Published: 13-11-2020 20:00 | Updated: 17-11-2020 09:25

Baricitinib treatment linked to reduced mortality in COVID-19 patients

Pink pills on blue background

The rheumatoid arthritis drug baricitinib can block viral entry and reduce mortality in patients with moderate to severe COVID-19, according to translational research by an international team coordinated by researchers from Karolinska Institutet in Sweden. The findings, published in the journal Science Advances, support the continuation of ongoing randomized clinical trials.

Volker Lauschke, associate professor at the Department of Physiology and Pharmacology. Photo: Jannis Politidis

“We are pleased to report a 71 percent reduction in mortality for the group receiving baricitinib in addition to standard care,” says Volker Lauschke, corresponding author and associate professor of personalized medicine and drug development at the Department of Physiology and Pharmacology, Karolinska Institutet. “These results are especially encouraging seeing as the study included a large cohort of elderly patients, a group that is often excluded in other trials.”

In the study, 83 patients hospitalized with COVID-19 pneumonia in Italy and Spain were treated with baricitinib in addition to standard care. Of these, 17 percent suffered an adverse outcome that resulted in death or invasive mechanical ventilation. This compared to 35 percent in the matched control group of 83 patients who received standard care only. The patients had a median age of 81 years.

Well tolerated

The drug was generally well tolerated with a reduction in inflammation from the first treatment days, according to the researchers. Previously reported side-effects of long-term baricitinib use, including coagulopathy and thrombosis, were not evident in any of the patients, possibly due to treatment with anti-coagulating medicine. However, some adverse events including bacterial infections and gastrointestinal and cardiovascular complications were noted, although these were also observed in the control group so it is unclear what, if anything, can be ascribed to baricitinib.

In a prior study, the same team of researchers reported how they used artificial intelligence (AI) to identify baricitinib as a promising repurposing candidate for COVID-19. That study also showed how the drug inhibited inflammation and reduced the viral load of SARS-CoV-2.

3D mini livers

In the current study, the researchers elaborated on those findings by demonstrating that interferons, cytokines made and released by host cells in response to viruses, significantly increases the expression of the ACE2 receptor, which acts as an entry point for SARS-CoV-2 into human cells. While liver injury is commonly observed in severe COVID-19, mechanisms and dynamics of SARS-CoV-2 infections had not been investigated in this organ.

By combining 3D mini organs of human liver cells, RNA sequencing and super-resolution microscopy, the scientists were able to show that barcitinib reversed ACE2 gene expression changes triggered by interferons and reduced SARS-CoV-2 infectivity. Interestingly, interferons did not have the same effect on the ACE2 receptor in lung organoids, suggesting that these signaling proteins affect pulmonary and liver organs differently.

Dual actions

Portrait of Ali Mirazimi outdoors in a park.
Ali Mirazimi, adjunct professor at the Department of Laboratory Medicine. Photo: Martin Stenmark

“Our findings explain the dual anti-cytokine and anti-viral actions of baricitinib and support further evaluation in randomized control trials,” says Ali Mirazimi, adjunct professor at the Department of Laboratory Medicine, Karolinska Institutet, and co-author of the study.

The researchers note that a limitation of the study was the lack of a placebo control group, which is included in industry-sponsored randomized controlled trials that are currently ongoing.

The clinical study was led by researchers at Imperial College London, U.K., Complejo Hospitalario Universitario de Albacete, Spain, and the University of Pisa, Italy, while the mechanistic investigations on 3D human tissue models were conducted at Karolinska Institutet.

The research was funded by the Swedish Research Council, the Strategic Research Programmes in Diabetes and Stem Cells and Regenerative Medicine, EU/EFPIA/OICR/McGill/KTH/Diamond Innovative Medicines Initiative, Ricerca Corrente Linea 1 and 3, the National Science Foundation, the National Institutes of Health, the Department of Energy, CIBERFES, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad, España. Ayuda cofinanciada por el Fondo Europeo de Desarrollo Regional FEDER Una Manera de hacer Europa, Imperial BRC, ECMC, the NIHR and AAC.

The authors of the paper have reported several conflicts of interest, including lecture fees and research grants from pharmaceutical companies that own baricitinib. Some of the authors have founded companies that feature technologies mentioned in this study. For a complete list of disclosures, please see the full article.

Facts about baricitinib

  • Baricitinib is a once-daily oral drug used for treatment of adult patients with moderate to severe rheumatoid arthritis.
  • It acts as an inhibitor of janus kinase, a type of enzyme that acts as an “on” or “off” switch in many cellular functions.
  • The drug has dual functions and acts by interfering with the inflammatory processes of the immune system as well as by directly inhibiting viral entry. It is seen as a potential treatment candidate for COVID-19.

Publication

JAK inhibition reduces SARS-CoV-2 liver infectivity and modulates inflammatory responses to reduce morbidity and mortality,” Justin Stebbing, Ginés Sánchez Nievas, Marco Falcone, Sonia Youhanna, Peter Richardson, Silvia Ottaviani, Joanne X. Shen, Christian Sommerauer, Giusy Tiseo, Lorenzo Ghiadoni, Agostino Virdis, Fabio Monzani, Luis Romero Rizos, Francesco Forfori, Almudena Avendaño Céspedes, Salvatore De Marco, Laura Carrozzi, Fabio Lena, Pedro Manuel Sánchez-Jurado, Leonardo Gianluca Lacerenza, Nencioni Cesira, David Caldevilla Bernardo, Antonio Perrella, Laura Niccoli, Lourdes Sáez Méndez, Daniela Matarrese, Delia Goletti, Yee-Joo Tan, Vanessa Monteil, George Dranitsaris, Fabrizio Cantini, Alessio Farcomeni, Shuchismita Dutta, Stephen K. Burley, Haibo Zhang, Mauro Pistello, William Li, Marta Mas Romero, Fernando Andrés Pretel, Rafaela Sánchez Simón-Talero, Rafael García-Molina, Claudia Kutter, James H. Felce, Zehra F. Nizami, Andras G. Miklosi, Josef M. Penninger,Francesco Menichetti, Ali Mirazimi, Pedro Abizanda and Volker M. Lauschke, Science Advances, online November 13, 2020, doi: 10.1126/sciadv.abe4724