Promising At-Home Treatment for COVID-19 Discovered: FDA Approved Drug for Leprosy

Laura Martin-Sancho

Testing in the lab at Sanford Burnham Prebys Medical Discovery Institute. Credit: Sanford Burnham Prebys Medical Discovery Institute

Phase 2 clinical trial could begin immediately for clofazimine, an FDA-approved drug on WHO’s List of Essential Medicines.

A Nature study authored by scientists at Sanford Burnham Prebys Medical Discovery Institute and the University of Hong Kong shows that the leprosy drug clofazimine, which is FDA-approved and on the World Health Organization’s List of Essential Medicines, exhibits potent antiviral activities against SARS-CoV-2 and prevents the exaggerated inflammatory response associated with severe COVID-19. Based on these findings, a Phase 2 study evaluating clofazimine as an at-home treatment for COVID-19 could begin immediately.

“Clofazimine is an ideal candidate for a COVID-19 treatment. It is safe, affordable, easy to make, taken as a pill, and can be made globally available,” says co-senior author Sumit Chanda, Ph.D., professor and director of the Immunity and Pathogenesis Program at Sanford Burnham Prebys. “We hope to test clofazimine in a Phase 2 clinical trial as soon as possible for people who test positive for COVID-19 but are not hospitalized. Since there is currently no outpatient treatment available for these individuals, clofazimine may help reduce the impact of the disease, which is particularly important now as we see new variants of the virus emerge and against which the current vaccines appear less efficacious.”

Virologist Sumit Chanda

Sumit Chanda, Ph.D., a professor at Sanford Burnham Prebys Medical Discovery Institute, gestures to experimental assays that test for compounds that may treat COVID-19. Credit: Sanford Burnham Prebys Medical Discovery Institute

Promising candidate revealed by screening drug library

Clofazimine was initially identified by screening one of the world’s largest collections of known drugs for their ability to block the replication of SARS-CoV-2. Chanda’s team previously reported in Nature that clofazimine was one of 21 drugs effective in vitro, or in a lab dish, at concentrations that could most likely be safely achieved in patients.

In this study, the researchers tested clofazimine in hamsters–an animal model for COVID-19–that were infected with SARS-CoV-2. The scientists found that clofazimine lowered the amount of virus in the lungs, including when given to healthy animals prior to infection (prophylactically). The drug also reduced lung damage and prevented “cytokine storm,” an overwhelming inflammatory response to SARS-CoV-2 that can be deadly.

“The animals that received clofazimine had less lung damage and lower viral load, especially when receiving the drug before infection,” says co-senior author Ren Sun, Ph.D., professor at the University of Hong Kong and distinguished professor emeritus at the University of California, Los Angeles (UCLA). “Besides inhibiting the virus, there are indications that the drug also regulates the host response to the virus, which provides better control of the infection and inflammation.”

Clofazimine also worked synergistically with remdesivir, the current standard-of-care treatment for people who are hospitalized due to COVID-19, when given to hamsters infected with SARS-CoV-2. These findings suggest a potential opportunity to stretch the availability of remdesivir, which is costly and in limited supply.

Sumit Chanda

Sumit Chanda, Ph.D., director and professor at Sanford Burnham Prebys Medical Discovery Institute and senior author of the study. Credit: Sanford Burnham Prebys Medical Discovery Institute

How clofazimine works

The study showed that clofazimine stops SARS-CoV-2 infection in two ways: blocking its entry into cells and disrupting RNA replication (SARS-CoV-2 uses RNA to replicate). Clofazimine was able to reduce the replication of MERS-CoV, the coronavirus that causes Middle East Respiratory Syndrome (MERS), in human lung tissue.

“Potentially most importantly, clofazimine appears to have pan-coronavirus activity, indicating it could be an important weapon against future pandemics,” says co-senior author Kwok-Yung Yuen, M.D., chair of Infectious Diseases at the University of Hong Kong, who discovered the coronavirus that causes severe acute respiratory syndrome (SARS). “Our study suggests that we should consider creating a stockpile of ready-made clofazimine that could be deployed immediately if another novel coronavirus emerges.”

In July 2020 Sumit Chanda shared more about his team’s race to find a treatment for COVID-19:


The Chanda Lab at Sanford Burnham Prebys Medical Discovery Institute worked very quickly to screen nearly 12,000 compounds—already tested in humans—to find a drug that can slow or stop SARS-CoV-2. The approach is likely the fastest path to a treatment for COVID-19 (novel coronavirus). The effort is part of an international collaboration to respond to this public health crisis.

Testing clofazimine in the clinic

A Phase 2 trial evaluating clofazimine in combination with interferon beta-1b as a treatment for people with COVID-19 who are hospitalized is ongoing at the University of Hong Kong. Interferon beta-1b is an immunoregulator that is given as an injection and is currently used to treat people with multiple sclerosis.

“Our data suggests that clofazimine should also be tested as a monotherapy for people with COVID-19, which would lower many barriers to treatment,” says Chanda. “People with COVID-19 would be able to simply receive a regime of low-cost pills, instead of traveling to a hospital to receive an injection.”

Old drug finds new purpose

Clofazimine was discovered in 1954 and is used to treat leprosy. Its promise for treating COVID-19 was discovered by high-throughput screening of more than 12,000 drugs from the ReFRAME drug library–one of the most comprehensive collections of compounds that have been approved by the FDA for other diseases or that have been tested extensively for human safety. ReFRAME was created by Calibr, the drug discovery division of Scripps Research, with support from the Bill & Melinda Gates Foundation, with a goal of repurposing existing drugs to meet unmet clinical needs.

A global effort

The co-senior and co-corresponding study authors are Sumit Chanda of Sanford Burnham Prebys; Ren Sun of the University of Hong Kong and the University of California Los Angeles; and Kwok-Yung Yuen of the University of Hong Kong. The first authors of the study are Shuofeng Yuan, Xiangzhi Meng, Jasper Fuk-Woo Chan and Zi-Wei Ye of the University of Hong Kong; and Xin Yin of Sanford Burnham Prebys, who contributed equally to the study.

Additional study authors include Laura Riva, Lars Pache, Naoko Matsunaga and Yuan Pu of Sanford Burnham Prebys; Chris Chun-Yiu Chan, Pok-Man Lai, Chris Chung-Sing Chan, Vincent Kwok-Man Poon, Andrew Chak-Yiu Lee, Chun-Kit Yuen, Jianli Cao, Ronghui Liang, Kaiming Tang, Wan Xu, Chit-Ying Lau, Ko-Yung Sit, Wing-Kuk Au, Runming Wang, Kong-Hung Sze, Anna Jinxia Zhang, Hin Chu, Kin-Hang Kok, Ivan Fan-Ngai Hung, Ronald Adolphus Li, Honglin Chen, Hongzhe Sun and Dong-Yan Jin of the University of Hong Kong; Yu-Yuan Zhang, Yan-Dong Tang and Xue-Hui Cai of the Chinese Academy of Agricultural Sciences; Thomas Mandel Clausen and Jessica Pihl of the University of California San Diego (UCSD) and University of Copenhagen; Juntaek Oh, Dong Wang and Jeffrey D. Esko of UCSD; Li Sheng of University of Hong Kong and University of California Los Angeles; and Yushen Du of UCLA.

Reference: “lofazimine broadly inhibits coronaviruses including SARS-CoV-2” by Shuofeng Yuan, Xin Yin, Xiangzhi Meng, Jasper Fuk-Woo Chan, Zi-Wei Ye, Laura Riva, Lars Pache, Chris Chun-Yiu Chan, Pok-Man Lai, Chris Chung-Sing Chan, Vincent Kwok-Man Poon, Andrew Chak-Yiu Lee, Naoko Matsunaga, Yuan Pu, Chun-Kit Yuen, Jianli Cao, Ronghui Liang, Kaiming Tang, Li Sheng, Yushen Du, Wan Xu, Chit-Ying Lau, Ko-Yung Sit, Wing-Kuk Au, Runming Wang, Yu-Yuan Zhang, Yan-Dong Tang, Thomas Mandel Clausen, Jessica Pihl, Juntaek Oh, Kong-Hung Sze, Anna Jinxia Zhang, Hin Chu, Kin-Hang Kok, Dong Wang, Xue-Hui Cai, Jeffrey D. Esko, Ivan Fan-Ngai Hung, Ronald Adolphus Li, Honglin Chen, Hongzhe Sun, Dong-Yan Jin, Ren Sun, Sumit K. Chanda and Kwok-Yung Yuen, 16 March 2021, Nature.
DOI: 10.1038/s41586-021-03431-4

Research reported in this press release was supported by the National Institutes of Health (NIH) (U19AI118610, U19AI135972, U19AI142733), the Department of Defense (DoD) (W81XWH-20-1-0270), Defense Advanced Research Projects Agency (HR0011-19-2-0020), the Center of Excellence for Influenza Research and Surveillance (HHSN272201400008C), JPB Foundation, the Open Philanthropy Project (2020-215611 (5384)), the University of Hong Kong, National Key R&D Programmes of China (2020YFA0707500, 2020YFA0707504), Richard Yu and Carol Yu, the Shaw Foundation Hong Kong, Michael Seak-Kan Tong, May Tam Mak Mei Yin, Hui Ming, Hui Hoy and Chow Sin, Lan Charity Fund Limited, Chan Yin Chuen Memorial Charitable Foundation, Marina Man-Wai Lee, the Hong Kong Hainan Commercial Association South China Microbiology Research Fund, the Jessie & George Ho Charitable Foundation, Perfect Shape Medical Limited, Kai Chong Tong, Foo Oi Foundation Limited, Tse Kam Ming, Laurence, the Norman & Cecilia Yip Foundation, Dinah Ruch and Susan & James Blair.

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