by Anglia Ruskin University
Credit: Pixabay/CC0 Public Domain
Promising trial results indicate that a new type of cell therapy could improve the prognosis of those who are critically ill with acute respiratory distress syndrome (ARDS) resulting from severe COVID-19.
The findings are published in the journal Nature Communications. Professor Justin Stebbing of Anglia Ruskin University (ARU) is the joint senior author of the new study investigating the use of agenT-797, MiNK Therapeutic’s allogeneic, unmodified invariant natural killer T (iNKT) cell therapy.
The iNKT cell therapy has the effect of rescuing exhausted T cells and prompting an anti-inflammatory cytokine response, potentially activating anti-viral immunity to help these patients fight infection as well as to reduce severe, pathogenic inflammation of the lung.
The new research was carried out at three medical centers and found that agenT-797, which is also under investigation in cancer trials, could be manufactured rapidly, had a tolerable safety profile, and appeared to have a positive effect on mortality among critically unwell COVID-19 ARDS patients receiving intensive care.
The exploratory trial included 20 mechanically ventilated patients with severe ARDS secondary to COVID-19. Of the 20 patients in the trial, 14 survived (70%) at 30 days (compared to a control group of 10%), and there was an 80% lower occurrence of bacterial pneumonia among those who received the highest dosage of agenT-797, compared to those who received fewer cells.
Twenty-one patients were treated overall (the main trial, plus one under compassionate use), which included five who were also receiving veno-venous extracorporeal membrane oxygenation (VV-ECMO), known as “the most aggressive salvage therapy” for critically ill patients with ARDS. In VV-ECMO, deoxygenated blood is pumped through a membrane lung and returned to the body via a cannula.
This trial is believed to be the first immune cell therapy of any type to be used in critically unwell patients undergoing VV-ECMO. Survival of the VV-ECMO cohort was 80% after 30 and 90 days, and 60% after 120 days. This compares favorably to overall survival of 51% for patients with COVID-19 who were treated with just VV-ECMO at the same institution, during the same timeframe.
Professor Stebbing said, “During this small, exploratory study, we observed that MiNK’s iNKT cell treatment, which is also being advanced for people with cancer, triggered an anti-inflammatory response in ARDS patients.
“Despite a poor prognosis, critically ill patients treated with this therapy showed favorable mortality rates and those treated at the highest dose also had reduced rates of pneumonia, underscoring the potential application of iNKT cells, and agenT-797 in particular, in treating viral diseases and infections more broadly.
“AgenT-797 was manufactured rapidly and as opposed to using patients’ own cells, it is ‘off-the-shelf’ and made from healthy donors’ cells. The potential of this therapy to be used across a number of severe infections warrants randomized controlled trials.”
Dr. Marc van Dijk, Chief Scientific Officer at MiNK and co-author of the study, said, “These published findings reinforce the unique power and potential of iNKT cells to mitigate severe acute respiratory distress. The data demonstrate agenT-797’s encouraging survival benefit, ability to help clear secondary infections, and tolerable administration in ventilated patients and those on VV-ECMO support.”
More information: A phase 1/2 clinical trial of invariant natural killer T cell therapy in moderate-severe acute respiratory distress syndrome, Nature Communications (2024). DOI: 10.1038/s41467-024-44905-z
Journal information: Nature Communications
Provided by Anglia Ruskin University
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