science Immunology.

"Countries throughout Africa and Asia were reporting fewer cases of severe infections, such as hospitalizations or death, much less than the rest of the world. This was the case even when accounting for some confounding factors in the data and lower reporting rates."

"What's interesting is that these regions strongly correlate or overlap with areas where hookworm infections are endemic—consistently present within the population. We think that perhaps this endemic infection by hookworms is causing a population-wide 'interference' in the establishment of more severe SARS-CoV-2 viral infections."

"Infection interference" is a term used to describe the observation that in some cases people don't get sick from more than one infectious organism at a time. This was first described for viruses in the 1960s, where it was observed that one viral infection can be accompanied by a small grace period before a person can catch something new.

Most recently we've seen this effect in the COVID pandemic, where it is thought that people recovering from a SARS-CoV-2 infection have a few weeks of relative immunity from the other respiratory viruses (RSV, influenza) before they become susceptible again. The reasons for this phenomenon aren't yet fully understood, but are of particular interest to Dr. Hilligan.

"It's generally accepted that as an infection activates and stimulates the immune system, there's the additional benefit of this stimulation excluding or preventing other organisms from gaining a toe hold," says Dr. Hilligan. "What is really interesting to explore is that this effect seems to hold true regardless if it's a virus, bacteria or a parasite in the case of COVID-19.

"What my collaborators Dr. Oyebola Oyesola, Dr. P'ng Loke and Dr. Alan Sher at the National Institutes of Health and I wanted to know is whether we could test this effect in relation to the current pandemic and whether we'd see similar protective effects."

The study looked at hookworm infection in the lungs of mice, as their immune system and cell biology closely mirrors our own. The collaboration found that the mice infected with hookworm were less likely to develop severe COVID symptoms and recovered from the infection much more quickly than their counterparts, even after the worms were cleared from the body.

Looking more closely at what was going on at a cellular level, the study observed that the hookworms were affecting a transformational change to specific type of lung-resident immune cells called macrophages.

"Post-helminth infection we could see a stark difference at the transcriptomic level—the level at which different genes are switched on or off—between macrophages that have been exposed to helminth infection and those that haven't," says Dr. Hilligan.

The result was that these helminth-affected macrophages were much better at raising the alarm to other infectious threats—in this case the COVID-19 virus. They did this by secreting specific chemical compounds that recruit other immune cells called CD8 T-cells, which specialized in removing viruses, to the site of the infection much faster than the control group.

"We found the recruitment for these CD8 T-cells, which are essential for viral responses, were boosted. Thanks to these modified macrophages, the T-cells came into infected tissue faster and cleared infection faster, which resulted in much less severe disease symptoms.

"What's more, this effect seems to be long-lasting, with the macrophages retaining this very strong ability to recruit and activate CD8 T-cells long after the hookworm has been cleared from the body."

While the research is preclinical and yet to be translated to humans, the researchers are currently focused on better understanding these macrophages and what the hookworms are doing to them to drive such a change in behavior.

"Looking forward we want to understand the signals that bring in these T-cells to the lung. Leading on from that, we want to understand more about what the worm is doing to create these specialized macrophages, and whether we can replicate this effect, without the need for the worm as an intermediary."

More information: Oyebola O. Oyesola et al, Exposure to lung-migrating helminth protects against murine SARS-CoV-2 infection through macrophage-dependent T cell activation, Science Immunology (2023). DOI: 10.1126/sciimmunol.adf8161

Citation: Prior hookworm infection could offer protection from severe COVID-19 symptoms (2023, August 14) retrieved 14 August 2023 from https://medicalxpress.com/news/2023-08-prior-hookworm-infection-severe-covid-.html

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