Inhibitory effects of aprotinin on influenza A and B viruses in vitro and in vivo

Song, Eun-Jung; Españo, Erica; Shim, Sang-Mu; Nam, Joong-Hee; Kim, Jiyeon; Lee, Kiho; Park, Song‐Kyu; Lee, Chong-Kil; Kim, Jeong-Ki

doi:10.1038/s41598-021-88886-1

Cited by 11 publications

(13 citation statements)

References 42 publications

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“…Many peptides currently analyzed for their anti-SARS-CoV-2 effect are repurposing peptides. For example, aprotinin is a very long peptide (58 amino acid residues) already well-known as a transmembrane serine protease 2 (TMPRSS2) inhibitor influencing negatively influenza A and B viruses [ 51 , 52 ] replication. Several antimicrobial peptides (AMPs) have also been tested for their anti-SARS-CoV-2 activity.…”

Section: Discussionmentioning

confidence: 99%

Design of Three Residues Peptides against SARS-CoV-2 Infection

Zannella

Chianese

Greco

et al. 2022

Viruses

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The continuous and rapid spread of the COVID-19 pandemic has emphasized the need to seek new therapeutic and prophylactic treatments. Peptide inhibitors are a valid alternative approach for the treatment of emerging viral infections, mainly due to their low toxicity and high efficiency. Recently, two small nucleotide signatures were identified in the genome of some members of the Coronaviridae family and many other human pathogens. In this study, we investigated whether the corresponding amino acid sequences of such nucleotide sequences could have effects on the viral infection of two representative human coronaviruses: HCoV-OC43 and SARS-CoV-2. Our results showed that the synthetic peptides analyzed inhibit the infection of both coronaviruses in a dose-dependent manner by binding the RBD of the Spike protein, as suggested by molecular docking and validated by biochemical studies. The peptides tested do not provide toxicity on cultured cells or human erythrocytes and are resistant to human serum proteases, indicating that they may be very promising antiviral peptides.

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Section: Discussionmentioning

confidence: 99%

Design of Three Residues Peptides against SARS-CoV-2 Infection

Zannella

Chianese

Greco

et al. 2022

Viruses

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“… Drug Host Factor Mechanism Viruses Ref. Fludase (DAS181) SA Cleaves SA on the cell surface of host to prevent viral entry IV, PIV Zenilman et al (2015) Maraviroc (MVC) CCR5 A CCR5-antagonist, binds to CCR5 and blocks viral entry HIV-1 Woollard and Kanmogne (2015) Myrcludex B NTCP Binds to NTCP to block the viral entry into liver cells HBV, HDV Bogomolov et al (2016) Ezetimibe NPC1L1 Blocks viral entry by binding to NPC1L1 HCV ( Feld et al, 2020 ; Monrroy et al, 2017 ) Aprotinin Endosomes A serine protease inhibitor, inhibition of viral protease activity during viral entry and endosome fusion IAV, IBV, SARS-CoV-2 ( Bojkova et al, 2020a ; Song et al, 2021b ) Niclosamide Endsomes A category B anthelmintic drug approved by FDA, targets acidic vacuoles, endosomes and interferes with membrane fusions. Also inhibits viral RNA replication and viral maturation SARS-CoV-2 DENV ( Backer et al, 2021 ; Jung et al, 2019 ) Emetine Lysosomes FDA approved drug for amebiasis, accumulates into the lysosomes, alters the pH to impair the intracellular traffic and inhibits autophagy to hinder the autophagy mediated viral infection, accumulation of emetine in lysosomes also limits free cholesterol availability for viral assembly ZIKV, EBV Yang et al (2018) Selective Inhibitor of Nuclear Export (SINE) Compound Verdinexor (KPT-185) Nuclear export A slow-reversible inhibitor of Exportin 1(CRM1/XPO1), inhibits interaction between NEP and exportin-1 (XPO1) to prevent nuclear export in vRNP.…”

Section: Hdts In Viral Diseasesmentioning

confidence: 99%

“…In addition to cell surface receptors, viruses also depend on host proteases for their surface protein splicing which aid them in host entry ( Böttcher-Friebertshäuser et al, 2013 ; Izaguirre, 2019 ). Aprotinin, a serine protease inhibitor which is in clinical use in Russia prevents influenza virus membrane fusion ( Song et al, 2021a ; Zhirnov et al, 2011 ). The effectiveness of aprotinin against SARS-CoV-2 has also been demonstrated at therapeutically achievable concentrations ( Bojkova et al, 2020a ).…”

Section: Development Of Novel Hdts Against Broad Range Of Viral Diseases Including Unknown Viral Pathogensmentioning

confidence: 99%

Host directed therapies: COVID-19 and beyond

Tripathi

Sodani

Gupta

et al. 2021

Current Research in Pharmacology and Drug Discovery

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The global spread of SARS-CoV-2, has necessitated the development of novel, safe and effective therapeutic agents against this virus to stop the pandemic, however the development of novel antivirals may take years, hence, the best alternative available, is to repurpose the existing antiviral drugs with known safety profile in humans. After more than one year into this pandemic, global efforts have yielded the fruits and with the launch of many vaccines in the market, the world is inching towards the end of this pandemic, nonetheless, future pandemics of this magnitude or even greater cannot be denied. The preparedness against viruses of unknown origin should be maintained and the broad-spectrum antivirals with activity against range of viruses should be developed to curb future viral pandemics. The majority of antivirals developed till date are pathogen specific agents, which target critical viral pathways and lack broad spectrum activity required to target wide range of viruses. The surge in drug resistance among pathogens has rendered a compelling need to shift our focus towards host directed factors in the treatment of infectious diseases. This gains special relevance in the case of viral infections, where the pathogen encodes a handful of genes and predominantly depends on host factors for their propagation and persistence. Therefore, future antiviral drug development should focus more on targeting molecules of host pathways that are often hijacked by many viruses. Such cellular proteins of host pathways offer attractive targets for the development of broad-spectrum anticipatory antivirals. In the present article, we have reviewed the host directed therapies (HDTs) effective against viral infections with a special focus on COVID-19. This article also discusses the strategies involved in identifying novel host targets and subsequent development of broad spectrum HDTs.

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“…APR inhibits transmembrane serine protease 2 (TMPRSS2), which is actively involved in the viral entry process [ 12 , 24 , 25 , 26 , 27 , 28 , 29 ], and also the cleavage of hemagglutinin (HA), which is required for influenza virus fusion with a host cell and which can also be facilitated by TMPRSS2 during viral egress and by the membrane-bound human airway-trypsin like protease (HAT) prior to attachment to host cells [ 19 , 30 , 31 , 32 , 33 , 34 , 35 ].…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies have shown that APR inhibits a broad spectrum of influenza A viruses (IAV) and influenza B viruses (IBV). Anti-influenza viral activity includes seasonal human IAVs (H1N1 and H3N2 subtypes): A/CA/04/09 (H1N1) [ 34 ], A/PR/8/34 (H1N1) [ 18 , 35 , 36 ], A/WSN/34 (H1N1) [ 37 ], A/CA/04/09 (pH1N1), A/Hamburg/05/2009 (pH1N1) [ 36 ], A/Aichi/2/68 (H3N2) [ 18 , 35 , 37 ], and A/PH/2/82 (H3N2) [ 35 ]; avian IAVs A/AB/Kor/CN2/09 (H5N2), A/AB/Kor/CN05/09 (H6N5) and A/Ck/Kor/01310/01 (H9N2) [ 35 ]; an oseltamivir-resistant IAV: A/Bris/10/07 H3N2 [ 37 ]; IBV B/Seoul/32/2011 [ 35 ], B/Hong Kong/73 [ 30 ], and B/Lee/40 [ 30 ]. It should be noted that the aprotinin-based aerosol patented in 2010 for the treatment of viral respiratory infections [ 38 ] has been approved in Russia for the treatment of influenza [ 19 ].…”

Section: Introductionmentioning

confidence: 99%

The Efficacy of Aprotinin Combinations with Selected Antiviral Drugs in Mouse Models of Influenza Pneumonia and Coronavirus Infection Caused by SARS-CoV-2

et al. 2022

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The efficacy of aprotinin combinations with selected antiviral-drugs treatment of influenza virus and coronavirus (SARS-CoV-2) infection was studied in mice models of influenza pneumonia and COVID-19. The high efficacy of the combinations in reducing virus titer in lungs and body weight loss and in increasing the survival rate were demonstrated. This preclinical study can be considered a confirmatory step before introducing the combinations into clinical assessment.

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Inhibitory effects of aprotinin on influenza A and B viruses in vitro and in vivo

Cited by 11 publications

References 42 publications

Design of Three Residues Peptides against SARS-CoV-2 Infection

Design of Three Residues Peptides against SARS-CoV-2 Infection

Host directed therapies: COVID-19 and beyond

The Efficacy of Aprotinin Combinations with Selected Antiviral Drugs in Mouse Models of Influenza Pneumonia and Coronavirus Infection Caused by SARS-CoV-2

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