Antiviral Agents against Respiratory Viruses

AbstractInfluenza and other respiratory viruses present a significant threat to public health, national security, and the world economy, and can lead to the emergence of global pandemics such as from COVID-19. A barrier to the development of effective therapeutics is the absence of a robust and predictive preclinical model, with most studies relying on a combination of in vitro screening with immortalized cell lines and low-throughput animal models. Here, we integrate human primary airway epithelial cells into a custom-engineered 96-device platform (PREDICT96-ALI) in which tissues are cultured in an array of microchannel-based culture chambers at an air–liquid interface, in a configuration compatible with high resolution in-situ imaging and real-time sensing. We apply this platform to influenza A virus and coronavirus infections, evaluating viral infection kinetics and antiviral agent dosing across multiple strains and donor populations of human primary cells. Human coronaviruses HCoV-NL63 and SARS-CoV-2 enter host cells via ACE2 and utilize the protease TMPRSS2 for spike protein priming, and we confirm their expression, demonstrate infection across a range of multiplicities of infection, and evaluate the efficacy of camostat mesylate, a known inhibitor of HCoV-NL63 infection. This new capability can be used to address a major gap in the rapid assessment of therapeutic efficacy of small molecules and antiviral agents against influenza and other respiratory viruses including coronaviruses.

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Antiviral agents against respiratory viruses

Clinical Microbiology Newsletter ◽

10.1016/s0196-4399(01)89050-4 ◽

2001 ◽

Vol 23 (21) ◽

pp. 163-170

Author(s):

Cecile L. Tremblay

Keyword(s):

Antiviral Agents ◽

Respiratory Viruses

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Respiratory Viruses Other than Influenza Virus: Impact and Therapeutic Advances

Clinical Microbiology Reviews ◽

10.1128/cmr.00045-07 ◽

2008 ◽

Vol 21 (2) ◽

pp. 274-290 ◽

Cited By ~ 78

Author(s):

W. Garrett Nichols ◽

Angela J. Peck Campbell ◽

Michael Boeckh

Keyword(s):

Influenza Virus ◽

Viral Infections ◽

Antiviral Agents ◽

Respiratory Viruses ◽

Clinical Activity ◽

Virus Infections ◽

Respiratory Viral Infections ◽

Immunocompromised Hosts

SUMMARY Though several antivirals have been developed and marketed to treat influenza virus infections, the development of antiviral agents with clinical activity against other respiratory viruses has been more problematic. Here we review the epidemiology of respiratory viral infections in immunocompetent and immunocompromised hosts, examine the evidence surrounding the currently available antivirals for respiratory viral infections other than influenza, highlight those that are in the pipeline, and discuss the hurdles for development of such agents.

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Importance of Respiratory Viruses in Acute Otitis Media

Clinical Microbiology Reviews ◽

10.1128/cmr.16.2.230-241.2003 ◽

2003 ◽

Vol 16 (2) ◽

pp. 230-241 ◽

Cited By ~ 143

Author(s):

Terho Heikkinen ◽

Tasnee Chonmaitree

Keyword(s):

Viral Infection ◽

Otitis Media ◽

Middle Ear ◽

Antiviral Agents ◽

Animal Experiments ◽

Acute Otitis Media ◽

Respiratory Viruses ◽

Ample Evidence ◽

Number Of Children ◽

Upper Respiratory

SUMMARY Acute otitis media is usually considered a simple bacterial infection that is treated with antibiotics. However, ample evidence derived from studies ranging from animal experiments to extensive clinical trials supports a crucial role for respiratory viruses in the etiology and pathogenesis of acute otitis media. Viral infection of the upper respiratory mucosa initiates the whole cascade of events that finally leads to the development of acute otitis media as a complication. The pathogenesis of acute otitis media involves a complex interplay between viruses, bacteria, and the host’s inflammatory response. In a substantial number of children, viruses can be found in the middle-ear fluid either alone or together with bacteria, and recent studies indicate that at least some viruses actively invade the middle ear. Viruses appear to enhance the inflammatory process in the middle ear, and they may significantly impair the resolution of otitis media. Prevention of the predisposing viral infection by vaccination against the major viruses would probably be the most effective way to prevent acute otitis media. Alternatively, early treatment of the viral infection with specific antiviral agents would also be effective in reducing the occurrence of acute otitis media.

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Synthesis and Biological Evaluation of Novel (thio)semicarbazone-Based Benzimidazoles as Antiviral Agents against Human Respiratory Viruses

Molecules ◽

10.3390/molecules25071487 ◽

2020 ◽

Vol 25 (7) ◽

pp. 1487 ◽

Cited By ~ 4

Author(s):

Valeria Francesconi ◽

Elena Cichero ◽

Silvia Schenone ◽

Lieve Naesens ◽

Michele Tonelli

Keyword(s):

Influenza A ◽

Antiviral Agents ◽

Binding Mode ◽

Respiratory Viruses ◽

Biological Evaluation ◽

Benzimidazole Derivatives ◽

Respiratory Illnesses ◽

Medical Need ◽

Dual Inhibitors ◽

Syncytial Virus

Respiratory RNA viruses are responsible for recurrent acute respiratory illnesses that still represent a major medical need. Previously we developed a large variety of benzimidazole derivatives able to inhibit these viruses. Herein, two series of (thio)semicarbazone- and hydrazone-based benzimidazoles have been explored, by derivatizing 5-acetyl benzimidazoles previously reported by us, thereby evaluating the influence of the modification on the antiviral activity. Compounds 6, 8, 16 and 17, bearing the 5-(thio)semicarbazone and 5-hydrazone functionalities in combination with the 2-benzyl ring on the benzimidazole core structure, acted as dual inhibitors of influenza A virus and human coronavirus. For respiratory syncytial virus (RSV), activity is limited to the 5-thiosemicarbazone (25) and 5-hydrazone (22) compounds carrying the 2-[(benzotriazol-1/2-yl)methyl]benzimidazole scaffold. These molecules proved to be the most effective antiviral agents, able to reach the potency profile of the licensed drug ribavirin. The molecular docking analysis explained the SAR of these compounds around their binding mode to the target RSV F protein, revealing the key contacts for further assessment. The herein-investigated benzimidazole-based derivatives may represent valuable hit compounds, deserving subsequent structural improvements towards more efficient antiviral agents for the treatment of pathologies caused by these human respiratory viruses.

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