Proteolytic activation of SARS-CoV-2 spike at the S1/S2 boundary: potential role of proteases beyond furin

Tang, Tiffany; Jaimes, Javier A.; Bidon, Miya; Straus, Marco R.; Daniel, Susan; Whittaker, Gary R.

doi:10.1101/2020.10.04.325522

Cited by 19 publications

(29 citation statements)

References 47 publications

(72 reference statements)

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“…Previous work has shown that treatment of MERS-infected Calu-3 cells with E64d, a broad cysteine protease inhibitor, had diminished efficacy presumably as a result of low CTSL expression but heightened TMPRSS2 expression. This shift in expression profile resulted in the predominant processing of the MERS spike protein by TMPRSS2 (38). It was also suggested that cleavage of the SARS-CoV-2 spike protein by TMPRSS2 in cells with low CTSL levels (such as Calu-3) is essential for efficient viral entry, whereas in TMPRSS2 negative cells (Vero E6) viral infection can proceed with high efficiency using CTSL (39).…”

Section: Discussionmentioning

confidence: 99%

A cysteine protease inhibitor blocks SARS-CoV-2 infection of human and monkey cells

Mellott

Tseng

Drelich

et al. 2020

Preprint

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K777 is a di-peptide analog that contains an electrophilic vinyl-sulfone moiety and is a potent, covalent inactivator of cathepsins. Vero E6, HeLa/ACE2, Caco-2, A549/ACE2, and Calu-3, cells were exposed to SARS-CoV-2, and then treated with K777. K777 reduced viral infectivity with EC50 values of inhibition of viral infection of: 74 nM for Vero E6, <80 nM for A549/ACE2, and 4 nM for HeLa/ACE2 cells. In contrast, Calu-3 and Caco-2 cells had EC50 values in the low micromolar range. No toxicity of K777 was observed for any of the host cells at 10-100 μM inhibitor. K777 did not inhibit activity of the papain-like cysteine protease and 3CL cysteine protease, encoded by SARS-CoV-2 at concentrations of ≤ 100 μM. These results suggested that K777 exerts its potent anti-viral activity by inactivation of mammalian cysteine proteases which are essential to viral infectivity. Using a propargyl derivative of K777 as an activity-based probe, K777 selectively targeted cathepsin B and cathepsin L in Vero E6 cells. However only cathepsin L cleaved the SARS-CoV-2 spike protein and K777 blocked this proteolysis. The site of spike protein cleavage by cathepsin L was in the S1 domain of SARS-CoV-2 , differing from the cleavage site observed in the SARS CoV-1 spike protein. These data support the hypothesis that the antiviral activity of K777 is mediated through inhibition of the activity of host cathepsin L and subsequent loss of viral spike protein processing.

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Section: Discussionmentioning

confidence: 99%

A cysteine protease inhibitor blocks SARS-CoV-2 infection of human and monkey cells

Mellott

Tseng

Drelich

et al. 2020

Preprint

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“… 60 Tang and his coworkers in their preprint studies in 2020 identified the presence of additional amino acid residue, P-R-R-A in SARS-CoV-2 at S1/S2 site that was not notified in SARS-CoV. 61 R-R-A-R amino acid residue at the S1/S2 site of S protein may be sensitive to furin dependent cleavage. 62 The activity of furin resides on this poly basic motif to activate the degradation of S protein to generate S2 and S1 subunits.…”

Section: Proteins Involved In Viral Entry Mechanismmentioning

confidence: 99%

Role of Serine Proteases and Host Cell Receptors Involved in Proteolytic Activation, Entry of SARS-CoV-2 and Its Current Therapeutic Options

Dessie¹,

Malik²

2021

IDR

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The current global pandemic of a novel severe acute respiratory syndrome coronavirus-2 continues with its public health disaster beginning from late December 2019 in Wuhan, Hubei province, China. The scientific community has tried to fight against this novel coronavirus through vaccine development and designing different candidate drugs. However, there is no well-defined therapy to prevent 2019-nCov infection, thus complete prevention of the virus remains difficult. Therefore, it is a critical factor for death of millions worldwide. Many clinical trials and insights are ongoing in the struggle with this pandemic of SARS-CoV-2. SARS-CoV-2 entry into the host cell requires host cell angiotensinconverting enzyme-2 (ACE2) and glucose regulated protein 78 (GRP78). On the other hand, proteolytic activation of the viral spike protein (S protein) needs the host cell serine proteases, including transmembrane serine protease 2 (TMPRSS2), cathepsins, trypsin and furin. This review focuses on the protein involved in the mechanism of entry, and proteolytic activation. In addition, it looks at current therapeutic options for SARS-CoV-2.

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“…Furin proteolysis at the S1-S2 boundary (681–685) and in S2 (811–815) exposes the RBD to enable hACE2 binding, and the S2 domain to initiate membrane fusion 5 . Recent studies show that these cleavage sites are not necessarily specific for furin-mediated proteolysis and that S protein may be processed by multiple proteases to open the RBD into the active conformation 2 – 4 , 33 . Consistent with these observations, both the furin proteolysis consensus sites and the arginines that are critical for proteolysis are not conserved in the S protein (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Another issue relates to the furin cleavage sites. As the viral S protein activation appears to require furin proteolysis 2 – 4 , protease-specific inhibitors are tested as a means to protect from infection 48 . However, our analysis suggests that this may not be an effective strategy, given the high variability of furin cleavage sites.…”

Section: Discussionmentioning

confidence: 99%

“…Interaction of SARS-CoV-2 with hACE2 occurs via the Spike (S) protein on the viral envelope. Proteases cleave the S protein into S1 and S2 subunits 2 – 4 to enable viral binding to hACE2 5 and viral entry by membrane fusion 6 . The S protein is a homotrimer and the S1 subunit of each of the monomers of the S protein contains the receptor-binding domain (RBD; Fig.…”

Section: Introductionmentioning

confidence: 99%

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Natural variants in SARS-CoV-2 Spike protein pinpoint structural and functional hotspots with implications for prophylaxis and therapeutic strategies

Pokhrel

Kraemer

Burkholz

et al. 2021

Sci Rep

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In December 2019, a novel coronavirus, termed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), was identified as the cause of pneumonia with severe respiratory distress and outbreaks in Wuhan, China. The rapid and global spread of SARS-CoV-2 resulted in the coronavirus 2019 (COVID-19) pandemic. Earlier during the pandemic, there were limited genetic viral variations. As millions of people became infected, multiple single amino acid substitutions emerged. Many of these substitutions have no consequences. However, some of the new variants show a greater infection rate, more severe disease, and reduced sensitivity to current prophylaxes and treatments. Of particular importance in SARS-CoV-2 transmission are mutations that occur in the Spike (S) protein, the protein on the viral outer envelope that binds to the human angiotensin-converting enzyme receptor (hACE2). Here, we conducted a comprehensive analysis of 441,168 individual virus sequences isolated from humans throughout the world. From the individual sequences, we identified 3540 unique amino acid substitutions in the S protein. Analysis of these different variants in the S protein pinpointed important functional and structural sites in the protein. This information may guide the development of effective vaccines and therapeutics to help arrest the spread of the COVID-19 pandemic.

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Proteolytic activation of SARS-CoV-2 spike at the S1/S2 boundary: potential role of proteases beyond furin

Cited by 19 publications

References 47 publications

A cysteine protease inhibitor blocks SARS-CoV-2 infection of human and monkey cells

A cysteine protease inhibitor blocks SARS-CoV-2 infection of human and monkey cells

Role of Serine Proteases and Host Cell Receptors Involved in Proteolytic Activation, Entry of SARS-CoV-2 and Its Current Therapeutic Options

Natural variants in SARS-CoV-2 Spike protein pinpoint structural and functional hotspots with implications for prophylaxis and therapeutic strategies

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