In Vitro Antiviral Activity and Single-Dose Pharmacokinetics in Humans of a Novel, Orally Bioavailable Inhibitor of Human Rhinovirus 3C Protease

Patick, Amy K.; Maldonado, Fausto; Binford, Susan; Maldonado, Oscar; Fuhrman, Shella A.; Petersen, AnnKatrin; Smith, George J.; Zalman, Leora S.; Burns‐Naas, Leigh Ann; Tran, Jonathan Q.

doi:10.1128/aac.49.6.2267-2275.2005

Cited by 121 publications

(116 citation statements)

References 27 publications

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“…The in vitro activity of these protease inhibitors against PV is comparable to their activity against various strains of HRV, the virus against which the compounds were originally developed (17,35). Given the excellent oral bioavailability (35) and its favorable pharmacokinetic profi le, compound 1 may be an attractive candidate for further study for the treatment and prophylaxis of PV infection.…”

Section: Discussion and Perspectivesmentioning

confidence: 98%

Potential Use of Antiviral Agents in Polio Eradication

Palma

Pürstinger

Wimmer

et al. 2008

Emerg. Infect. Dis.

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Section: Discussion and Perspectivesmentioning

confidence: 98%

Potential Use of Antiviral Agents in Polio Eradication

Palma

Pürstinger

Wimmer

et al. 2008

Emerg. Infect. Dis.

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“…7 Rupintrivir performed well in experimental HRV challenge studies, reducing the severity of both viral load and symptomatic illness, 8 but failed to show a clinically significant impact in a natural infection study. 9 Following this lack of efficacy, further clinical development of rupintrivir for HRV ceased.…”

mentioning

confidence: 99%

An Orally Available 3-Ethoxybenzisoxazole Capsid Binder with Clinical Activity against Human Rhinovirus

Feil

Hamilton²,

Krippner³

et al. 2012

ACS Med. Chem. Lett.

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Respiratory infections caused by human rhinovirus are responsible for severe exacerbations of underlying clinical conditions such as asthma in addition to their economic cost in terms of lost working days due to illness. While several antiviral compounds for treating rhinoviral infections have been discovered, none have succeeded, to date, in reaching approval for clinical use. We have developed a potent, orally available rhinovirus inhibitor 6 that has progressed through early clinical trials. The compound shows favorable pharmacokinetic and activity profiles and has a confirmed mechanism of action through crystallographic studies of a rhinovirus−compound complex. The compound has now progressed to phase IIb clinical studies of its effect on natural rhinovirus infection in humans.

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“…The peptidomimetic rupintrivir (Pfizer AG7088; Fig. 1) effectively inhibits RV and enterovirus replication in vitro but largely failed to fulfill its promise in clinical trials (14)(15)(16)(17).…”

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confidence: 99%

The Enterovirus 3C Protease Inhibitor SG85 Efficiently Blocks Rhinovirus Replication and Is Not Cross-Resistant with Rupintrivir

Lacroix

George

Leyssen

et al. 2015

Antimicrob Agents Chemother

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The novel enterovirus protease inhibitor (PI) SG85 effectively inhibits the in vitro replication of 14 rhinoviruses representative of species A and B (median 50% effective concentration, 0.04 M). A low-level SG85-resistant variant was selected that carried amino acid substitutions S127G and T143A in the 3C protease. Both substitutions are required for low-level resistance to SG85, as demonstrated by reverse genetics. Interestingly, there is no cross-resistance to SG85 and rupintrivir (another PI); a structural explanation is provided for this observation. R hinoviruses (RV) are nonenveloped, positive-sense, singlestranded RNA viruses that belong to the family of Picornaviridae, genus Enterovirus (1). Currently, more than 150 RV have been identified, which genotypically group into RV-A, RV-B, and RV-C (2). RV infections not only cause common colds but may also trigger exacerbations of asthma and chronic obstructive pulmonary disease (COPD) (3-5). Because of the high (and still rising) number of variants, development of a vaccine will be hard to achieve. Therefore, treatment with antivirals is a more realistic strategy to reduce the burden of these infections. An RV inhibitor, in particular, is needed for the prophylaxis and treatment of RVinduced exacerbations of asthma and COPD (6).The RV 3C protease (3C pro ) is a promising target for drug development efforts because of the high level of conservation in its substrate-binding site, its role as an indispensable enzyme for virus replication, and its unique cleavage specificity (after Gln), which has not been observed in any other known host cell protease (7-11). Peptidomimetics with Michael acceptor warheads permanently disable the protease by covalent binding to its catalytic site (12, 13). The peptidomimetic rupintrivir (Pfizer AG7088; Fig. 1) effectively inhibits RV and enterovirus replication in vitro but largely failed to fulfill its promise in clinical trials (14-17).Comparison of the known crystal structures of enterovirus 3C pro s revealed that the enterovirus 68 (EV68) 3C pro can be considered an intermediate between the proteases of RV02 and poliovirus (18). Therefore, it was selected for the design of broadspectrum enterovirus 3C pro inhibitors, yielding SG85, a peptidic ␣,␤-unsaturated ethyl ester with Michael acceptor properties, as the most promising candidate. SG85 is an efficient inhibitor of EV68 3Cpro and inhibits the replication of enteroviruses in cellbased assays (18,19).We demonstrate here that SG85 effectively inhibits the replication (in multicycle virus-cell-based cytopathic effect [CPE] reduction assays [20]) of 14 RV serotypes that are representative of RV-A and -B (Table 1). Median 50% effective concentrations (EC 50 s) of 0.04 Ϯ 0.02 M and 0.02 Ϯ 0.01 M were obtained against RV-A and RV-B, respectively. The 3C pro inhibitor rupintrivir (Axon Medchem, The Netherlands) was, on average, 4-fold more active (Table 1), but this varied with the type (e.g., equipotent activity against RV63 and 14-fold more potent against RV02). Akin to rupint...

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In Vitro Antiviral Activity and Single-Dose Pharmacokinetics in Humans of a Novel, Orally Bioavailable Inhibitor of Human Rhinovirus 3C Protease

Cited by 121 publications

References 27 publications

Potential Use of Antiviral Agents in Polio Eradication

Potential Use of Antiviral Agents in Polio Eradication

An Orally Available 3-Ethoxybenzisoxazole Capsid Binder with Clinical Activity against Human Rhinovirus

The Enterovirus 3C Protease Inhibitor SG85 Efficiently Blocks Rhinovirus Replication and Is Not Cross-Resistant with Rupintrivir

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