Factor Xa cleaves SARS-CoV-2 spike protein to block viral entry and infection

被引：0

作者：

Wenjuan Dong

Jing Wang

Lei Tian

Jianying Zhang

Erik W. Settles

Chao Qin

Daniel R. Steinken-Kollath

Ashley N. Itogawa

Kimberly R. Celona

Jinhee Yi

Mitchell Bryant

Heather Mead

Sierra A. Jaramillo

Hongjia Lu

Aimin Li

Ross E. Zumwalt

Sanjeet Dadwal

Pinghui Feng

Weiming Yuan

Sean P. J. Whelan

Paul S. Keim

Bridget Marie Barker

Michael A. Caligiuri

Jianhua Yu

机构：

[1] City of Hope National Medical Center,Department of Hematology & Hematopoietic Cell Transplantation

[2] Hematologic Malignancies Research Institute,Department of Computational and Quantitative Medicine

[3] City of Hope National Medical Center,Pathogen and Microbiome Institute

[4] City of Hope National Medical Center,Department of Biological Sciences

[5] Northern Arizona University,Section of Infection and Immunity, Herman Ostrow School of Dentistry, Norris Comprehensive Cancer Center

[6] Northern Arizona University,Department of Molecular Microbiology and Immunology

[7] University of Southern California,Department of Pathology

[8] Keck School of Medicine of University of Southern California,Division of Infectious Diseases, Department of Medicine

[9] Pathology Core of Shared Resources Core,Department of Molecular Microbiology

[10] Beckman Research Institute,Department of Immuno

[11] City of Hope National Medical Center,Oncology

[12] University of New Mexico,undefined

[13] City of Hope National Medical Center,undefined

[14] Washington University School of Medicine,undefined

[15] City of Hope Comprehensive Cancer Center,undefined

[16] City of Hope,undefined

来源：

Nature Communications | / 14卷

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摘要：

Serine proteases (SP), including furin, trypsin, and TMPRSS2 cleave the SARS-CoV-2 spike (S) protein, enabling the virus to enter cells. Here, we show that factor (F) Xa, an SP involved in blood coagulation, is upregulated in COVID-19 patients. In contrast to other SPs, FXa exerts antiviral activity. Mechanistically, FXa cleaves S protein, preventing its binding to ACE2, and thus blocking viral entry and infection. However, FXa is less effective against variants carrying the D614G mutation common in all pandemic variants. The anticoagulant rivaroxaban, a direct FXa inhibitor, inhibits FXa-mediated S protein cleavage and facilitates viral entry, whereas the indirect FXa inhibitor fondaparinux does not. In the lethal SARS-CoV-2 K18-hACE2 model, FXa prolongs survival yet its combination with rivaroxaban but not fondaparinux abrogates that protection. These results identify both a previously unknown function for FXa and an associated antiviral host defense mechanism against SARS-CoV-2 and suggest caution in considering direct FXa inhibitors for preventing or treating thrombotic complications in COVID-19 patients.

引用

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