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2. Further preclinical characterization of molnupiravir against SARS-CoV-2: Antiviral activity determinants and viral genome alteration patterns

Author

Paul-Rémi Petit, Franck Touret, Jean-Sélim Driouich, Maxime Cochin, Léa Luciani, Ornéllie Bernadin, Caroline Laprie, Géraldine Piorkowski, Laurent Fraisse, Peter Sjö, Charles E. Mowbray, Fanny Escudié, Ivan Scandale, Eric Chatelain, Xavier de Lamballerie, Caroline Solas, and Antoine Nougairède

Subjects
COVID-19, Antiviral drug, Nucleoside analog, Mutagenesis, Animal model, HAE, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

The SARS-CoV-2 pandemic has highlighted the need for broad-spectrum antiviral drugs to respond promptly to viral emergence. We conducted a preclinical study of molnupiravir (MOV) against SARS-CoV-2 to fully characterise its antiviral properties and mode of action. The antiviral activity of different concentrations of MOV was evaluated ex vivo on human airway epithelium (HAE) and in vivo in a hamster model at three escalating doses (150, 300 and 400 mg/kg/day) according to three different regimens (preventive, pre-emptive and curative). We assessed viral loads and infectious titres at the apical pole of HAE and in hamster lungs, and MOV trough concentration in plasma and lungs. To explore the mode of action of the MOV, the entire genomes of the collected viruses were deep-sequenced. MOV effectively reduced viral titres in HAE and in the lungs of treated animals. Early treatment after infection was a key factor in efficacy, probably associated with high lung concentrations of MOV, suggesting good accumulation in the lung. MOV induced genomic alteration in viral genomes with an increase in the number of minority variants, and predominant G to A transitions. The observed reduction in viral replication and its mechanism of action leading to lethal mutagenesis, supported by clinical trials showing antiviral action in humans, provide a convincing basis for further research as an additional means in the fight against COVID-19 and other RNA viruses.

Published
2024
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3. The oral protease inhibitor (PF-07321332) protects Syrian hamsters against infection with SARS-CoV-2 variants of concern

Author

Rana Abdelnabi, Caroline S. Foo, Dirk Jochmans, Laura Vangeel, Steven De Jonghe, Patrick Augustijns, Raf Mols, Birgit Weynand, Thanaporn Wattanakul, Richard M. Hoglund, Joel Tarning, Charles E. Mowbray, Peter Sjö, Fanny Escudié, Ivan Scandale, Eric Chatelain, and Johan Neyts

Subjects
Science
Abstract

There is an urgent need for anti-virals targeting SARS-CoV-2. One of the most promising viral targets is the main protease of SARS-CoV-2, which is essential for viral replication and has no human analogue. Here, Abdelnabi et al. show that one of the most promising anti-virals (PF-07321332), currently in clinical trials, protects against SARS-CoV-2 alpha, beta and delta variant infection and provide evidence of reduced transmission.

Published
2022
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4. Pre-clinical evaluation of antiviral activity of nitazoxanide against SARS-CoV-2

Author

Jean-Sélim Driouich, Maxime Cochin, Franck Touret, Paul-Rémi Petit, Magali Gilles, Grégory Moureau, Karine Barthélémy, Caroline Laprie, Thanaporn Wattanakul, Palang Chotsiri, Richard M. Hoglund, Joel Tarning, Laurent Fraisse, Peter Sjö, Charles E. Mowbray, Fanny Escudié, Ivan Scandale, Eric Chatelain, Xavier de Lamballerie, Caroline Solas, and Antoine Nougairède

Subjects
COVID-19, SARS-CoV-2, Antiviral therapy, Pre-clinical research, Nitazoxanide, Animal model, Medicine, Medicine (General), R5-920
Abstract

Summary: Background: To address the emergence of SARS-CoV-2, multiple clinical trials in humans were rapidly started, including those involving an oral treatment by nitazoxanide, despite no or limited pre-clinical evidence of antiviral efficacy. Methods: In this work, we present a complete pre-clinical evaluation of the antiviral activity of nitazoxanide against SARS-CoV-2. Findings: First, we confirmed the in vitro efficacy of nitazoxanide and tizoxanide (its active metabolite) against SARS-CoV-2. Then, we demonstrated nitazoxanide activity in a reconstructed bronchial human airway epithelium model. In a SARS-CoV-2 virus challenge model in hamsters, oral and intranasal treatment with nitazoxanide failed to impair viral replication in commonly affected organs. We hypothesized that this could be due to insufficient diffusion of the drug into organs of interest. Indeed, our pharmacokinetic study confirmed that concentrations of tizoxanide in organs of interest were always below the in vitro EC50. Interpretation: These preclinical results suggest, if directly applicable to humans, that the standard formulation and dosage of nitazoxanide is not effective in providing antiviral therapy for Covid-19. Funding: This work was supported by the Fondation de France “call FLASH COVID-19”, project TAMAC, by “Institut national de la santé et de la recherche médicale” through the REACTing (REsearch and ACTion targeting emerging infectious diseases), by REACTING/ANRS MIE under the agreement No. 21180 (‘Activité des molécules antivirales dans le modèle hamster’), by European Virus Archive Global (EVA 213 GLOBAL) funded by the European Union's Horizon 2020 research and innovation program under grant agreement No. 871029 and DNDi under support by the Wellcome Trust Grant ref: 222489/Z/21/Z through the COVID-19 Therapeutics Accelerator”.

Published
2022
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5. Route map for the discovery and pre-clinical development of new drugs and treatments for cutaneous leishmaniasis

Author

Diana Caridha, Brian Vesely, Katrien van Bocxlaer, Byron Arana, Charles E. Mowbray, Sima Rafati, Silvia Uliana, Rosa Reguera, Mara Kreishman-Deitrick, Richard Sciotti, Pierre Buffet, and Simon L. Croft

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Although there have been significant advances in the treatment of visceral leishmaniasis (VL) and several novel compounds are currently in pre-clinical and clinical development for this manifestation of leishmaniasis, there have been limited advances in drug research and development (R & D) for cutaneous leishmaniasis (CL). Here we review the need for new treatments for CL, describe in vitro and in vivo assays, models and approaches taken over the past decade to establish a pathway for the discovery, and pre-clinical development of new drugs for CL. These recent advances include novel mouse models of infection using bioluminescent Leishmania, the introduction of PK/PD approaches to skin infection, and defined pre-clinical candidate profiles. Keywords: Cutaneous leishmaniasis, Drug discovery, Drug development, In vitro assays, In vivo models, Pharmacokinetics, Formulations, Immunomodulatory drugs

Published
2019
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6. Novel benzoxaborole, nitroimidazole and aminopyrazoles with activity against experimental cutaneous leishmaniasis

Author

Katrien Van Bocxlaer, Diana Caridha, Chad Black, Brian Vesely, Susan Leed, Richard J. Sciotti, Gert-Jan Wijnant, Vanessa Yardley, Stéphanie Braillard, Charles E. Mowbray, Jean-Robert Ioset, and Simon L. Croft

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Objectives: Drugs for Neglected Diseases initiative (DNDi) has identified three chemical lead series, the nitroimidazoles, benzoxaboroles and aminopyrazoles, as innovative treatments for visceral leishmaniasis. The leads discovered using phenotypic screening, were optimised following disease- and compound-specific criteria. Several leads of each series were progressed and preclinical drug candidates have been nominated. Here we evaluate the efficacy of the lead compounds of each of these three chemical classes in in vitro and in vivo models of cutaneous leishmaniasis. Methods: The in vitro activity of fifty-five compounds was evaluated against the intracellular amastigotes of L. major, L. aethiopica, L. amazonensis, L. panamensis, L. mexicana and L. tropica. The drugs demonstrating potent activity (EC50

Published
2019
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7. Need for a Standardized Translational Drug Development Platform: Lessons Learned from the Repurposing of Drugs for COVID-19

Author

Frauke Assmus, Jean-Sélim Driouich, Rana Abdelnabi, Laura Vangeel, Franck Touret, Ayorinde Adehin, Palang Chotsiri, Maxime Cochin, Caroline S. Foo, Dirk Jochmans, Seungtaek Kim, Léa Luciani, Grégory Moureau, Soonju Park, Paul-Rémi Pétit, David Shum, Thanaporn Wattanakul, Birgit Weynand, Laurent Fraisse, Jean-Robert Ioset, Charles E. Mowbray, Andrew Owen, Richard M. Hoglund, Joel Tarning, Xavier de Lamballerie, Antoine Nougairède, Johan Neyts, Peter Sjö, Fanny Escudié, Ivan Scandale, and Eric Chatelain

Subjects
COVID-19, drug repurposing, translational medicine, pandemics, clinical trials, Biology (General), QH301-705.5
Abstract

In the absence of drugs to treat or prevent COVID-19, drug repurposing can be a valuable strategy. Despite a substantial number of clinical trials, drug repurposing did not deliver on its promise. While success was observed with some repurposed drugs (e.g., remdesivir, dexamethasone, tocilizumab, baricitinib), others failed to show clinical efficacy. One reason is the lack of clear translational processes based on adequate preclinical profiling before clinical evaluation. Combined with limitations of existing in vitro and in vivo models, there is a need for a systematic approach to urgent antiviral drug development in the context of a global pandemic. We implemented a methodology to test repurposed and experimental drugs to generate robust preclinical evidence for further clinical development. This translational drug development platform comprises in vitro, ex vivo, and in vivo models of SARS-CoV-2, along with pharmacokinetic modeling and simulation approaches to evaluate exposure levels in plasma and target organs. Here, we provide examples of identified repurposed antiviral drugs tested within our multidisciplinary collaboration to highlight lessons learned in urgent antiviral drug development during the COVID-19 pandemic. Our data confirm the importance of assessing in vitro and in vivo potency in multiple assays to boost the translatability of pre-clinical data. The value of pharmacokinetic modeling and simulations for compound prioritization is also discussed. We advocate the need for a standardized translational drug development platform for mild-to-moderate COVID-19 to generate preclinical evidence in support of clinical trials. We propose clear prerequisites for progression of drug candidates for repurposing into clinical trials. Further research is needed to gain a deeper understanding of the scope and limitations of the presented translational drug development platform.

Published
2022
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8. Identification of Resistance Determinants for a Promising Antileishmanial Oxaborole Series

Author

Magali Van den Kerkhof, Philippe Leprohon, Dorien Mabille, Sarah Hendrickx, Lindsay B. Tulloch, Richard J. Wall, Susan Wyllie, Eric Chatelain, Charles E. Mowbray, Stéphanie Braillard, Marc Ouellette, Louis Maes, and Guy Caljon

Subjects
Leishmania, ABC transporters, oxaboroles, resistance, Biology (General), QH301-705.5
Abstract

Current treatment options for visceral leishmaniasis have several drawbacks, and clinicians are confronted with an increasing number of treatment failures. To overcome this, the Drugs for Neglected Diseases initiative (DNDi) has invested in the development of novel antileishmanial leads, including a very promising class of oxaboroles. The mode of action/resistance of this series to Leishmania is still unknown and may be important for its further development and implementation. Repeated in vivo drug exposure and an in vitro selection procedure on both extracellular promastigote and intracellular amastigote stages were both unable to select for resistance. The use of specific inhibitors for ABC-transporters could not demonstrate the putative involvement of efflux pumps. Selection experiments and inhibitor studies, therefore, suggest that resistance to oxaboroles may not emerge readily in the field. The selection of a genome-wide cosmid library coupled to next-generation sequencing (Cos-seq) was used to identify resistance determinants and putative targets. This resulted in the identification of a highly enriched cosmid, harboring genes of chromosome 2 that confer a subtly increased resistance to the oxaboroles tested. Moderately enriched cosmids encompassing a region of chromosome 34 contained the cleavage and polyadenylation specificity factor (cpsf) gene, encoding the molecular target of several related benzoxaboroles in other organisms.

Published
2021
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9. Film-Forming Systems for the Delivery of DNDI-0690 to Treat Cutaneous Leishmaniasis

Author

Katrien Van Bocxlaer, Kerri-Nicola McArthur, Andy Harris, Mo Alavijeh, Stéphanie Braillard, Charles E. Mowbray, and Simon L. Croft

Subjects
cutaneous leishmaniasis, topical treatment, film-forming system, DNDI-0690, antileishmanial activity, Pharmacy and materia medica, RS1-441
Abstract

In cutaneous leishmaniasis (CL), parasites reside in the dermis, creating an opportunity for local drug administration potentially reducing adverse effects and improving treatment adherence compared to current therapies. Polymeric film-forming systems (FFSs) are directly applied to the skin and form a thin film as the solvent evaporates. In contrast to conventional topical dosage forms, FFSs strongly adhere to the skin, favouring sustained drug delivery to the affected site, reducing the need for frequent applications, and enhancing patient compliance. This study reports the first investigation of the use of film-forming systems for the delivery of DNDI-0690, a nitroimidazole compound with potent activity against CL-causing Leishmania species. A total of seven polymers with or without plasticiser were evaluated for drying time, stickiness, film-flexibility, and cosmetic attributes; three FFSs yielded a positive evaluation for all test parameters. The impact of each of these FFSs on the permeation of the model skin permeant hydrocortisone (hydrocortisone, 1% (w/v) across the Strat-M membrane was evaluated, and the formulations resulting in the highest and lowest permeation flux (Klucel LF with triethyl citrate and Eudragit RS with dibutyl sebacate, respectively) were selected as the FFS vehicle for DNDI-0690. The release and skin distribution of the drug upon application to Leishmania-infected and uninfected BALB/c mouse skin were examined using Franz diffusion cells followed by an evaluation of the efficacy of both DNDI-0690 FFSs (1% (w/v)) in an experimental CL model. Whereas the Eudragit film resulted in a higher permeation of DNDI-0690, the Klucel film was able to deposit four times more drug into the skin, where the parasite resides. Of the FFSs formulations, only the Eudragit system resulted in a reduced parasite load, but not reduced lesion size, when compared to the vehicle only control. Whereas drug delivery into the skin was successfully modulated using different FFS systems, the FFS systems selected were not effective for the topical application of DNDI-0690. The convenience and aesthetic of FFS systems alongside their ability to modulate drug delivery to and into the skin merit further investigation using other promising antileishmanial drugs.

Published
2021
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10. Pre-clinical evaluation of antiviral activity of nitazoxanide against SARS-CoV-2

Author

Jean-Sélim Driouich, Maxime Cochin, Franck Touret, Paul-Rémi Petit, Magali Gilles, Grégory Moureau, Karine Barthélémy, Caroline Laprie, Thanaporn Wattanakul, Palang Chotsiri, Richard M. Hoglund, Joel Tarning, Laurent Fraisse, Peter Sjö, Charles E. Mowbray, Fanny Escudié, Ivan Scandale, Eric Chatelain, Xavier de Lamballerie, Caroline Solas, and Antoine Nougairède

Subjects
Thiazoles, SARS-CoV-2, Cricetinae, Animals, Humans, General Medicine, Nitro Compounds, Antiviral Agents, General Biochemistry, Genetics and Molecular Biology, COVID-19 Drug Treatment
Abstract

To address the emergence of SARS-CoV-2, multiple clinical trials in humans were rapidly started, including those involving an oral treatment by nitazoxanide, despite no or limited pre-clinical evidence of antiviral efficacy.In this work, we present a complete pre-clinical evaluation of the antiviral activity of nitazoxanide against SARS-CoV-2.First, we confirmed the in vitro efficacy of nitazoxanide and tizoxanide (its active metabolite) against SARS-CoV-2. Then, we demonstrated nitazoxanide activity in a reconstructed bronchial human airway epithelium model. In a SARS-CoV-2 virus challenge model in hamsters, oral and intranasal treatment with nitazoxanide failed to impair viral replication in commonly affected organs. We hypothesized that this could be due to insufficient diffusion of the drug into organs of interest. Indeed, our pharmacokinetic study confirmed that concentrations of tizoxanide in organs of interest were always below the in vitro ECThese preclinical results suggest, if directly applicable to humans, that the standard formulation and dosage of nitazoxanide is not effective in providing antiviral therapy for Covid-19.This work was supported by the Fondation de France "call FLASH COVID-19", project TAMAC, by "Institut national de la santé et de la recherche médicale" through the REACTing (REsearch and ACTion targeting emerging infectious diseases), by REACTING/ANRS MIE under the agreement No. 21180 ('Activité des molécules antivirales dans le modèle hamster'), by European Virus Archive Global (EVA 213 GLOBAL) funded by the European Union's Horizon 2020 research and innovation program under grant agreement No. 871029 and DNDi under support by the Wellcome Trust Grant ref: 222489/Z/21/Z through the COVID-19 Therapeutics Accelerator".

Published
2023

11. DNDI-6148: A Novel Benzoxaborole Preclinical Candidate for the Treatment of Visceral Leishmaniasis

Author

Stéphanie Braillard, Jason Speake, Sandra Carvalho, Yvonne Freund, Gavin A. Whitlock, Guy Caljon, Bakela Nare, Paul Alan Glossop, Victoriano Corpas-López, Fabio Zuccotto, Louis Maes, Davide Bello, Ian H. Gilbert, Susan Wyllie, Bharathi Pandi, Iva Lukac, Robert T. Jacobs, Magali Van den Kerkhof, Vanessa Yardley, Charles E. Mowbray, Richard J. Wall, and Stephen Patterson

Subjects
Boron Compounds, Pyridines, Antiprotozoal Agents, Cleavage and polyadenylation specificity factor, Pharmacology, Article, Mice, Structure-Activity Relationship, 03 medical and health sciences, Dogs, In vivo, Cricetinae, Drug Discovery, medicine, Animals, Humans, Mode of action, 030304 developmental biology, Benzoxazoles, 0303 health sciences, biology, 030306 microbiology, Chemistry, Pharmacology. Therapy, Neglected Disease, medicine.disease, Leishmania, biology.organism_classification, 3. Good health, Disease Models, Animal, Safety profile, Visceral leishmaniasis, Parasitic disease, Leishmaniasis, Visceral, Molecular Medicine
Abstract

Visceral leishmaniasis (VL) is a parasitic disease endemic across multiple regions of the world and is fatal if untreated. Current therapies are unsuitable, and there is an urgent need for safe, short-course, and low-cost oral treatments to combat this neglected disease. The benzoxaborole chemotype has previously delivered clinical candidates for the treatment of other parasitic diseases. Here, we describe the development and optimization of this series, leading to the identification of compounds with potent in vitro and in vivo antileishmanial activity. The lead compound (DNDI-6148) combines impressive in vivo efficacy (>98% reduction in parasite burden) with pharmaceutical properties suitable for onward development and an acceptable safety profile. Detailed mode of action studies confirm that DNDI-6148 acts principally through the inhibition of Leishmania cleavage and polyadenylation specificity factor (CPSF3) endonuclease. As a result of these studies and its promising profile, DNDI-6148 has been declared a preclinical candidate for the treatment of VL.

Published
2021

12. Novel benzoxaborole, nitroimidazole and aminopyrazoles with activity against experimental cutaneous leishmaniasis

Author

Gert-Jan Wijnant, Charles E. Mowbray, Diana Caridha, Katrien Van Bocxlaer, Simon L. Croft, Richard J. Sciotti, Brian Vesely, Vanessa Yardley, Jean-Robert Ioset, Chad C. Black, Susan E. Leed, and Stéphanie Braillard

Subjects
Boron Compounds, Benzoxaborole, 0301 basic medicine, Drug, media_common.quotation_subject, 030231 tropical medicine, Antiprotozoal Agents, Aminopyrazole, Leishmaniasis, Cutaneous, Pharmacology, Parasite load, Parasite Load, lcsh:Infectious and parasitic diseases, Inhibitory Concentration 50, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cutaneous leishmaniasis, In vivo, medicine, Animals, Includes articles from the special issue “Novel therapies for cutaneous leishmaniasis”, pp. 106 - 179, Pharmacology (medical), lcsh:RC109-216, Amastigote, media_common, Membrane Potential, Mitochondrial, Mice, Inbred BALB C, Nitroimidazole, Drug discovery, Macrophages, medicine.disease, In vitro, 030104 developmental biology, Infectious Diseases, Visceral leishmaniasis, chemistry, Nitroimidazoles, Pyrazoles, Female, Parasitology
Abstract

Objectives Drugs for Neglected Diseases initiative (DNDi) has identified three chemical lead series, the nitroimidazoles, benzoxaboroles and aminopyrazoles, as innovative treatments for visceral leishmaniasis. The leads discovered using phenotypic screening, were optimised following disease- and compound-specific criteria. Several leads of each series were progressed and preclinical drug candidates have been nominated. Here we evaluate the efficacy of the lead compounds of each of these three chemical classes in in vitro and in vivo models of cutaneous leishmaniasis. Methods The in vitro activity of fifty-five compounds was evaluated against the intracellular amastigotes of L. major, L. aethiopica, L. amazonensis, L. panamensis, L. mexicana and L. tropica. The drugs demonstrating potent activity (EC50, Graphical abstract Image 1

Published
2019

13. The oral protease inhibitor (PF-07321332) protects Syrian hamsters against infection with SARS-CoV-2 variants of concern

Author

Johan Neyts, Thanaporn Wattanakul, Rana Abdelnabi, Birgit Weynand, Ivan Scandale, Steven De Jonghe, Patrick Augustijns, Raf Mols, Fanny Escudie, Charles E. Mowbray, Caroline Shi-Yan Foo, Joel Tarning, Dirk Jochmans, Laura Vangeel, Peter Sjö, Eric Chatelain, and Richard M. Hoglund

Subjects
Viral protease, business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), fungi, Medicine, Alpha (ethology), Protease inhibitor (pharmacology), Nasal administration, Human airway, Pharmacology, business, Syrian hamsters, In vitro
Abstract

There is an urgent need for potent and selective antivirals against SARS-CoV-2. Pfizer developed PF-07321332 (PF-332), a potent inhibitor of the main viral protease (Mpro, 3CLpro) that can be dosed orally; the compound is in clinical development. We demonstrate that PF-332 exerts equipotent in vitro activity against the four SARS-CoV-2 variants of concerns (VoC) and can completely arrest replication of the alpha variant in primary human airway epithelial cells grown at the air-liquid interface. Treatment of Syrian hamsters with PF-332 (250 mg/kg, twice daily) completely protected the animals against intranasal infection with the beta (B.1.351) and delta (B.1.617.2) SARS-CoV-2 variants. Moreover, treatment of SARS-CoV-2 (B.1.617.2) infected animals with PF-332 completely prevented transmission to untreated co-housed sentinels. The trough drug concentration at this efficacious dose were above the in vitro efficacious concentrations.

Published
2021

14. Collaborative Virtual Screening to Elaborate an Imidazo[1,2-A]pyridine Hit Series for Visceral Leishmaniasis

Author

Charles E. Mowbray, Kazuya Nagaoka, Sachiko Itono, Rina Kaki, Yafeng Cao, Hiromi Nakai, Kevin Ronald Condroski, Constantin Radu, Naoaki Watanabe, Garry Pairaudeau, Ieuan Roberts, Benjamin Ian Perry, Ola Engkvist, Yuichiro Akao, Chiaki Kimura, Osamu Yoshida, Ryu Yoshida, Thierry Kogej, Mitsuyuki Shimada, Akira Naito, David Shum, Huanxu Xie, Stacie S. Canan, and Shuji Yonezawa

Subjects
Pharmacology, Virtual screening, Rapid expansion, Computer science, Organic Chemistry, Pharmaceutical Science, Computational biology, medicine.disease, Biochemistry, Visceral leishmaniasis, Drug Discovery, medicine, Molecular Medicine, Pharmacophore
Abstract

An innovative pre-competitive virtual screening collaboration was engaged to validate and subsequently explore an imidazo[1,2-a]pyridine screening hit for visceral leishmaniasis. In silico probing of five proprietary pharmaceutical company libraries enabled rapid expansion of the hit chemotype, alleviating initial concerns about the core chemical structure while simultaneously improving antiparasitic activity and selectivity index relative to the background cell line. Subsequent hit optimization informed by the structure–activity relationship enabled by this virtual screening allowed thorough investigation of the pharmacophore, opening avenues for further improvement and optimization of the chemical series.

Published
2020

15. Antileishmanial aminopyrazoles : studies into mechanisms and stability of experimental drug resistance

Author

Stéphanie Braillard, Charles E. Mowbray, Guy Caljon, Sarah Hendrickx, Marc Ouellette, Dorien Mabille, M. Van den Kerkhof, Louis Maes, and Philippe Leprohon

Subjects
Drug, DNA Copy Number Variations, media_common.quotation_subject, Antiprotozoal Agents, Drug Resistance, ATP-binding cassette transporter, Drug resistance, Pharmacology, Biology, resistance, Mice, 03 medical and health sciences, Mechanisms of Resistance, In vivo, Cricetinae, Animals, Pharmacology (medical), Leishmania infantum, Amastigote, 030304 developmental biology, media_common, Leishmania, 0303 health sciences, 030306 microbiology, Drug discovery, Pharmacology. Therapy, biology.organism_classification, aminopyrazoles, 3. Good health, Infectious Diseases, ABC transporters, Pyrazoles, Efflux, Human medicine
Abstract

Current antileishmanial treatment is hampered by limitations, such as drug toxicity and the risk of treatment failure, which may be related to parasitic drug resistance. Given the urgent need for novel drugs, the Drugs for Neglected Diseases initiative (DNDi) has undertaken a drug discovery program, which has resulted in the identification of aminopyrazoles, a highly promising antileishmanial chemical series. Multiple experiments have been performed to anticipate the propensity for resistance development., Current antileishmanial treatment is hampered by limitations, such as drug toxicity and the risk of treatment failure, which may be related to parasitic drug resistance. Given the urgent need for novel drugs, the Drugs for Neglected Diseases initiative (DNDi) has undertaken a drug discovery program, which has resulted in the identification of aminopyrazoles, a highly promising antileishmanial chemical series. Multiple experiments have been performed to anticipate the propensity for resistance development. Resistance selection was performed by successive exposure of Leishmania infantum promastigotes (in vitro) and intracellular amastigotes (both in vitro and in golden Syrian hamsters). The stability of the resistant phenotypes was assessed after passage in mice and Lutzomyia longipalpis sandflies. Whole-genome sequencing (WGS) was performed to identify mutated genes, copy number variations (CNVs), and somy changes. The potential role of efflux pumps (the MDR and MRP efflux pumps) in the development of resistance was assessed by coincubation of aminopyrazoles with specific efflux pump inhibitors (verapamil, cyclosporine, and probenecid). Repeated drug exposure of amastigotes did not result in the emergence of drug resistance either in vitro or in vivo. Selection at the promastigote stage, however, was able to select for parasites with reduced susceptibility (resistance index, 5.8 to 24.5). This phenotype proved to be unstable after in vivo passage in mice and sandflies, suggesting that nonfixed alterations are responsible for the elevated resistance. In line with this, single nucleotide polymorphisms and indels identified by whole-genome sequencing could not be directly linked to the decreased drug susceptibility. Copy number variations were absent, whereas somy changes were detected, which may have accounted for the transient acquisition of resistance. Finally, aminopyrazole activity was not influenced by the MDR and MRP efflux pump inhibitors tested. The selection performed does not suggest the rapid development of resistance against aminopyrazoles in the field. Karyotype changes may confer elevated levels of resistance, but these do not seem to be stable in the vertebrate and invertebrate hosts. MDR/MRP efflux pumps are not likely to significantly impact the activity of the aminopyrazole leads.

Published
2020

16. Identification of Resistance Determinants for a Promising Antileishmanial Oxaborole Series

Author

Lindsay B. Tulloch, Stéphanie Braillard, Magali Van den Kerkhof, Dorien Mabille, Philippe Leprohon, Marc Ouellette, Louis Maes, Susan Wyllie, Eric Chatelain, Charles E. Mowbray, Guy Caljon, Sarah Hendrickx, and Richard J. Wall

Subjects
0301 basic medicine, Microbiology (medical), oxaboroles, QH301-705.5, 030106 microbiology, ATP-binding cassette transporter, Cleavage and polyadenylation specificity factor, Computational biology, Biology, Microbiology, Article, Leishmania, resistance, 03 medical and health sciences, Virology, Biology (General), Amastigote, Gene, biology.organism_classification, In vitro, 030104 developmental biology, ABC transporters, Cosmid, Human medicine, Efflux
Abstract

Current treatment options for visceral leishmaniasis have several drawbacks, and clinicians are confronted with an increasing number of treatment failures. To overcome this, the Drugs for Neglected Diseases initiative (DNDi) has invested in the development of novel antileishmanial leads, including a very promising class of oxaboroles. The mode of action/resistance of this series to Leishmania is still unknown and may be important for its further development and implementation. Repeated in vivo drug exposure and an in vitro selection procedure on both extracellular promastigote and intracellular amastigote stages were both unable to select for resistance. The use of specific inhibitors for ABC-transporters could not demonstrate the putative involvement of efflux pumps. Selection experiments and inhibitor studies, therefore, suggest that resistance to oxaboroles may not emerge readily in the field. The selection of a genome-wide cosmid library coupled to next-generation sequencing (Cos-seq) was used to identify resistance determinants and putative targets. This resulted in the identification of a highly enriched cosmid, harboring genes of chromosome 2 that confer a subtly increased resistance to the oxaboroles tested. Moderately enriched cosmids encompassing a region of chromosome 34 contained the cleavage and polyadenylation specificity factor (cpsf) gene, encoding the molecular target of several related benzoxaboroles in other organisms.

Published
2021

17. Introduction to the themed collection on ‘Neglected tropical diseases’

Author

Steven L. Cobb, Charles E. Mowbray, and Nahid Ali

Subjects
Pharmacology, Geography, Agroforestry, Organic Chemistry, Drug Discovery, Neglected tropical diseases, Pharmaceutical Science, Molecular Medicine, Biochemistry
Abstract

Guest editors Nahid Ali, Steven L. Cobb and Charles Mowbray introduce the themed collection on ‘Neglected tropical diseases’.

Published
2020

18. Structure-activity relationship of 4-azaindole-2-piperidine derivatives as agents against Trypanosoma cruzi

Author

Paul J. Koovits, Guy Caljon, Charles E. Mowbray, Luiz C. Dias, Louis Maes, Jadel M. Kratz, Marco A. Dessoy, and An Matheeussen

Subjects
Chagas disease, Trypanosoma cruzi, Clinical Biochemistry, Pharmaceutical Science, Moderate activity, Pharmacology, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Structure-Activity Relationship, Piperidines, In vivo, Drug Discovery, parasitic diseases, medicine, Structure–activity relationship, Animals, Humans, Chagas Disease, Molecular Biology, Biology, biology, 010405 organic chemistry, Drug discovery, Pharmacology. Therapy, Organic Chemistry, biology.organism_classification, medicine.disease, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Chemistry, chemistry, Molecular Medicine, Piperidine, Human medicine
Abstract

The structure-activity relationship of a 4-Azaindole-2-piperidine compound selected from GlaxoSmithKline’s recently disclosed open-resource “Chagas box” and possessing moderate activity against Trypanosoma cruzi, the parasite responsible for Chagas disease, is presented. Despite considerable medicinal chemistry efforts, a suitably potent and metabolically stable compound could not be identified to advance the series into in vivo studies. This research should be of interest to those in the area of neglected diseases and in particular anti-kinetoplastid drug discovery.

Published
2019

19. Route map for the discovery and pre-clinical development of new drugs and treatments for cutaneous leishmaniasis

Author

Richard J. Sciotti, Brian Vesely, Mara Kreishman-Deitrick, Byron Arana, Pierre Buffet, Katrien Van Bocxlaer, Diana Caridha, Sima Rafati, Silvia R. B. Uliana, Charles E. Mowbray, Simon L. Croft, and Rosa M. Reguera

Subjects
0301 basic medicine, Drug, media_common.quotation_subject, 030231 tropical medicine, Drug Evaluation, Preclinical, Leishmaniasis, Cutaneous, Drug development, Skin infection, lcsh:Infectious and parasitic diseases, In vivo models, Mice, 03 medical and health sciences, 0302 clinical medicine, Cutaneous leishmaniasis, In vivo, medicine, Animals, Humans, Includes articles from the special issue “Novel therapies for cutaneous leishmaniasis”, pp. 106 - 179, Pharmacokinetics, Pharmacology (medical), lcsh:RC109-216, FÁRMACOS, media_common, Leishmania, Pharmacology, Clinical Trials as Topic, biology, Drug discovery, business.industry, Formulations, Leishmaniasis, medicine.disease, biology.organism_classification, 3. Good health, Disease Models, Animal, 030104 developmental biology, Infectious Diseases, Visceral leishmaniasis, Immunology, In vitro assays, Parasitology, Immunomodulatory drugs, business
Abstract

Although there have been significant advances in the treatment of visceral leishmaniasis (VL) and several novel compounds are currently in pre-clinical and clinical development for this manifestation of leishmaniasis, there have been limited advances in drug research and development (R & D) for cutaneous leishmaniasis (CL). Here we review the need for new treatments for CL, describe in vitro and in vivo assays, models and approaches taken over the past decade to establish a pathway for the discovery, and pre-clinical development of new drugs for CL. These recent advances include novel mouse models of infection using bioluminescent Leishmania, the introduction of PK/PD approaches to skin infection, and defined pre-clinical candidate profiles., Graphical abstract Image 1

Published
2019

20. Drug Discovery for Kinetoplastid Diseases : Future Directions

Author

John M. Kelly, Phillip Scott, Rick L. Tarleton, Jonathan M. Spector, Catherine L. Jones, José Mengel, Jeremy C. Mottram, Claudio Gimpelewicz, Michael P. Barrett, Pascal Mäser, Christopher J. Faraday, David L. Sacks, Gerald F. Späth, Srinivasa P. S. Rao, Thierry T. Diagana, Glenn Dranoff, Asrat Hailu, Janis K. Lazdins-Helds, Charles E. Mowbray, Novartis Institute for Tropical Diseases (NITD), University of Glasgow, Novartis Institutes for BioMedical Research (NIBR), Novartis Pharma AG, Addis Ababa University (AAU), London School of Hygiene and Tropical Medicine (LSHTM), Swiss Tropical and Public Health Institute [Basel], Fundação Oswaldo Cruz (FIOCRUZ), Réseau International des Instituts Pasteur (RIIP), Universidade Católica de Petrópolis (UCP), University of York [York, UK], Drugs for Neglected Diseases Initiative, National Institute of Allergy and Infectious Diseases [Bethesda] (NIAID-NIH), National Institutes of Health [Bethesda] (NIH), Pennsylvania State University (Penn State), Penn State System, Institut Pasteur [Paris], University of Georgia [USA], Fundação Oswaldo Cruz / Oswaldo Cruz Foundation (FIOCRUZ), and Institut Pasteur [Paris] (IP)

Subjects
0301 basic medicine, medicine.medical_specialty, [SDV]Life Sciences [q-bio], 030106 microbiology, Antiprotozoal Agents, Euglenozoa Infections, Host-Parasite Interactions, Immunomodulation, Mice, 03 medical and health sciences, Human disease, Drug Discovery, parasitic diseases, medicine, Animals, Humans, Chagas Disease, Kinetoplastida, Intensive care medicine, Leishmaniasis, business.industry, Drug discovery, medicine.disease, 3. Good health, Indian subcontinent, 030104 developmental biology, Infectious Diseases, Models, Animal, business
Abstract

International audience; Kinetoplastid parasites have caused human disease for millennia. Significant achievements have been made toward developing new treatments for leishmaniasis (particularly on the Indian subcontinent) and for human African trypanosomiasis (HAT). Moreover, the sustained decrease in the incidence of HAT has made the prospect of elimination a tantalizing reality. Despite the gains, no new chemical or biological entities to treat kinetoplastid diseases have been registered in more than three decades, and more work is needed to discover safe and effective therapies for patients with Chagas disease and leishmaniasis. Advances in tools for drug discovery and novel insights into the biology of the host-parasite interaction may provide opportunities for accelerated progress. Here, we summarize the output from a gathering of scientists and physicians who met to discuss the current status and future directions in drug discovery for kinetoplastid diseases.

Published
2018

21. Recent Development of Visceral Leishmaniasis Treatments: Successes, Pitfalls, and Perspectives

Author

Graeme Bilbe, Séverine Blesson, Gina Muthoni Ouattara, Byron Arana, Joelle Rode, Vishal Goyal, Susan Wells, Alexandra Solomos, Nathalie Strub-Wourgaft, Eduard E. Zijlstra, Séverine Monnerat, Fabiana Alves, Bernard Pécoul, Monique Wasunna, Suman Rijal, Jorge Alvar, and Charles E. Mowbray

Subjects
0301 basic medicine, Microbiology (medical), medicine.medical_specialty, Biomedical Research, Combination therapy, Epidemiology, Sodium stibogluconate, 030231 tropical medicine, Antiprotozoal Agents, Psychological intervention, Paromomycin, Review, 03 medical and health sciences, 0302 clinical medicine, Drug Discovery, medicine, Humans, Intensive care medicine, Miltefosine, General Immunology and Microbiology, business.industry, Public Health, Environmental and Occupational Health, Leishmaniasis, medicine.disease, Regimen, 030104 developmental biology, Infectious Diseases, Visceral leishmaniasis, Leishmaniasis, Visceral, business, medicine.drug
Abstract

SUMMARY Research in visceral leishmaniasis in the last decade has been focused on how better to use the existing medicines as monotherapy or in combination. Systematic research by geographical regions has shown that a universal treatment is far from today9s reality. Substantial progress has been made in the elimination of kala-azar in South Asia, with a clear strategy on first- and second-line therapy options of single-dose liposomal amphotericin B and a combination of paromomycin and miltefosine, respectively, among other interventions. In Eastern Africa, sodium stibogluconate (SSG) and paromomycin in combination offer an advantage compared to the previous SSG monotherapy, although not exempted of limitations, as this therapy requires 17 days of painful double injections and bears the risk of SSG-related cardiotoxicity. In this region, attempts to improve the combination therapy have been unsuccessful. However, pharmacokinetic studies have led to a better understanding of underlying mechanisms, like the underexposure of children to miltefosine treatment, and an improved regimen using an allometric dosage. Given this global scenario of progress and pitfalls, we here review what steps need to be taken with existing medicines and highlight the urgent need for oral drugs. Furthermore, it should be noted that six candidates belonging to five new chemical classes are reaching phase I, ensuring an optimistic near future.

Published
2018

22. In vitro and in vivo pharmacodynamics of three novel antileishmanial lead series

Author

Stéphanie Braillard, Louis Maes, Dorien Mabille, Eric Chatelain, Guy Caljon, M. Van den Kerkhof, Sarah Hendrickx, and Charles E. Mowbray

Subjects
0301 basic medicine, Drug, Antimony, Boron Compounds, Efficacy, Aminopyrazoles, media_common.quotation_subject, 030106 microbiology, Antiprotozoal Agents, Paromomycin, Drug resistance, Pharmacology, Article, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Inhibitory Concentration 50, Mice, Parasitic Sensitivity Tests, In vivo, Cricetinae, parasitic diseases, medicine, Animals, lcsh:RC109-216, Pharmacology (medical), Leishmania infantum, Biology, Leishmaniasis, media_common, Leishmania, Miltefosine, biology, Chemistry, Pharmacology. Therapy, biology.organism_classification, In vitro, Infectious Diseases, Pharmacodynamics, Oxaboroles, Nitroimidazoles, Pyrazoles, Parasitology, Female, Human medicine, medicine.drug, Leishmania donovani
Abstract

Objectives Three new chemical series (bicyclic nitroimidazoles, aminopyrazoles and oxaboroles) were selected by Drugs for Neglected Diseases initiative as potential new drug leads for leishmaniasis. Pharmacodynamics studies included both in vitro and in vivo efficacy, cross-resistance profiling against the current antileishmanial reference drugs and evaluation of their cidal activity potential. Methods Efficacy against the reference laboratory strains of Leishmania infantum (MHOM/MA(BE)/67/ITMAP263) and L. donovani (MHOM/ET/67/L82) was evaluated in vitro on intracellular amastigotes and in vivo in the early curative hamster model. Cidal activity was assessed over a period of 15 days in an in vitro ‘time-to-kill’ assay. Cross-resistance was assessed in vitro on a panel of L. infantum strains with different degrees of resistance to either antimony, miltefosine or paromomycin. Results All lead compounds showed potent and selective in vitro activity against the Leishmania strains tested and no cross-resistance could be demonstrated against any of the current antileishmanial drugs. Cidal activity was obtained in vitro for all series within 15 days of exposure with some differences noted between L. donovani and L. infantum. When evaluated in vivo, all lead compounds showed high efficacy and no adverse effects were observed. Conclusions The new lead series were shown to have cidal pharmacodynamic activity. The absence of cross-resistance with any of the current antileishmanial drugs opens possibilities for combination treatment to reduce the likelihood of treatment failures and drug resistance., Graphical abstract Image 1, Highlights • Good efficacy was evaluated for all series in vitro and in vivo. • No cross-resistance towards current anti-leishmanial drugs was observed. • Cidal activity was obtained in vitro for all series within 15 days of exposure. • Some differences were observed between L. infantum and L. donovani.

Published
2017

23. Anti-leishmanial Drug Discovery: Past, Present and Future Perspectives

Author

Charles E. Mowbray

Subjects
Drug, Miltefosine, medicine.medical_specialty, Drug discovery, business.industry, media_common.quotation_subject, Leishmaniasis, Pharmacology, medicine.disease, Visceral leishmaniasis, Orally active, medicine, Classical pharmacology, Intensive care medicine, business, Anti leishmanial, media_common, medicine.drug
Abstract

The drugs currently used for treating leishmaniasis suffer from limitations in efficacy and safety and are not well adapted to the needs of patients. Combining these drugs has led to improvements in efficacy and safety in some geographical regions, but many patients are still in need of more effective, safer and more convenient treatments. The existing drugs for leishmaniasis were re-purposed from other therapeutic indications and are far from optimal, relying largely on painful intravenous and intramuscular injections, with the exception of miltefosine, which is orally active. In recent years, orally-acting new chemical entities have been designed and selected for development for treating visceral leishmaniasis and also have potential for the cutaneous form of the disease. These new drug classes have been discovered using phenotypic drug discovery methods and offer great promise for developing new treatments, but their mechanisms of action are often not well understood. Efforts to de-convolute the mechanisms of action of these candidates and newer target-based drug discovery approaches should open the door for discovery of further drug classes and candidate molecules. This chapter describes the evolution of drug discovery approaches for leishmaniasis, explores the properties of emerging drug candidates and considers the potential for these efforts to deliver new treatments to patients.

Published
2017

24. Assessment of a pretomanid analogue library for African trypanosomiasis: Hit-to-lead studies on 6-substituted 2-nitro-6,7-dihydro-5H-imidazo[2,1-b][1,3]thiazine 8-oxides

Author

Andrew M, Thompson, Andrew J, Marshall, Louis, Maes, Nigel, Yarlett, Cyrus J, Bacchi, Eric, Gaukel, Stephen A, Wring, Delphine, Launay, Stephanie, Braillard, Eric, Chatelain, Charles E, Mowbray, and William A, Denny

Subjects
In vivo efficacy, Dose-Response Relationship, Drug, Molecular Structure, Nitroimidazole, Administration, Oral, Pretomanid, Article, Small Molecule Libraries, Disease Models, Animal, Mice, Structure-Activity Relationship, Trypanosomiasis, African, Nitroimidazoles, Animals, Humans, Library screening, Pharmacokinetics, African trypanosomiasis, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

Graphical abstract, A 900 compound nitroimidazole-based library derived from our pretomanid backup program with TB Alliance was screened for utility against human African trypanosomiasis (HAT) by the Drugs for Neglected Diseases initiative. Potent hits included 2-nitro-6,7-dihydro-5H-imidazo[2,1-b][1,3]thiazine 8-oxides, which surprisingly displayed good metabolic stability and excellent cell permeability. Following comprehensive mouse pharmacokinetic assessments on four hits and determination of the most active chiral form, a thiazine oxide counterpart of pretomanid (24) was identified as the best lead. With once daily oral dosing, this compound delivered complete cures in an acute infection mouse model of HAT and increased survival times in a stage 2 model, implying the need for more prolonged CNS exposure. In preliminary SAR findings, antitrypanosomal activity was reduced by removal of the benzylic methylene but enhanced through a phenylpyridine-based side chain, providing important direction for future studies.

Published
2017

25. Synthesis of novel histamine H4 receptor antagonists

Author

David Howard Williams, Nigel Alan Swain, Charlotte Alice Louise Lane, Michael Paradowski, Duncan Hay, Matthew D. Selby, and Charles E. Mowbray

Subjects
Models, Molecular, Pyrrolidines, Isostere, Clinical Biochemistry, Pharmaceutical Science, Pharmacology, Crystallography, X-Ray, Biochemistry, Receptors, G-Protein-Coupled, Amidine, Structure-Activity Relationship, chemistry.chemical_compound, Drug Discovery, Animals, Humans, Structure–activity relationship, Histamine H4 receptor, Receptor, Molecular Biology, Receptors, Histamine H4, Dose-Response Relationship, Drug, Molecular Structure, Bicyclic molecule, Organic Chemistry, Antagonist, Stereoisomerism, Rats, chemistry, Receptors, Histamine, Molecular Medicine, Azabicyclo Compounds, Histamine
Abstract

This letter describes the discovery and synthesis of a series of octahydropyrrolo[3,4-c]pyrrole based selective histamine hH4 receptor antagonists. The amidine compound 20 was found to be a potent and selective histamine H4 receptor antagonist with moderate clearance and a high volume of distribution.

Published
2012

26. The discovery and profile of PF-0868087, a CNS-sparing histamine H3 receptor antagonist for the treatment of allergic rhinitis

Author

Michael Yeadon, Tanya Hay, Wai L. S. Liu, Charles E. Mowbray, Valerie M. Joynson, and Graham Lunn

Subjects
Pharmacology, integumentary system, Chemistry, Drug Discovery, Organic Chemistry, Antagonist, Low permeability, Pharmaceutical Science, Molecular Medicine, Histamine H3 receptor, Biochemistry, Efflux transporters
Abstract

We wished to identify a CNS-sparing histamine H3 receptor antagonist for the treatment of allergic rhinitis. We aimed for compounds with low permeability, high solubility, that were substrates for the BBB efflux transporters MDR-1 and BCRP. The key lead PF-0868087 demonstrated over a 10-fold CNS-sparing profile in 2 preclinical species.

Published
2012

27. Comparison of the Non-Nucleoside Reverse Transcriptase Inhibitor Lersivirine with its Pyrazole and Imidazole Isomers

Author

Lyn H. Jones, Donald Stuart Middleton, Sandra D. Newman, Romuald Corbau, Gill Allan, Charles E. Mowbray, Rob Webster, Mike Westby, and Christopher Phillips

Subjects
Pharmacology, Reverse-transcriptase inhibitor, Drug discovery, Stereochemistry, Organic Chemistry, Pyrazole, Biochemistry, Nucleoside Reverse Transcriptase Inhibitor, chemistry.chemical_compound, chemistry, Drug Discovery, medicine, Molecular Medicine, Imidazole, Lersivirine, medicine.drug
Abstract

Lersivirine is a potent non-nucleoside reverse transcriptase inhibitor with exceptional mutant resilience. Here, we compare the pharmacological and pharmacokinetic profile of lersivirine with its pyrazole and imidazole isomers and briefly explore the profile of these series. This work establishes lersivirine as the outstanding molecule in this set.

Published
2011

28. Lersivirine, a Nonnucleoside Reverse Transcriptase Inhibitor with Activity against Drug-Resistant Human Immunodeficiency Virus Type 1

Author

Charles E. Mowbray, Lesley Fishburn, Christopher Phillips, Romuald Corbau, Steve Irving, Wendy Panton, Adele Thornberry, Caroline Smith-Burchnell, Manos Perros, Thorsten Knöchel, Heather J. Pfizer Global Res. Dev. Ringrose, Alex Martin, Mike Westby, Anthony Wood, and Julie Mori

Subjects
Molecular Sequence Data, Mutant, Drug resistance, Crystallography, X-Ray, Antiviral Agents, Virus, Cell Line, Cell Line, Tumor, Drug Resistance, Viral, Nitriles, medicine, Humans, Pharmacology (medical), Pharmacology, chemistry.chemical_classification, biology, Reverse-transcriptase inhibitor, virus diseases, Biological activity, biology.organism_classification, Virology, HIV Reverse Transcriptase, Reverse transcriptase, Infectious Diseases, Enzyme, chemistry, Lentivirus, HIV-1, Mutagenesis, Site-Directed, Pyrazoles, Reverse Transcriptase Inhibitors, medicine.drug
Abstract

The nonnucleoside reverse transcriptase inhibitors (NNRTIs) are key components of highly active antiretroviral therapy (HAART) for the treatment of human immunodeficiency virus type 1 (HIV-1). A major problem with the first approved NNRTIs was the emergence of mutations in the HIV-1 reverse transcriptase (RT), in particular K103N and Y181C, which led to resistance to the entire class. We adopted an iterative strategy to synthesize and test small molecule inhibitors from a chemical series of pyrazoles against wild-type (wt) RT and the most prevalent NNRTI-resistant mutants. The emerging candidate, lersivirine (UK-453,061), binds the RT enzyme in a novel way (resulting in a unique resistance profile), inhibits over 60% of viruses bearing key RT mutations, with 50% effective concentrations (EC50s) within 10-fold of those for wt viruses, and has excellent selectivity against a range of human targets. Altogether lersivirine is a highly potent and selective NNRTI, with excellent efficacy against NNRTI-resistant viruses.

Published
2010

29. Discovery of a small molecule inhibitor through interference with the gp120–CD4 interaction

Author

Rawal Jaiessh, Amy Randall, Tram T. Tran, Fiona M. Adam, Daniel Siddle, Iain Gardner, Tanya Parkinson, Manos Perros, David R. Fenwick, Christopher Pickford, Juin Fok-Seang, Charles E. Mowbray, David Howard Williams, Donald Stuart Middleton, Hannah Vuong, Peter T. Stephenson, Michelle Y. Platts, and Duncan Hay

Subjects
medicine.drug_class, Stereochemistry, Clinical Biochemistry, Biological Availability, Pharmaceutical Science, Ether, Carboxamide, HIV Envelope Protein gp120, Biochemistry, Chemical synthesis, Piperazines, Structure-Activity Relationship, chemistry.chemical_compound, Viral envelope, HIV Fusion Inhibitors, Cell Line, Tumor, Drug Discovery, medicine, Animals, Humans, Structure–activity relationship, Molecular Biology, Organic Chemistry, Small molecule, In vitro, Rats, Piperazine, chemistry, Drug Design, CD4 Antigens, HIV-1, Microsomes, Liver, Molecular Medicine
Abstract

A series of piperazine derivatives were designed and synthesised as gp120-CD4 inhibitors. SAR studies led to the discovery of potent inhibitors in a cell based anti viral assay represented by compounds 9 and 28. The rat pharmacokinetic and antiviral profiles of selected compounds are also presented.

Published
2009

30. Optimization of 5-Aryloxyimidazole Non-Nucleoside Reverse Transcriptase Inhibitors

Author

Gill Allan, Amy Randall, Sandra D. Newman, Romuald Corbau, Charles E. Mowbray, David Howard Williams, Manos Perros, Mike Westby, Duncan Hay, Donald Stuart Middleton, Hannah Vuong, Lyn H. Jones, and Rob Webster

Subjects
Chemistry, Pharmaceutical, Allosteric regulation, Human immunodeficiency virus (HIV), Biology, medicine.disease_cause, Antiviral Agents, Biochemistry, Cell Line, Nucleoside Reverse Transcriptase Inhibitor, Inhibitory Concentration 50, Drug Resistance, Viral, Drug Discovery, medicine, Humans, Potency, General Pharmacology, Toxicology and Pharmaceutics, Pharmacology, chemistry.chemical_classification, Acquired Immunodeficiency Syndrome, Mutation, Sulfur Compounds, Organic Chemistry, Imidazoles, virus diseases, Metabolic stability, HIV Reverse Transcriptase, Reverse transcriptase, Enzyme, Models, Chemical, chemistry, Drug Design, Reverse Transcriptase Inhibitors, Molecular Medicine, Allosteric Site
Abstract

A major problem associated with non-nucleoside reverse transcriptase inhibitors (NNRTIs) for the treatment of HIV is their vulnerability to mutations in the allosteric binding site of reverse transcriptase that can result in the development of a resistant virus. Herein we present the optimization of a series of 5-aryloxy imidazoles, which possess a balanced pharmacological profile against both wild-type enzyme and the clinically relevant mutations K103N and Y181C. Subtle structural changes were used to probe structure-activity relationships relating to both potency and metabolic stability, which led to an imidazole derivative with an impressive overall profile.

Published
2008

31. Small, non-peptide C5a receptor antagonists: Part 1

Author

Julian Blagg, Esther F. Schmid, David Fairman, Charles E. Mowbray, David C. Pryde, Gary Salmon, and Kevin Beaumont

Subjects
Stereochemistry, Chemistry, Pharmaceutical, High-throughput screening, Clinical Biochemistry, Administration, Oral, Pharmaceutical Science, Complement C5a, Plasma protein binding, Buffers, Biochemistry, Non peptide, C5a receptor, Inhibitory Concentration 50, Piperidines, In vivo, Drug Discovery, Humans, Molecular Biology, Bicyclic molecule, Chemistry, Hydrolysis, Organic Chemistry, Antagonist, Hydrogen-Ion Concentration, In vitro, Models, Chemical, Drug Design, Microsomes, Liver, Molecular Medicine, Peptides, Protein Binding
Abstract

The optimisation of a series of amides for C5a receptor binding and functional activity, and physicochemical properties is described. The initial hit, 1 (IC(50) 1 microM), was discovered during high throughput screening, from which highly potent C5a receptor antagonists (e.g.14, IC(50) 5 nM) were developed.

Published
2008

32. Novel Amino-pyrazole Ureas with Potent In Vitro and In Vivo Antileishmanial Activity

Author

J. Mark F. Gardner, Charles E. Mowbray, Stéphanie Braillard, Paul Alan Glossop, Karl Richard Gibson, Pim-Bart Feijens, Wen Hua, Garreth L. Morgans, Alan Daniel Brown, William Speed, Yafeng Cao, James Edward John Mills, An Matheeussen, Louis Maes, and Gavin A. Whitlock

Subjects
Leishmania donovani, Pharmacology, Pyrazole, chemistry.chemical_compound, Structure-Activity Relationship, In vivo, Cricetinae, Microsomes, Drug Discovery, medicine, Structure–activity relationship, Animals, Humans, Urea, Leishmania infantum, Biology, biology, Antiparasitic Agents, Mesocricetus, Chemistry, Pharmacology. Therapy, biology.organism_classification, medicine.disease, Leishmania, Antiparasitic agent, Visceral leishmaniasis, Molecular Medicine, Leishmaniasis, Visceral, Pyrazoles, Female, Human medicine
Abstract

Visceral leishmaniasis is a severe parasitic disease that is one of the most neglected tropical diseases. Treatment options are limited and there is an urgent need for new therapeutic agents. Following an HTS campaign and hit optimization, a novel series of amino-pyrazole ureas has been identified with potent in vitro antileishmanial activity. Furthermore, compound 26 shows high levels of in vivo efficacy (>90%) against Leishmania infantum, thus demonstrating proof of concept for this series

Published
2015

33. Hit and lead criteria in drug discovery for infectious diseases of the developing world

Author

Charles E. Mowbray, Dennis Schmatz, Ken Duncan, Rob Hooft van Huijsduijnen, Takushi Kaneko, Peter Warner, B. T. Slingsby, Kiyoshi Kita, Jeremy N. Burrows, and Kei Katsuno

Subjects
medicine.medical_specialty, Tuberculosis, MEDLINE, Developing country, Communicable Diseases, Drug Discovery, medicine, Global health, Animals, Drugs, Generic, Humans, Developing Countries, Pharmacology, business.industry, Neglected Diseases, General Medicine, medicine.disease, Malaria, Alliance, Drug development, Family medicine, Immunology, Neglected tropical diseases, business, Foundations
Abstract

Reducing the burden of infectious diseases that affect people in the developing world requires sustained collaborative drug discovery efforts. The quality of the chemical starting points for such projects is a key factor in improving the likelihood of clinical success, and so it is important to set clear go/no-go criteria for the progression of hit and lead compounds. With this in mind, the Japanese Global Health Innovative Technology (GHIT) Fund convened with experts from the Medicines for Malaria Venture, the Drugs for Neglected Diseases initiative and the TB Alliance, together with representatives from the Bill &Melinda Gates Foundation, to set disease-specific criteria for hits and leads for malaria, tuberculosis, visceral leishmaniasis and Chagas disease. Here, we present the agreed criteria and discuss the underlying rationale.

Published
2015

34. Treatment options for second-stage gambiense human African trypanosomiasis

Author

Gilles Eperon, Julien Potet, Manica Balasegaram, Olaf Valverde, Charles E. Mowbray, and François Chappuis

Subjects
Microbiology (medical), medicine.medical_specialty, melarsoprol, human African trypanosomiasis, sleeping sickness, Trypanosoma brucei gambiense, oxaborole, Reviews, Melarsoprol, nifurtimox, Biology, Microbiology, chemistry.chemical_compound, Eflornithine, Virology, medicine, second stage, Animals, Humans, African trypanosomiasis, Stage (cooking), Nifurtimox, Intensive care medicine, ddc:613, Potential impact, fexinidazole, Treatment options, SCYX-7158, gambiense, medicine.disease, Trypanocidal Agents, eflornithine, Trypanosomiasis, African, Infectious Diseases, chemistry, Immunology, Disease Progression, Drug Therapy, Combination, medicine.drug, Fexinidazole
Abstract

Treatment of second-stage gambiense human African trypanosomiasis relied on toxic arsenic-based derivatives for over 50 years. The availability and subsequent use of eflornithine, initially in monotherapy and more recently in combination with nifurtimox (NECT), has drastically improved the prognosis of treated patients. However, NECT logistic and nursing requirements remain obstacles to its deployment and use in peripheral health structures in rural sub-Saharan Africa. Two oral compounds, fexinidazole and SCYX-7158, are currently in clinical development. The main scope of this article is to discuss the potential impact of new oral therapies to improve diagnosis-treatment algorithms and patients' access to treatment, and to contribute to reach the objectives of the recently launched gambiense human African trypanosomiasis elimination program.

Published
2014

35. [Untitled]

Author

Charles E. Mowbray, John D. Wallis, and Wolfgang Skranc

Subjects
Nitrile, Hydrogen, Hydrogen bond, chemistry.chemical_element, General Chemistry, Crystal structure, Triclinic crystal system, Condensed Matter Physics, chemistry.chemical_compound, Crystallography, chemistry, Nitro, Molecule, Organometallic chemistry
Abstract

The molecular structures of two substituted diethyl tartronates show a variety of interactions between functional groups. Oxygen atoms interact with the electron deficient carbon and nitrogen atoms of nitrile and nitro groups which in response show small distortions from their normal geometries. Short O ··· H contacts between benzyl hydrogen atoms and ortho nitro groups indicate some weak hydrogen bonding effects. Crystal data: C15H16N2O7, Mr = 336.3, a = 7.668(2), b = 7.961(3), c = 15.244(3) A, α = 86.78(1), β = 81.56(1), γ = 61.92(1)°, triclinic, P1¯, Z = 2; C14H16N2O9, Mr = 356.3, a = 7.786(2), b = 10.324(2), c = 11.155(4) A, α = 71.43(2), β = 77.21(2), γ = 76.40(3)°, triclinic, P1¯ and Z = 2.

Published
1999

36. Concise Synthesis of Enantiomerically Pure Phenylalanine, Homophenylalanine, and Bishomophenylalanine Derivatives Using Organozinc Chemistry: NMR Studies of Amino Acid-Derived Organozinc Reagents

Author

Richard F. W. Jackson, Rebecca J. Moore, Charles S. Dexter, Jason Matthew Elliott, and Charles E. Mowbray

Subjects
chemistry.chemical_classification, Aryl, Organic Chemistry, chemistry.chemical_element, Phenylalanine, Zinc, Carbonyl group, Amino acid, Solvent, chemistry.chemical_compound, chemistry, Reagent, Intramolecular force, Organic chemistry
Abstract

Protected phenylalanines 23 (seven examples), homophenylalanines 7 (eight examples), and bishomophenylalanines 8 (seven examples) have been prepared by palladium-catalyzed coupling of the amino acid-derived organozinc reagents 13, 5, and 6, respectively, with aryl iodides. While the reactions of the zinc reagent 13 may be conducted in both THF and DMF as solvent, the results obtained in DMF are generally superior. In the case of the reagents 5 and 6 the results are far superior in DMF. NMR investigations on the structure of the zinc reagents 13 in THF suggest that there is strong intramolecular coordination of the urethane carbonyl group, whereas in DMF this interaction is completely suppressed.

Published
1998

37. A Concise Synthesis of Trifluoromethyl-Substituted 4-Aryloxy Pyrazoles

Author

Lyn H. Jones and Charles E. Mowbray

Subjects
chemistry.chemical_compound, Trifluoromethyl, chemistry, Group (periodic table), Organic Chemistry, Organic chemistry, Alkylation
Abstract

An efficient route to 4-aryloxy pyrazoles bearing a trifluoromethyl group has been developed. A facile removal of the N-hydroxyethyl group has also been developed.

Published
2006

39. Discovery of a series of potent and selective human H4 antagonists using ligand efficiency and libraries to explore structure-activity relationship (SAR)

Author

Francesca Perrucio, M. Abid Masood, Graham Smith, Charles E. Mowbray, M. J. Gardner, Helen Kenyon-Edwards, Charlotte Alice Louise Lane, Rhys M. Jones, Andrew Simon Bell, Wai L. Liu, Andrew C. Mansfield, Matthew D. Selby, Nick Clarke, Christopher D. Brown, and Rachel Osborne

Subjects
Ligand efficiency, Chemistry, Organic Chemistry, Clinical Biochemistry, Histamine Antagonists, Pharmaceutical Science, Stereoisomerism, Hit to lead, Ligands, Biochemistry, Combinatorial chemistry, Receptors, G-Protein-Coupled, Small Molecule Libraries, Structure-Activity Relationship, Drug Discovery, Molecular Medicine, Structure–activity relationship, Humans, Receptors, Histamine, Histamine H4 receptor, Antagonism, Molecular Biology, Receptors, Histamine H4
Abstract

We describe the identification of a potent, selective lead series that shows antagonism against the human histamine H4 receptor from thirteen actives identified in an HTS as part of a hit to lead program. By focusing on ligand efficiency and concurrently using a diversity based approach, compounds based around 2,4-diaminopyrimidine were identified with compound 25 being quickly shown to be a good lead. It also had the highest ligand efficiency in the series.

Published
2011

40. Challenges of drug discovery in novel target space. The discovery and evaluation of PF-3893787: a novel histamine H4 receptor antagonist

Author

Emanuel Schenck, Wai L. Liu, Rhys M. Jones, Nick Clarke, Charlotte Alice Louise Lane, Michael Paradowski, Charles E. Mowbray, Michelle Collins, Mathew D. Selby, Andrew Simon Bell, David Howard Williams, Sandra D. Newman, and Nigel Alan Swain

Subjects
Pyrrolidines, Drug discovery, Organic Chemistry, Clinical Biochemistry, Antagonist, Drug Evaluation, Preclinical, Histamine Antagonists, Pharmaceutical Science, Computational biology, Biology, Bioinformatics, Biochemistry, Rats, Receptors, G-Protein-Coupled, Pyrimidines, Drug Discovery, Molecular Medicine, Animals, Humans, Receptors, Histamine, Histamine H4 receptor, Molecular Biology, Receptors, Histamine H4
Abstract

We describe the development of novel benzimidazoles as small molecule histamine H4 receptor (H4R) antagonists and their profiling in rat early toxicity studies. The discovery and optimisation of a second series of pyrimidine based antagonists is then described culminating in the identification of the clinical development candidate 13 (PF-3893787). The pre-clinical profile of 13 (PF-3893787) is presented including the development of a translatable biomarker. Our pragmatic approach to target selection, safety assessment, and testing for efficacy faced numerous challenges and we share a number of lessons which the team learned and which will assist us and others in future drug discovery projects.

Published
2011

41. Comparison of the non-nucleoside reverse transcriptase inhibitor lersivirine with its pyrazole and imidazole isomers

Author

Lyn H, Jones, Gill, Allan, Romuald, Corbau, Donald S, Middleton, Charles E, Mowbray, Sandra D, Newman, Chris, Phillips, Rob, Webster, and Mike, Westby

Subjects
Models, Molecular, Imidazoles, HIV Infections, HIV Reverse Transcriptase, Rats, Structure-Activity Relationship, Drug Design, Mutation, Nitriles, HIV-1, Microsomes, Liver, Animals, Humans, Pyrazoles, Reverse Transcriptase Inhibitors
Abstract

Lersivirine is a potent non-nucleoside reverse transcriptase inhibitor with exceptional mutant resilience. Here, we compare the pharmacological and pharmacokinetic profile of lersivirine with its pyrazole and imidazole isomers and briefly explore the profile of these series. This work establishes lersivirine as the outstanding molecule in this set.

Published
2011

42. Polycycle construction via cascade radical fragmentation transannulation-cyclisation processes

Author

Gerald Pattenden and Charles E. Mowbray

Subjects
chemistry.chemical_classification, Ketone, Fragmentation (mass spectrometry), Bicyclic molecule, Chemistry, Computational chemistry, Cascade, Organic Chemistry, Drug Discovery, Free-radical reaction, Biochemistry, Bond cleavage
Abstract

Treament of the bicyclic dienol (8) with iodosylbenzene diacetate-iodine is shown to lead to the 7,5,-tricycle (11, 81%) by way of a cascade ra

Published
1993

44. ChemInform Abstract: Concise Synthesis of Enantiomerically Pure Phenylalanine, Homophenylalanine, and Bishomophenylalanine Derivatives Using Organozinc Chemistry: NMR Studies of Amino Acid-Derived Organozinc Reagents

Author

Rebecca J. Moore, Jason Matthew Elliott, Richard F. W. Jackson, Charles S. Dexter, and Charles E. Mowbray

Subjects
chemistry.chemical_classification, Aryl, chemistry.chemical_element, Phenylalanine, General Medicine, Zinc, Carbonyl group, Amino acid, Solvent, chemistry.chemical_compound, chemistry, Intramolecular force, Reagent, Organic chemistry
Abstract

Protected phenylalanines 23 (seven examples), homophenylalanines 7 (eight examples), and bishomophenylalanines 8 (seven examples) have been prepared by palladium-catalyzed coupling of the amino acid-derived organozinc reagents 13, 5, and 6, respectively, with aryl iodides. While the reactions of the zinc reagent 13 may be conducted in both THF and DMF as solvent, the results obtained in DMF are generally superior. In the case of the reagents 5 and 6 the results are far superior in DMF. NMR investigations on the structure of the zinc reagents 13 in THF suggest that there is strong intramolecular coordination of the urethane carbonyl group, whereas in DMF this interaction is completely suppressed.

Published
2010

46. Pyrazole NNRTIs 4: selection of UK-453,061 (lersivirine) as a development candidate

Author

Charles E. Mowbray, Rob Webster, Simon Gayton, Anthony Wood, Manos Perros, Matthew D. Selby, Isabelle Tran, Romuald Corbau, Stupple Paul Anthony, Catherine Burt, David Price, Faye J. Quinton, and Michael Hawes

Subjects
Anti-HIV Agents, Clinical Biochemistry, Pharmaceutical Science, Pyrazole, Pharmacology, Biochemistry, Cell Line, chemistry.chemical_compound, Drug Discovery, Drug Resistance, Viral, Nitriles, medicine, Lersivirine, Animals, Humans, Molecular Biology, Selection (genetic algorithm), Acquired Immunodeficiency Syndrome, Reverse-transcriptase inhibitor, biology, Chemistry, Organic Chemistry, virus diseases, biology.organism_classification, Virology, Reverse transcriptase, HIV Reverse Transcriptase, Rats, Liver metabolism, Benzene derivatives, Lentivirus, Microsomes, Liver, Molecular Medicine, Pyrazoles, Reverse Transcriptase Inhibitors, medicine.drug
Abstract

We prepared three discreet cohorts of potent non-nucleoside HIV reverse transcriptase inhibitors (NNRTIs) based on the recently reported 3-cyanophenoxypyrazole lead 3. Several of these compounds displayed very promising anti-HIV activity in vitro, safety, pharmacokinetic and pharmaceutical profiles. We describe our analysis and conclusions leading to the selection of alcohol 5 (UK-453,061, lersivirine) for clinical development.

Published
2009

47. Pyrazole NNRTIs 3: optimisation of physicochemical properties

Author

Manos Perros, James Edward John Mills, Charles E. Mowbray, Romuald Corbau, Rob Webster, Stupple Paul Anthony, Michael Hawes, Anthony Wood, Matthew D. Selby, and Lyn H. Jones

Subjects
Chemical Phenomena, Stereochemistry, Anti-HIV Agents, Clinical Biochemistry, Pharmaceutical Science, Pyrazole, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Drug Discovery, medicine, Potency, Humans, Molecular Biology, Ligand efficiency, biology, Reverse-transcriptase inhibitor, Chemistry, Organic Chemistry, Combinatorial chemistry, HIV Reverse Transcriptase, Enzyme inhibitor, Drug Design, Lipophilicity, biology.protein, Benzyl group, Microsomes, Liver, Molecular Medicine, Pyrazoles, Reverse Transcriptase Inhibitors, medicine.drug
Abstract

Our efforts to reduce overall lipophilicity and increase ligand-lipophilicity efficiency (LLE) by modification of the 3- and 5-substituents of pyrazole 1, a novel non-nucleoside HIV reverse transcriptase inhibitor (NNRTI) prototype were unsuccessful. In contrast replacement of the substituted benzyl group with corresponding phenylthio or phenoxy groups resulted in marked improvements in potency, ligand efficiency (LE) and LLE.

Published
2009

48. Pyrazole NNRTIs 1: design and initial optimisation of a novel template

Author

Charles E. Mowbray, Anthony Wood, Manos Perros, Romuald Corbau, Stupple Paul Anthony, Catherine Burt, Rob Webster, and Isabelle Tran

Subjects
Molecular model, Stereochemistry, Anti-HIV Agents, Clinical Biochemistry, Pharmaceutical Science, Pyrazole, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Structure-Activity Relationship, Drug Discovery, medicine, Humans, Molecular Biology, Reverse-transcriptase inhibitor, RNA-Directed DNA Polymerase, Organic Chemistry, Wild type, virus diseases, Nucleotidyltransferase, Reverse transcriptase, HIV Reverse Transcriptase, chemistry, Drug Design, Microsomes, Liver, Molecular Medicine, Pyrazoles, Reverse Transcriptase Inhibitors, medicine.drug
Abstract

The design and synthesis of a novel series of non-nucleoside HIV reverse transcriptase inhibitors (NNRTIs) based on a pyrazole template is described. These compounds are active against wild type reverse transcriptase (RT) and retain activity against clinically important mutants.

Published
2009

49. Small, non-peptide C5a receptor antagonists: part 2

Author

Charles E. Mowbray, Kevin Beaumont, Julian Blagg, Gary Salmon, Esther F. Schmid, David Fairman, and David C. Pryde

Subjects
Tertiary amine, Polarity (physics), Stereochemistry, medicine.drug_class, Chemistry, Pharmaceutical, Clinical Biochemistry, Pharmaceutical Science, Administration, Oral, Carboxamide, Complement C5a, Biochemistry, Chemical synthesis, C5a receptor, chemistry.chemical_compound, Inhibitory Concentration 50, Piperidines, Drug Discovery, medicine, Humans, Molecular Biology, Inflammation, Binding Sites, Bicyclic molecule, Molecular Structure, Hydrolysis, Organic Chemistry, Acetal, Amides, In vitro, chemistry, Models, Chemical, Drug Design, Molecular Medicine, Peptides, Protein Binding
Abstract

Starting from 2, several highly potent C5a receptor antagonists were synthesised through alpha-amide substitution. Attempts to increase the polarity of these compounds through the introduction of basic centres or incorporation into weakly basic heterocycles is described.

Published
2008

50. A concise and selective synthesis of novel 5-aryloxyimidazole NNRTIs

Author

Thomas Dupont, Lyn H. Jones, Sandra D. Newman, and Charles E. Mowbray

Subjects
Molecular Structure, Sulfur Compounds, Chemistry, Anti-HIV Agents, Organic Chemistry, Key (cryptography), Imidazoles, Reverse Transcriptase Inhibitors, Computational biology, Physical and Theoretical Chemistry, Biochemistry, Reverse transcriptase
Abstract

[reaction: see text] A concise and efficient route to the construction of a 5-aryloxyimidazole has been developed. The key step was the selective O-arylation of a 2,4-dimethoxybenzyl-protected imidazolone. The final compound is a potent inhibitor of HIV reverse transcriptase.

Published
2006

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