Hidden protein linked to severe COVID-19 and lung disease risk
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A genetic difference carried by nearly one in three people may increase the risk of severe COVID-19 and lung fibrosis by disrupting the function of a previously unknown protein, according to a new study published in Nature Communications.
Researchers found that the genetic variant alters a newly discovered enzyme found in lung tissue, revealing a hidden biological pathway that could help explain why some people are more susceptible to serious lung disease.
The findings add to growing evidence that the human genome contains many previously overlooked proteins that may have important roles in health and disease, experts say.
Researchers add that understanding where these proteins are found in the body, how they change during disease and how genetic variation affects their function could help explain the causes of disease, improve diagnosis and reveal new targets for treatment.
The human genome contains around 20,000 genes, many of which can produce more than one protein. Some of these proteins are specific to particular tissues or diseases, but many have remained unknown until recently.
As a result, genetic differences affecting these proteins have often been overlooked, limiting scientists' understanding of how inherited genetic variation contributes to disease.
Researchers from the University of Edinburgh, with partners at the University of Sydney, investigated how genetic differences associated with both rare diseases and common conditions affect these newly identified proteins.
They found that many genetic variants previously thought not to affect proteins can, in fact, alter the structure and function of these newly discovered molecules. These variants had remained hidden within poorly understood regions of the genome, limiting understanding of how they contribute to disease.
To better understand the role of these proteins, the team developed a new method to measure their abundance within cells. The new method allows researchers to make measurements even at very low quantities in cells.
The researchers focused on a newly identified enzyme found in lung tissue. This enzyme is linked to infections, inflammation and lung cancer. They found that the variant changes the function of the enzyme and alters its response to a drug, providing new insight into how genetic differences may influence both disease risk and treatment response.
The team also identified similar genetic changes affecting newly discovered proteins that may influence vitamin D levels and contribute to kidney or heart disease. Some of these variants are common, affecting nearly 50% of the population, but are likely to have only modest effects on disease risk. Others are extremely rare—affecting as few as one in a million people—but are thought to cause more severe forms of disease.
Experts say the findings suggest that many disease-associated genetic variants may act through proteins that have only recently been recognized, opening new opportunities to improve diagnosis and identify therapeutic targets.
Dr. Simon Biddie, of the University of Edinburgh's Institute of Genetics and Cancer, said, "For decades, we have interpreted genetic variation through the lens of the proteins we knew existed.
"Our findings show that many genetic changes linked to disease may actually act through previously hidden proteins that have only recently come to light. Understanding these proteins could transform how we diagnose genetic diseases and identify new targets for treatment."
Professor Mark Gorrell, of the Centenary Institute and the University of Sydney, who first discovered the enzyme and was part of the team for this study, said, "This new research both explains the association of the enzyme with lung diseases and opens up new avenues to understand this enzyme in disease and help us devise potential therapies."
Publication details
Giovanna Weykopf et al, Disease-associated genetic variants can cause missense effects in tissue-specific protein isoforms, Nature Communications (2026). DOI: 10.1038/s41467-026-74280-w
Journal information: Nature Communications
Key medical concepts
Pulmonary FibrosisCOVID-19 (Coronavirus Disease 2019)Genetic VariationKidney Diseases
Clinical categories
Pulmonary medicineClinical geneticsInfectious diseasesCommon illnesses & Prevention Provided by University of Edinburgh Who's behind this story?
Sadie Harley
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