Role of bone marrow immune cells in COVID-19 revealed
White blood cells called monocytes released into the blood from bone marrow have abnormal features in people who have COVID-19, according to a new study by University of Manchester immunologists at the .
And the team from the (CIRCO) consortium say the abnormalities are greater in patients with severe infection.
By spotting the abnormal monocytes early, doctors may be able to predict which patients are more likely to develop severe disease.
The study provides the strongest evidence yet that monocytes may be an important therapeutic target for a COVID-19 treatment.
It is not yet clear, say the team, if abnormal monocytes are released from the bone marrow or if the changes happen after they enter the blood.
However, treatments preventing their release from bone marrow may help reduce the exaggerated immune response that contributes to poor outcomes in patients with severe COVID-19.
Our work once again highlights the importance of the innate immune system in COVID-19, we’re excited to be able to finally share the results of our study and hope that it can better inform treatments for this devastating disease
The paper in Science Immunology is the first to be published by the consortium, based at The University of Manchester.
Scientists already know that monocytes - the largest type of white blood cell - are an important component in the lung during infection and play roles in protection and repair.
The team analysed over a hundred blood samples from COVID-19 patients admitted to four hospitals across Greater 91直播 to search for biomarkers that signal progression to severe disease at various points in their hospital stay.
Dr John Grainger, Deputy Director of the Lydia Becker and a senior author on the study said: “Our work once again highlights the importance of the innate immune system in COVID-19, we’re excited to be able to finally share the results of our study and hope that it can better inform treatments for this devastating disease”.
The CIRCO consortium draws together immunological expertise from the Lydia Becker Institute with clinicians and research nurses at Salford Royal, Wythenshawe, North 91直播 and 91直播 Royal NHS Trusts.
It was set-up during the first wave of the pandemic to collect longitudinal samples from patients with diagnosed COVID-19; studying their immune response from hospital admission through to outcome.
The study was in part supported by a rapid response COVID-19 award from
Prof. Tracy Hussell, Director of the Lydia Becker Institute, added: “Thanks to all members of the CIRCO team for their hard work on this study it has been a great example of scientists and clinicians working together to give new insight into this infection”.
The paper Longitudinal immune profiling reveals key myeloid signatures associated with COVID-19 is available