New Trick for Old Drug: Protecting Against COVID-19 Lung Damage and Blood Clots

COVID-19 Patient Lung Damage

CT scan of patient’s lungs showing COVID-19 damage in red. Credit: Gerlig Widmann and team, Department of Radiology, Medical University of Innsbruck

An FDA-approved drug that has been in clinical use for more than 70 years may protect against lung injury and the risk of blood clots in severe COVID-19 and other disorders that cause immune-mediated damage to the lungs, according to a preclinical study from researchers at Weill Cornell Medicine and Cold Spring Harbor Laboratory.

The researchers, whose report was published on February 8, 2022, in JCI Insight, found that the drug disulfiram protected rodents from immune-mediated lung injury in two separate models of this type of injury: infection with the SARS-CoV-2 coronavirus that causes COVID-19, and a lung failure syndrome called TRALI that in rare cases occurs after blood transfusion.

“As we learn more about the underlying biology of these lung injuries, we may be able to specifically target the processes that are damaging the lung tissue,” said senior co-author Dr. Robert Schwartz, an associate professor of medicine in the Division of Gastroenterology and Hepatology at Weill Cornell Medicine and a hepatologist at NewYork-Presbyterian Hospital/Weill Cornell Medical Center.

Both types of lung injury are now known to be driven in part by immune cells’ formation of web-like structures called neutrophil extracellular traps, or NETs. These can trap and kill infectious organisms, but can also be harmful to lung tissue and blood vessels, causing the accumulation of fluid in the lungs (edema) and promoting the development of blood clots. Disulfiram blocks one of the steps in NETs formation.

Neutrophil Extracellular Trap (NET)

A high resolution microscopic image of a neutrophil extracellular trap (NET). Neutrophils (colored green) are white blood cells that help the immune system fight off invaders. Neutrophils can commit suicide and spill out DNA and chemical signals into a sticky network of filaments (colored yellow). These networks or NETs can recruit additional neutrophils. Having too many neutrophils can lead to tissue damage. Credit: Jose M. Adrover/Egeblad lab/CSHL, 2022

The study was a collaboration between Dr. Schwartz’s research group and a group led by Dr. Mikala Egeblad, professor and cancer center co-leader at Cold Spring Harbor Laboratory.

Serendipity has attached to disulfiram almost from the start of its history as a medicine. The compound was originally used in the production of rubber, and was later investigated as an anti-parasite treatment. Incidental observations that people taking it became mildly sick whenever they drank alcohol led to its FDA approval in 1951 as a deterrent to alcohol consumption for people with alcohol use disorder.

Scientists found in 2020 that disulfiram also inhibits part of the inflammatory process that can lead to NET formation by white blood cells called neutrophils. The finding prompted the testing of disulfiram as a NET blocker. “NETs will damage the tissue, but since disulfiram interferes with gasdermin D, a molecule needed to produce NETs, no NETs are formed after disulfiram treatment,” Dr. Egeblad said.

After confirming in lab-dish experiments that disulfiram does greatly reduce the formation of NETs by human and mouse neutrophils, the researchers tested it in models of TRALI and COVID-19, two diseases that are known to feature extensive neutrophil invasion of the lungs, NET formation and often fatal lung damage.

In a mouse model of TRALI, disulfiram treatment a day before and then again three hours before induction of the syndrome allowed 95 percent of the animals to survive, compared to just 40 percent of those not treated with the drug. The findings showed that disulfiram, apparently by reducing NET formation, blocked the progressive damage to lung tissue and vessels that occurred in untreated mice, and in so doing allowed lung function to stabilize and recover relatively quickly after initial damage. By contrast, an inhaled drug called DNase 1, which has been investigated as a potential TRALI treatment, had no significant effect in improving the mouse survival rate even when administered minutes before TRALI induction.

In earlier collaborative work published in the Journal of Experimental Medicine, autopsy results suggested that NETs were present in severe COVID-19 patients and raised a novel possibility.

“Currently there aren’t any good treatment options for COVID-related lung injury, so disulfiram appears to be worth investigating further in this regard, particularly in severe COVID-19 patients,” Dr. Schwartz said.

Next the researchers tested disulfiram in a golden hamster model of COVID-19. This form of COVID-19 is less severe than what is seen in the worst human cases, but disulfiram treatment a day before or a day after infection with SARS-CoV-2 led to clearly favorable outcomes: less NET formation, less scar-like tissue formation (fibrosis) in the lungs, and gene activity changes suggesting a significant reduction in the harmful inflammatory response without impairment of antiviral immunity.

By comparison, the standard severe-COVID-19 treatment dexamethasone, an immune-suppressing steroid drug, did less to protect lung tissue from disease-related changes, and led to higher levels of SARS-CoV-2 in the lungs.

“Disulfiram’s strong inhibitory effect on NET formation and its improvement of disease outcomes in different rodent models highlight the potential for its use and for the future development of even better inhibitors of NET formation in a variety of diseases,” Dr. Schwartz said. Other researchers have begun small clinical trials of disulfiram in COVID-19 patients, although the results of those trials have not yet been published, he noted.

For more on this research, see FDA-Approved Drug Halts Immune Reactions To Save Damaged Lungs – May Treat Severe COVID-19.

Reference: “Disulfiram inhibits neutrophil extracellular trap formation protecting rodents from acute lung injury and SARS-CoV-2 infection” by Jose M. Adrover, Lucia Carrau, Juliane Daßler-Plenker, Yaron Bram, Vasuretha Chandar, Sean Houghton, David Redmond, Joseph R. Merrill, Margaret Shevik, Benjamin R. tenOever, Scott K. Lyons, Robert E. Schwartz and Mikala Egeblad, 8 February 2022, JCI Insight.
DOI: 10.1172/jci.insight.157342

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