Your search keyword '"Todd MH"' showing total 97 results

1. Experimentally validated pharmacoinformatics approach to predict hERG inhibition potential of new chemical entities

Author

Munawar, S, Windley, MJ, Tse, EG, Todd, MH, Hill, AP, Vandenberg, JI, Jabeen, I, Munawar, S, Windley, MJ, Tse, EG, Todd, MH, Hill, AP, Vandenberg, JI, and Jabeen, I

Abstract

The hERG (human ether-a-go-go-related gene) encoded potassium ion (K+) channel plays a major role in cardiac repolarization. Drug-induced blockade of hERG has been a major cause of potentially lethal ventricular tachycardia termed Torsades de Pointes (TdPs). Therefore, we presented a pharmacoinformatics strategy using combined ligand and structure based models for the prediction of hERG inhibition potential (IC50) of new chemical entities (NCEs) during early stages of drug design and development. Integrated GRid-INdependent Descriptor (GRIND) models, and lipophilic efficiency (LipE), ligand efficiency (LE) guided template selection for the structure based pharmacophore models have been used for virtual screening and subsequent hERG activity (pIC50) prediction of identified hits. Finally selected two hits were experimentally evaluated for hERG inhibition potential (pIC50) using whole cell patch clamp assay. Overall, our results demonstrate a difference of less than ±1.6 log unit between experimentally determined and predicted hERG inhibition potential (IC50) of the selected hits. This revealed predictive ability and robustness of our models and could help in correctly rank the potency order (lower μM to higher nM range) against hERG.

Published

2018

2. Antitubercular Bis-Substituted Cyclam Derivatives: Structure-Activity Relationships and in Vivo Studies.

Author

Spain, M, Wong, JK-H, Nagalingam, G, Batten, JM, Hortle, E, Oehlers, SH, Jiang, XF, Murage, HE, Orford, JT, Crisologo, P, Triccas, JA, Rutledge, PJ, Todd, MH, Spain, M, Wong, JK-H, Nagalingam, G, Batten, JM, Hortle, E, Oehlers, SH, Jiang, XF, Murage, HE, Orford, JT, Crisologo, P, Triccas, JA, Rutledge, PJ, and Todd, MH

Abstract

We recently reported the discovery of nontoxic cyclam-derived compounds that are active against drug-resistant Mycobacterium tuberculosis. In this paper we report exploration of the structure-activity relationship for this class of compounds, identifying several simpler compounds with comparable activity. The most promising compound identified, possessing significantly improved water solubility, displayed high levels of bacterial clearance in an in vivo zebrafish embryo model, suggesting this compound series has promise for in vivo treatment of tuberculosis.

Published

2018

3. Addressing the most neglected diseases through an open research model: The discovery of fenarimols as novel drug candidates for eumycetoma

Author

Lim, Wilson, Melse, Y (Youri), Konings, Mickey, Duong, HP, Eadie, Kimberly, Laleu, B, Perry, B, Todd, MH, Ioset, JR, Laureijssen - van de Sande, Wendy, Lim, Wilson, Melse, Y (Youri), Konings, Mickey, Duong, HP, Eadie, Kimberly, Laleu, B, Perry, B, Todd, MH, Ioset, JR, and Laureijssen - van de Sande, Wendy

Published

2018

4. Open Source Drug Discovery: Highly Potent Antimalarial Compounds Derived from the Tres Cantos Arylpyrroles

Author

Williamson, AE, Ylioja, PM, Robertson, MN, Antonova-Koch, Y, Avery, V, Baell, JB, Batchu, H, Batra, S, Burrows, JN, Bhattacharyya, S, Calderon, F, Charman, SA, Clark, J, Crespo, B, Dean, M, Debbert, SL, Delves, M, Dennis, ASM, Deroose, F, Duffy, S, Fletcher, S, Giaever, G, Hallyburton, I, Gamo, F-J, Gebbia, M, Guy, RK, Hungerford, Z, Kirk, K, Lafuente-Monasterio, MJ, Lee, A, Meister, S, Nislow, C, Overington, JP, Papadatos, G, Patiny, L, Pham, J, Ralph, SA, Ruecker, A, Ryan, E, Southan, C, Srivastava, K, Swain, C, Tarnowski, MJ, Thomson, P, Turner, P, Wallace, IM, Wells, TNC, White, K, White, L, Willis, P, Winzeler, EA, Wittlin, S, Todd, MH, Williamson, AE, Ylioja, PM, Robertson, MN, Antonova-Koch, Y, Avery, V, Baell, JB, Batchu, H, Batra, S, Burrows, JN, Bhattacharyya, S, Calderon, F, Charman, SA, Clark, J, Crespo, B, Dean, M, Debbert, SL, Delves, M, Dennis, ASM, Deroose, F, Duffy, S, Fletcher, S, Giaever, G, Hallyburton, I, Gamo, F-J, Gebbia, M, Guy, RK, Hungerford, Z, Kirk, K, Lafuente-Monasterio, MJ, Lee, A, Meister, S, Nislow, C, Overington, JP, Papadatos, G, Patiny, L, Pham, J, Ralph, SA, Ruecker, A, Ryan, E, Southan, C, Srivastava, K, Swain, C, Tarnowski, MJ, Thomson, P, Turner, P, Wallace, IM, Wells, TNC, White, K, White, L, Willis, P, Winzeler, EA, Wittlin, S, and Todd, MH

Abstract

The development of new antimalarial compounds remains a pivotal part of the strategy for malaria elimination. Recent large-scale phenotypic screens have provided a wealth of potential starting points for hit-to-lead campaigns. One such public set is explored, employing an open source research mechanism in which all data and ideas were shared in real time, anyone was able to participate, and patents were not sought. One chemical subseries was found to exhibit oral activity but contained a labile ester that could not be replaced without loss of activity, and the original hit exhibited remarkable sensitivity to minor structural change. A second subseries displayed high potency, including activity within gametocyte and liver stage assays, but at the cost of low solubility. As an open source research project, unexplored avenues are clearly identified and may be explored further by the community; new findings may be cumulatively added to the present work.

Published

2016

5. A synthetically simple, click-generated cyclam-based zinc(ll) sensor

Author

Tamanini, E, Katewa, A, Sedger, LM, Todd, MH, and Watkinson, M

Subjects

Electron Transport, Mice, Zinc, Light, Heterocyclic Compounds, Animals, Inorganic & Nuclear Chemistry, Triazoles, Binding, Competitive, Fluorescence, Cell Line, Carbonic Anhydrases, Fluorescent Dyes

Abstract

A cyclam-based macrocyclic sensor has been prepared using synthetically simple "click" chemistry to link a fluorophore to the macrocyclic receptor. This sensor shows high selectivity for Zn(ll) over a range of other metals, providing a significant enhancement of fluorescence intensity over a wide pH range. As such, this is the first cyclam-based sensor demonstrated to be selective for Zn(ll) and is the first example of a triazole being used as a coordinating ligand on an azamacrocycle. The sensor can access biologically available zinc in mammalian cells, sensing the Zn(ll) flux that exists during apoptotic cell death. © 2009 American Chemical Society.

Published

2009

6. Identification of Dihydropyrazolo[1,5- a ]pyrazin-4(5 H )-ones as Cyclic Products of β-Amidomethyl Vinyl Sulfone Alphavirus Cysteine Protease Inhibitors.

Author

Ghoshal A, Magalhães ÁF, Asressu KH, Hossain MA, Todd MH, and Willson TM

Abstract

Optimized syntheses of ( E )-5-(2-ethoxyphenyl)- N -(3-(methylsulfonyl)allyl)-1 H -pyrazole-3-carboxamide (RA-0002034, 1 ), a promising antiviral covalent cysteine protease inhibitor lead, were developed. The syntheses avoid the contamination of 1 with the inactive cyclic dihydropyrazolo[1,5- a ]pyrazin-4(5 H )-one 2 , which is formed by the intramolecular aza-Michael reaction of the vinyl sulfone warhead under basic conditions and slowly at pH 7.4 in phosphate buffer. The pure cysteine protease inhibitor 1 could be synthesized using either modified amide coupling conditions or through the introduction of a MOM-protecting group and was stable as a TFA or HCl salt. Although acyclic 1 demonstrated poor pharmacokinetics with high in vivo clearance in mice, inactive cyclic 2 showed improved plasma exposure. The potential use of cyclic dihydropyrazolo[1,5- a ]pyrazin-4(5 H )-ones as prodrugs for the acyclic β-amidomethyl vinyl sulfone warhead was demonstrated by GSH capture experiments with an analog of 2 .

Published

2024

7. Reaction hijacking inhibition of Plasmodium falciparum asparagine tRNA synthetase.

Author

Xie SC, Wang Y, Morton CJ, Metcalfe RD, Dogovski C, Pasaje CFA, Dunn E, Luth MR, Kumpornsin K, Istvan ES, Park JS, Fairhurst KJ, Ketprasit N, Yeo T, Yildirim O, Bhebhe MN, Klug DM, Rutledge PJ, Godoy LC, Dey S, De Souza ML, Siqueira-Neto JL, Du Y, Puhalovich T, Amini M, Shami G, Loesbanluechai D, Nie S, Williamson N, Jana GP, Maity BC, Thomson P, Foley T, Tan DS, Niles JC, Han BW, Goldberg DE, Burrows J, Fidock DA, Lee MCS, Winzeler EA, Griffin MDW, Todd MH, and Tilley L

Subjects

Animals, Humans, Plasmodium falciparum genetics, Asparagine metabolism, RNA, Transfer, Amino Acyl metabolism, Mammals genetics, Aspartate-tRNA Ligase genetics, Antimalarials pharmacology

Abstract

Malaria poses an enormous threat to human health. With ever increasing resistance to currently deployed drugs, breakthrough compounds with novel mechanisms of action are urgently needed. Here, we explore pyrimidine-based sulfonamides as a new low molecular weight inhibitor class with drug-like physical parameters and a synthetically accessible scaffold. We show that the exemplar, OSM-S-106, has potent activity against parasite cultures, low mammalian cell toxicity and low propensity for resistance development. In vitro evolution of resistance using a slow ramp-up approach pointed to the Plasmodium falciparum cytoplasmic asparaginyl-tRNA synthetase (PfAsnRS) as the target, consistent with our finding that OSM-S-106 inhibits protein translation and activates the amino acid starvation response. Targeted mass spectrometry confirms that OSM-S-106 is a pro-inhibitor and that inhibition of PfAsnRS occurs via enzyme-mediated production of an Asn-OSM-S-106 adduct. Human AsnRS is much less susceptible to this reaction hijacking mechanism. X-ray crystallographic studies of human AsnRS in complex with inhibitor adducts and docking of pro-inhibitors into a model of Asn-tRNA-bound PfAsnRS provide insights into the structure-activity relationship and the selectivity mechanism., (© 2024. The Author(s).)

Published

2024

8. Open Source Antibiotics: Simple Diarylimidazoles Are Potent against Methicillin-Resistant Staphylococcus aureus .

Author

Klug DM, Tse EG, Silva DG, Cao Y, Charman SA, Chauhan J, Crighton E, Dichiara M, Drake C, Drewry D, da Silva Emery F, Ferrins L, Graves L, Hopkins E, Kresina TAC, Lorente-Macías Á, Perry B, Phipps R, Quiroga B, Quotadamo A, Sabatino GN, Sama A, Schätzlein A, Simpson QJ, Steele J, Shanu-Wilson J, Sjö P, Stapleton P, Swain CJ, Vaideanu A, Xie H, Zuercher W, and Todd MH

Subjects

Rats, Animals, Proteomics, Microbial Sensitivity Tests, Structure-Activity Relationship, Anti-Bacterial Agents pharmacology, Methicillin-Resistant Staphylococcus aureus

Abstract

Antimicrobial resistance (AMR) is widely acknowledged as one of the most serious public health threats facing the world, yet the private sector finds it challenging to generate much-needed medicines. As an alternative discovery approach, a small array of diarylimidazoles was screened against the ESKAPE pathogens, and the results were made publicly available through the Open Source Antibiotics (OSA) consortium (https://github.com/opensourceantibiotics). Of the 18 compounds tested (at 32 μg/mL), 15 showed >90% growth inhibition activity against methicillin-resistant Staphylococcus aureus (MRSA) alone. In the subsequent hit-to-lead optimization of this chemotype, 147 new heterocyclic compounds containing the diarylimidazole and other core motifs were synthesized and tested against MRSA, and their structure-activity relationships were identified. While potent, these compounds have moderate to high intrinsic clearance and some associated toxicity. The best overall balance of parameters was found with OSA_975, a compound with good potency, good solubility, and reduced intrinsic clearance in rat hepatocytes. We have progressed toward the knowledge of the molecular target of these phenotypically active compounds, with proteomic techniques suggesting TGFBR1 is potentially involved in the mechanism of action. Further development of these compounds toward antimicrobial medicines is available to anyone under the licensing terms of the project.

Published

2023

9. Structure-Property Optimization of a Series of Imidazopyridines for Visceral Leishmaniasis.

Author

Dichiara M, Simpson QJ, Quotadamo A, Jalani HB, Huang AX, Millard CC, Klug DM, Tse EG, Todd MH, Silva DG, da Silva Emery F, Carlson JE, Zheng SL, Vleminckx M, Matheeussen A, Caljon G, Pollastri MP, Sjö P, Perry B, and Ferrins L

Subjects

Humans, Neglected Diseases, Imidazoles pharmacology, Leishmaniasis, Visceral drug therapy, Leishmaniasis, Leishmania

Abstract

Leishmaniasis is a collection of diseases caused by more than 20 Leishmania parasite species that manifest as either visceral, cutaneous, or mucocutaneous leishmaniasis. Despite the significant mortality and morbidity associated with leishmaniasis, it remains a neglected tropical disease. Existing treatments have variable efficacy, significant toxicity, rising resistance, and limited oral bioavailability, which necessitates the development of novel and affordable therapeutics. Here, we report on the continued optimization of a series of imidazopyridines for visceral leishmaniasis and a scaffold hop to a series of substituted 2-(pyridin-2-yl)-6,7-dihydro-5 H -pyrrolo[1,2- a ]imidazoles with improved absorption, distribution, metabolism, and elimination properties.

Published

2023

10. Reaction hijacking inhibition of Plasmodium falciparum asparagine tRNA synthetase.

Author

Xie SC, Wang Y, Morton CJ, Metcalfe RD, Dogovski C, Pasaje CFA, Dunn E, Luth MR, Kumpornsin K, Istvan ES, Park JS, Fairhurst KJ, Ketprasit N, Yeo T, Yildirim O, Bhebhe MN, Klug DM, Rutledge PJ, Godoy LC, Dey S, De Souza ML, Siqueira-Neto JL, Du Y, Puhalovich T, Amini M, Shami G, Loesbanluechai D, Nie S, Williamson N, Jana GP, Maity BC, Thomson P, Foley T, Tan DS, Niles JC, Han BW, Goldberg DE, Burrows J, Fidock DA, Lee MCS, Winzeler EA, Griffin MDW, Todd MH, and Tilley L

Abstract

Malaria poses an enormous threat to human health. With ever increasing resistance to currently deployed drugs, breakthrough compounds with novel mechanisms of action are urgently needed. Here, we explore pyrimidine-based sulfonamides as a new low molecular weight inhibitor class with drug-like physical parameters and a synthetically accessible scaffold. We show that the exemplar, OSM-S-106, has potent activity against parasite cultures, low mammalian cell toxicity and low propensity for resistance development. In vitro evolution of resistance using a slow ramp-up approach pointed to the Plasmodium falciparum cytoplasmic asparaginyl tRNA synthetase ( Pf AsnRS) as the target, consistent with our finding that OSM-S-106 inhibits protein translation and activates the amino acid starvation response. Targeted mass spectrometry confirms that OSM-S-106 is a pro-inhibitor and that inhibition of Pf AsnRS occurs via enzyme-mediated production of an Asn-OSM-S-106 adduct. Human AsnRS is much less susceptible to this reaction hijacking mechanism. X-ray crystallographic studies of human AsnRS in complex with inhibitor adducts and docking of pro-inhibitors into a model of Asn-tRNA-bound Pf AsnRS provide insights into the structure activity relationship and the selectivity mechanism., Competing Interests: Competing interests. The authors have no competing interests to declare.

Published

2023

11. Target 2035 - an update on private sector contributions.

Author

Ackloo S, Antolin AA, Bartolome JM, Beck H, Bullock A, Betz UAK, Böttcher J, Brown PJ, Chaturvedi M, Crisp A, Daniels D, Dreher J, Edfeldt K, Edwards AM, Egner U, Elkins J, Fischer C, Glendorf T, Goldberg S, Hartung IV, Hillisch A, Homan E, Knapp S, Köster M, Krämer O, Llaveria J, Lessel U, Lindemann S, Linderoth L, Matsui H, Michel M, Montel F, Mueller-Fahrnow A, Müller S, Owen DR, Saikatendu KS, Santhakumar V, Sanderson W, Scholten C, Schapira M, Sharma S, Shireman B, Sundström M, Todd MH, Tredup C, Venable J, Willson TM, and Arrowsmith CH

Abstract

Target 2035, an international federation of biomedical scientists from the public and private sectors, is leveraging 'open' principles to develop a pharmacological tool for every human protein. These tools are important reagents for scientists studying human health and disease and will facilitate the development of new medicines. It is therefore not surprising that pharmaceutical companies are joining Target 2035, contributing both knowledge and reagents to study novel proteins. Here, we present a brief progress update on Target 2035 and highlight some of industry's contributions., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

12. Perphenazine-Macrocycle Conjugates Rapidly Sequester the Aβ42 Monomer and Prevent Formation of Toxic Oligomers and Amyloid.

Author

Ball SR, Adamson JSP, Sullivan MA, Zimmermann MR, Lo V, Sanz-Hernandez M, Jiang X, Kwan AH, McKenzie ADJ, Werry EL, Knowles TPJ, Kassiou M, Meisl G, Todd MH, Rutledge PJ, and Sunde M

Subjects

Humans, Amyloid beta-Peptides, Amyloid, Amyloidogenic Proteins, Peptide Fragments, Perphenazine, Alzheimer Disease

Abstract

Alzheimer's disease is imposing a growing social and economic burden worldwide, and effective therapies are urgently required. One possible approach to modulation of the disease outcome is to use small molecules to limit the conversion of monomeric amyloid (Aβ42) to cytotoxic amyloid oligomers and fibrils. We have synthesized modulators of amyloid assembly that are unlike others studied to date: these compounds act primarily by sequestering the Aβ42 monomer. We provide kinetic and nuclear magnetic resonance data showing that these perphenazine conjugates divert the Aβ42 monomer into amorphous aggregates that are not cytotoxic. Rapid monomer sequestration by the compounds reduces fibril assembly, even in the presence of pre-formed fibrillar seeds. The compounds are therefore also able to disrupt monomer-dependent secondary nucleation, the autocatalytic process that generates the majority of toxic oligomers. The inhibitors have a modular design that is easily varied, aiding future exploration and use of these tools to probe the impact of distinct Aβ42 species populated during amyloid assembly.

Published

2023

13. CACHE (Critical Assessment of Computational Hit-finding Experiments): A public-private partnership benchmarking initiative to enable the development of computational methods for hit-finding.

Author

Ackloo S, Al-Awar R, Amaro RE, Arrowsmith CH, Azevedo H, Batey RA, Bengio Y, Betz UAK, Bologa CG, Chodera JD, Cornell WD, Dunham I, Ecker GF, Edfeldt K, Edwards AM, Gilson MK, Gordijo CR, Hessler G, Hillisch A, Hogner A, Irwin JJ, Jansen JM, Kuhn D, Leach AR, Lee AA, Lessel U, Morgan MR, Moult J, Muegge I, Oprea TI, Perry BG, Riley P, Rousseaux SAL, Saikatendu KS, Santhakumar V, Schapira M, Scholten C, Todd MH, Vedadi M, Volkamer A, and Willson TM

Abstract

One aspirational goal of computational chemistry is to predict potent and drug-like binders for any protein, such that only those that bind are synthesized. In this Roadmap, we describe the launch of Critical Assessment of Computational Hit-finding Experiments (CACHE), a public benchmarking project to compare and improve small molecule hit-finding algorithms through cycles of prediction and experimental testing. Participants will predict small molecule binders for new and biologically relevant protein targets representing different prediction scenarios. Predicted compounds will be tested rigorously in an experimental hub, and all predicted binders as well as all experimental screening data, including the chemical structures of experimentally tested compounds, will be made publicly available, and not subject to any intellectual property restrictions. The ability of a range of computational approaches to find novel binders will be evaluated, compared, and openly published. CACHE will launch 3 new benchmarking exercises every year. The outcomes will be better prediction methods, new small molecule binders for target proteins of importance for fundamental biology or drug discovery, and a major technological step towards achieving the goal of Target 2035, a global initiative to identify pharmacological probes for all human proteins.

Published

2022

14. Platinum binding preferences dominate the binding of novel polyamide amidine anthraquinone platinum(II) complexes to DNA.

Author

Lo ATS, Chen JK, Murray V, Todd MH, and Hambley TW

Subjects

Binding Sites, Molecular Structure, Anthraquinones chemistry, DNA chemistry, Organoplatinum Compounds chemistry, Platinum chemistry

Abstract

Complexes incorporating a threading anthraquinone intercalator with pyrrole lexitropsin and platinum(II) moieties attached were developed with the goal of generating novel DNA binding modes, including the targeting of AT-rich regions in order to have high cytotoxicities. The binding of the complexes to DNA has been investigated and profiles surprisingly similar to that for cisplatin were observed; the profiles were different to those for a complex lacking the pyrrole lexitropsin component. The lack of selective binding to AT-rich regions suggests the platinum binding was dominating the sequence selectivity, and is consistent with the pyrrole lexitropsin slowing intercalation. The DNA unwinding profiles following platinum binding were evaluated by gel electrophoresis and suggested that intercalation and platinum binding were both occurring.

Published

2021

15. Target 2035 - update on the quest for a probe for every protein.

Author

Müller S, Ackloo S, Al Chawaf A, Al-Lazikani B, Antolin A, Baell JB, Beck H, Beedie S, Betz UAK, Bezerra GA, Brennan PE, Brown D, Brown PJ, Bullock AN, Carter AJ, Chaikuad A, Chaineau M, Ciulli A, Collins I, Dreher J, Drewry D, Edfeldt K, Edwards AM, Egner U, Frye SV, Fuchs SM, Hall MD, Hartung IV, Hillisch A, Hitchcock SH, Homan E, Kannan N, Kiefer JR, Knapp S, Kostic M, Kubicek S, Leach AR, Lindemann S, Marsden BD, Matsui H, Meier JL, Merk D, Michel M, Morgan MR, Mueller-Fahrnow A, Owen DR, Perry BG, Rosenberg SH, Saikatendu KS, Schapira M, Scholten C, Sharma S, Simeonov A, Sundström M, Superti-Furga G, Todd MH, Tredup C, Vedadi M, von Delft F, Willson TM, Winter GE, Workman P, and Arrowsmith CH

Abstract

Twenty years after the publication of the first draft of the human genome, our knowledge of the human proteome is still fragmented. The challenge of translating the wealth of new knowledge from genomics into new medicines is that proteins, and not genes, are the primary executers of biological function. Therefore, much of how biology works in health and disease must be understood through the lens of protein function. Accordingly, a subset of human proteins has been at the heart of research interests of scientists over the centuries, and we have accumulated varying degrees of knowledge about approximately 65% of the human proteome. Nevertheless, a large proportion of proteins in the human proteome (∼35%) remains uncharacterized, and less than 5% of the human proteome has been successfully targeted for drug discovery. This highlights the profound disconnect between our abilities to obtain genetic information and subsequent development of effective medicines. Target 2035 is an international federation of biomedical scientists from the public and private sectors, which aims to address this gap by developing and applying new technologies to create by year 2035 chemogenomic libraries, chemical probes, and/or biological probes for the entire human proteome., Competing Interests: A. A. A., B. A.-L., I. C., and P. W. are employees of the Institute of Cancer Research (ICR) which operates a Rewards to Inventors scheme whereby employees of the ICR may receive financial benefit following commercial licensing of their research. P. W. is a consultant/scientific advisory board member for Nextech Invest Ltd, Storm Therapeutics, Astex Pharmaceuticals, Black Diamond Therapeutics, CV6 and Vividion Therapeutics, and holds stock in Chroma Therapeutics, NextInvest, and Storm Therapeutics. P. W. is also a non-executive director of Storm Therapeutics and the Royal Marsden NHS Trust; a board member and executive director of the non-profit Chemical Probes Portal; and a former employee of AstraZeneca. P. W. has received research funding from Vernalis, Astex Therapeutics, Merck KGaA, BACIT/Sixth Element Capital/CRT Pioneer Fund. B. A.-L. is/was a consultant/scientific advisory board member for GSK, Open Targets, Astex Pharmaceuticals, Nuvectis Pharma and Astellas Pharma, and is an ex-employee of Inpharmatica Ltd. A. A. A., B. A.-L., and P. W. have been instrumental in the creation/development of canSAR and Probe Miner. B. A.-L. was instrumental in the creation of ChEMBL and is a director of the non-profit Chemical Probes Portal. I. C. is/was a consultant to Epidarex LLP, AdoRx Therapeutics, and Enterprise Therapeutics, and is a director of the non-profit Chemical Probes Portal. I. C. has received research funding from Astex, Merck KGaA, Janssen Biopharma, Monte Rosa Therapeutics, and Sixth Element Capital/CRT Pioneer Fund. I. C. holds stock in Monte Rosa Therapeutics AG and is a former employee of Merck Sharp & Dohme. M. K. is a paid consultant for Life Science Editors (LSE). A. C. receives or has received sponsored research support from Almirall, Amphista therapeutics, Boehringer Ingelheim, Eisai, Nurix therapeutics, and Ono Pharmaceuticals. A. C. is a scientific founder, shareholder, and consultant of Amphista therapeutics. A. R. L. has consulted for Astex Therapeutics and has received research funding from Novo Nordisk. S. Ku. is a co-founder and shareholder of Proxygen GmbH and Solgate GmbH. G. E. W. is a founder and shareholder of Proxygen and Solgate Therapeutics. He is on the Research Review Committee of Almirall and coordinates a research collaboration between CeMM and Pfizer. S. F. reports equity ownership and membership on the Meryx Board of Directors and consulting or SAB relationships with Artios, Astex, Cullgen, Design Therapeutics, Flare, Mitokinin, Pathios, ReViral and eFFector. This communication reflects the views of the authors and neither IMI nor the European Union, EFPIA or any Associated Partners are liable for any use that may be made of the information contained herein., (This journal is © The Royal Society of Chemistry.)

Published

2021

16. An Open Drug Discovery Competition: Experimental Validation of Predictive Models in a Series of Novel Antimalarials.

Author

Tse EG, Aithani L, Anderson M, Cardoso-Silva J, Cincilla G, Conduit GJ, Galushka M, Guan D, Hallyburton I, Irwin BWJ, Kirk K, Lehane AM, Lindblom JCR, Lui R, Matthews S, McCulloch J, Motion A, Ng HL, Öeren M, Robertson MN, Spadavecchio V, Tatsis VA, van Hoorn WP, Wade AD, Whitehead TM, Willis P, and Todd MH

Subjects

Humans, Plasmodium falciparum drug effects, Plasmodium falciparum enzymology, Structure-Activity Relationship, Antimalarials chemistry, Antimalarials pharmacology, Calcium-Transporting ATPases antagonists & inhibitors, Drug Discovery, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology, Models, Biological

Abstract

The Open Source Malaria (OSM) consortium is developing compounds that kill the human malaria parasite, Plasmodium falciparum , by targeting Pf ATP4, an essential ion pump on the parasite surface. The structure of Pf ATP4 has not been determined. Here, we describe a public competition created to develop a predictive model for the identification of Pf ATP4 inhibitors, thereby reducing project costs associated with the synthesis of inactive compounds. Competition participants could see all entries as they were submitted. In the final round, featuring private sector entrants specializing in machine learning methods, the best-performing models were used to predict novel inhibitors, of which several were synthesized and evaluated against the parasite. Half possessed biological activity, with one featuring a motif that the human chemists familiar with this series would have dismissed as "ill-advised". Since all data and participant interactions remain in the public domain, this research project "lives" and may be improved by others.

Published

2021

17. A critical overview of computational approaches employed for COVID-19 drug discovery.

Author

Muratov EN, Amaro R, Andrade CH, Brown N, Ekins S, Fourches D, Isayev O, Kozakov D, Medina-Franco JL, Merz KM, Oprea TI, Poroikov V, Schneider G, Todd MH, Varnek A, Winkler DA, Zakharov AV, Cherkasov A, and Tropsha A

Subjects

Antiviral Agents therapeutic use, COVID-19 virology, Clinical Trials as Topic, Humans, Pandemics, SARS-CoV-2 drug effects, Computer Simulation, Drug Design, Drug Discovery methods, Drug Repositioning, COVID-19 Drug Treatment

Abstract

COVID-19 has resulted in huge numbers of infections and deaths worldwide and brought the most severe disruptions to societies and economies since the Great Depression. Massive experimental and computational research effort to understand and characterize the disease and rapidly develop diagnostics, vaccines, and drugs has emerged in response to this devastating pandemic and more than 130 000 COVID-19-related research papers have been published in peer-reviewed journals or deposited in preprint servers. Much of the research effort has focused on the discovery of novel drug candidates or repurposing of existing drugs against COVID-19, and many such projects have been either exclusively computational or computer-aided experimental studies. Herein, we provide an expert overview of the key computational methods and their applications for the discovery of COVID-19 small-molecule therapeutics that have been reported in the research literature. We further outline that, after the first year the COVID-19 pandemic, it appears that drug repurposing has not produced rapid and global solutions. However, several known drugs have been used in the clinic to cure COVID-19 patients, and a few repurposed drugs continue to be considered in clinical trials, along with several novel clinical candidates. We posit that truly impactful computational tools must deliver actionable, experimentally testable hypotheses enabling the discovery of novel drugs and drug combinations, and that open science and rapid sharing of research results are critical to accelerate the development of novel, much needed therapeutics for COVID-19.

Published

2021

18. There is no market for new antibiotics: this allows an open approach to research and development.

Author

Klug DM, Idiris FIM, Blaskovich MAT, von Delft F, Dowson CG, Kirchhelle C, Roberts AP, Singer AC, and Todd MH

Abstract

There is an increasingly urgent need for new antibiotics, yet there is a significant and persistent economic problem when it comes to developing such medicines. The problem stems from the perceived need for a "market" to drive commercial antibiotic development. In this article, we explore abandoning the market as a prerequisite for successful antibiotic research and development. Once one stops trying to fix a market model that has stopped functioning, one is free to carry out research and development (R&D) in ways that are more openly collaborative, a mechanism that has been demonstrably effective for the R&D underpinning the response to the COVID pandemic. New "open source" research models have great potential for the development of medicines for areas of public health where the traditional profit-driven model struggles to deliver. New financial initiatives, including major push/pull incentives, aimed at fixing the broken antibiotics market provide one possible means for funding an openly collaborative approach to drug development. We argue that now is therefore the time to evaluate, at scale, whether such methods can deliver new medicines through to patients, in a timely manner., Competing Interests: No competing interests were disclosed., (Copyright: © 2021 Klug DM et al.)

Published

2021

19. Novel polyamide amidine anthraquinone platinum(II) complexes: cytotoxicity, cellular accumulation, and fluorescence distributions in 2D and 3D cell culture models.

Author

Lo ATS, Bryce NS, Klein AV, Todd MH, and Hambley TW

Subjects

Humans, Amidines chemistry, Nylons chemistry, Cell Line, Tumor, Organoplatinum Compounds chemistry, Organoplatinum Compounds pharmacology, Organoplatinum Compounds chemical synthesis, Drug Screening Assays, Antitumor, Platinum chemistry, Fluorescence, Molecular Structure, Cell Survival drug effects, Cell Culture Techniques, Three Dimensional methods, Anthraquinones chemistry, Anthraquinones pharmacology, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry

Abstract

1- and 1,5-Aminoalkylamine substituted anthraquinones (AAQs, 1C3 and 1,5C3) were peptide coupled to 1-, 2-, and 3-pyrrole lexitropsins to generate compounds that incorporated both DNA minor groove and intercalating moieties. The corresponding platinum(II) amidine complexes were synthesized through a synthetically facile amine-to-platinum mediated nitrile 'Click' reaction. The precursors as well as the corresponding platinum(II) complexes were biologically evaluated in 2D monolayer cells and 3D tumour cell models. Despite having cellular accumulation levels that were up to five-fold lower than that of cisplatin, the platinum complexes had cytotoxicities that were only three-fold lower. Accumulation was lowest for the complexes with two or three pyrrole groups, but the latter was the most active of the complexes exceeding the activity of cisplatin in the MDA-MB-231 cell line. All compounds showed moderate to good penetration into spheroids of DLD-1 cells with the distributions being consistent with active uptake of the pyrrole containing complexes in regions of the spheroids starved of nutrients.

Published

2021

20. Copper(ii) complexes of N-propargyl cyclam ligands reveal a range of coordination modes and colours, and unexpected reactivity.

Author

Counsell AJ, Yu M, Shi M, Jones AT, Batten JM, Turner P, Todd MH, and Rutledge PJ

Abstract

The coordination chemistry of N-functionalised cyclam ligands has a rich history, yet cyclam derivatives with pendant alkynes are largely unexplored. This is despite the significant potential and burgeoning application of N-propargyl cyclams and related compounds in the creation of diversely functionalised cyclam derivatives via copper-catalysed azide-alkyne 'click' reactions. Herein we describe single crystal X-ray diffraction and spectroscopic investigations of the coordination chemistry of copper(ii) complexes of cyclam derivatives with between 1 and 4 pendant alkynes. The crystal structures of these copper complexes unexpectedly reveal a range of coordination modes, and the surprising occurrence of five unique complexes within a single recrystallisation of the tetra-N-propargyl cyclam ligand. One of these species exhibits weak intramolecular copper-alkyne coordination, and another is formed by a surprising intramolecular copper-mediated hydroalkoxylation reaction with the solvent methanol, transforming one of the pendant alkynes to an enol ether. Multiple functionalisation of the tetra-N-propargyl ligand is demonstrated via a 'tetra-click' reaction with benzyl azide, and the copper-binding behaviour of the resulting tetra-triazole ligand is characterised spectroscopically.

Published

2021

21. tele -Substitution Reactions in the Synthesis of a Promising Class of 1,2,4-Triazolo[4,3- a ]pyrazine-Based Antimalarials.

Author

Korsik M, Tse EG, Smith DG, Lewis W, Rutledge PJ, and Todd MH

Subjects

Halogens, Pyrazines, Solvents, Antimalarials pharmacology

Abstract

We have discovered and studied a tele -substitution reaction in a biologically important heterocyclic ring system. Conditions that favor the tele -substitution pathway were identified: the use of increased equivalents of the nucleophile or decreased equivalents of base or the use of softer nucleophiles, less polar solvents, and larger halogens on the electrophile. Using results from X-ray crystallographic and isotope labeling experiments, a mechanism for this unusual transformation is proposed. We focused on this triazolopyrazine as it is the core structure of the in vivo active antiplasmodium compounds of Series 4 of the Open Source Malaria consortium.

Published

2020

22. Nonclassical Phenyl Bioisosteres as Effective Replacements in a Series of Novel Open-Source Antimalarials.

Author

Tse EG, Houston SD, Williams CM, Savage GP, Rendina LM, Hallyburton I, Anderson M, Sharma R, Walker GS, Obach RS, and Todd MH

Subjects

Antimalarials chemistry, Antimalarials pharmacology, Antimalarials toxicity, Bridged Bicyclo Compounds chemistry, Bridged Bicyclo Compounds pharmacology, Bridged Bicyclo Compounds toxicity, Cell Survival drug effects, Chemistry, Pharmaceutical, Hep G2 Cells, Humans, Molecular Structure, Plasmodium falciparum drug effects, Antimalarials chemical synthesis, Boron Compounds chemistry, Bridged Bicyclo Compounds chemical synthesis, Drug Design

Abstract

The replacement of one chemical motif with another that is broadly similar is a common method in medicinal chemistry to modulate the physical and biological properties of a molecule (i.e., bioisosterism). In recent years, bioisosteres such as cubane and bicyclo[1.1.1]pentane (BCP) have been used as highly effective phenyl mimics. Herein, we show the successful incorporation of a range of phenyl bioisosteres during the open-source optimization of an antimalarial series. Cubane ( 19 ) and closo -carborane ( 23 ) analogues exhibited improved in vitro potency against Plasmodium falciparum compared to the parent phenyl compound; however, these changes resulted in a reduction in metabolic stability; unusually, enzyme-mediated oxidation was found to take place on the cubane core. A BCP analogue ( 22 ) was found to be equipotent to its parent phenyl compound and showed significantly improved metabolic properties. While these results demonstrate the utility of these atypical bioisosteres when used in a medicinal chemistry program, the search to find a suitable bioisostere may well require the preparation of many candidates, in our case, 32 compounds.

Published

2020

23. Open science approaches to COVID-19.

Author

Tse EG, Klug DM, and Todd MH

Subjects

Betacoronavirus, COVID-19, Humans, SARS-CoV-2, Biomedical Research trends, Coronavirus Infections, Information Dissemination methods, Open Access Publishing trends, Pandemics, Pneumonia, Viral

Abstract

In only a matter of months, the coronavirus disease of 2019 (COVID-19) has spread around the world. The global impact of the disease has caused significant and repeated calls for quick action towards new medicines and vaccines. In response, researchers have adopted open science methods to begin to combat this disease via global collaborative efforts. We summarise here some of those initiatives, and have created an updateable list to which others may be added. Though open science has previously been shown as an accelerator of biomedical research, the COVID-19 crisis has made openness seem the logical choice. Will openness persist in the discovery of new medicines, after the crisis has receded?, Competing Interests: No competing interests were disclosed., (Copyright: © 2020 Tse EG et al.)

Published

2020

24. Correction: Metal complexes as a promising source for new antibiotics.

Author

Frei A, Zuegg J, Elliott AG, Baker M, Braese S, Brown C, Chen F, Dowson CG, Dujardin G, Jung N, King AP, Mansour AM, Massi M, Moat J, Mohamed HA, Renfrew AK, Rutledge PJ, Sadler PJ, Todd MH, Willans CE, Wilson JJ, Cooper MA, and Blaskovich MAT

Abstract

[This corrects the article DOI: 10.1039/C9SC06460E.]., (This journal is © The Royal Society of Chemistry.)

Published

2020

25. Metal complexes as a promising source for new antibiotics.

Author

Frei A, Zuegg J, Elliott AG, Baker M, Braese S, Brown C, Chen F, G Dowson C, Dujardin G, Jung N, King AP, Mansour AM, Massi M, Moat J, Mohamed HA, Renfrew AK, Rutledge PJ, Sadler PJ, Todd MH, Willans CE, Wilson JJ, Cooper MA, and Blaskovich MAT

Abstract

There is a dire need for new antimicrobial compounds to combat the growing threat of widespread antibiotic resistance. With a currently very scarce drug pipeline, consisting mostly of derivatives of known antibiotics, new classes of antibiotics are urgently required. Metal complexes are currently in clinical development for the treatment of cancer, malaria and neurodegenerative diseases. However, only little attention has been paid to their application as potential antimicrobial compounds. We report the evaluation of 906 metal-containing compounds that have been screened by the Community for Open Antimicrobial Drug Discovery (CO-ADD) for antimicrobial activity. Metal-bearing compounds display a significantly higher hit-rate (9.9%) when compared to the purely organic molecules (0.87%) in the CO-ADD database. Out of 906 compounds, 88 show activity against at least one of the tested strains, including fungi, while not displaying any cytotoxicity against mammalian cell lines or haemolytic properties. Herein, we highlight the structures of the 30 compounds with activity against Gram-positive and/or Gram-negative bacteria containing Mn, Co, Zn, Ru, Ag, Eu, Ir and Pt, with activities down to the nanomolar range against methicillin resistant S. aureus (MRSA). 23 of these complexes have not been reported for their antimicrobial properties before. This work reveals the vast diversity that metal-containing compounds can bring to antimicrobial research. It is important to raise awareness of these types of compounds for the design of truly novel antibiotics with potential for combatting antimicrobial resistance., (This journal is © The Royal Society of Chemistry 2020.)

Published

2020

26. Six Laws of Open Source Drug Discovery.

Author

Todd MH

Subjects

Humans, Drug Costs legislation & jurisprudence, Drug Discovery, Drug Industry legislation & jurisprudence, Legislation, Drug

Abstract

Six to swear by! Society needs effective and affordable medicines. We currently have at our disposal essentially one system to discover and develop drugs, and there are many areas where this system struggles to deliver, for example to combat antimicrobial resistance, or tropical diseases, or dementia. It is sensible to cultivate alternative, competing approaches to drug discovery and development. A genuinely new alternative is to open up the entire research cycle, abandoning secrecy altogether. This "open source" approach has now been trialed and the lessons learned distilled to six laws of operation that help to clarify working practices. This article examines and explains those laws, which can be adopted by anyone wishing to create medicines using an inclusive, public process., (© 2019 The Author. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2019

27. The past, present and future of anti-malarial medicines.

Author

Tse EG, Korsik M, and Todd MH

Subjects

Humans, Antimalarials pharmacology, Malaria drug therapy

Abstract

Great progress has been made in recent years to reduce the high level of suffering caused by malaria worldwide. Notably, the use of insecticide-treated mosquito nets for malaria prevention and the use of artemisinin-based combination therapy (ACT) for malaria treatment have made a significant impact. Nevertheless, the development of resistance to the past and present anti-malarial drugs highlights the need for continued research to stay one step ahead. New drugs are needed, particularly those with new mechanisms of action. Here the range of anti-malarial medicines developed over the years are reviewed, beginning with the discovery of quinine in the early 1800s, through to modern day ACT and the recently-approved tafenoquine. A number of new potential anti-malarial drugs currently in development are outlined, along with a description of the hit to lead campaign from which it originated. Finally, promising novel mechanisms of action for these and future anti-malarial medicines are outlined.

Published

2019

28. Easy-To-Synthesize Spirocyclic Compounds Possess Remarkable in Vivo Activity against Mycobacterium tuberculosis.

Author

Guardia A, Baiget J, Cacho M, Pérez A, Ortega-Guerra M, Nxumalo W, Khanye SD, Rullas J, Ortega F, Jiménez E, Pérez-Herrán E, Fraile-Gabaldón MT, Esquivias J, Fernández R, Porras-De Francisco E, Encinas L, Alonso M, Giordano I, Rivero C, Miguel-Siles J, Osende JG, Badiola KA, Rutledge PJ, Todd MH, Remuiñán M, and Alemparte C

Subjects

Administration, Intravenous, Administration, Oral, Animals, Antitubercular Agents adverse effects, Biological Availability, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical methods, ERG1 Potassium Channel antagonists & inhibitors, Female, Heart drug effects, Humans, Maximum Tolerated Dose, Mice, Inbred C57BL, Mycobacterium tuberculosis drug effects, Rabbits, Antitubercular Agents chemistry, Antitubercular Agents pharmacology, Spiro Compounds chemical synthesis, Structure-Activity Relationship, Tuberculosis drug therapy

Abstract

Society urgently needs new, effective medicines for the treatment of tuberculosis. To kick-start the required hit-to-lead campaigns, the libraries of pharmaceutical companies have recently been evaluated for starting points. The GlaxoSmithKline (GSK) library yielded many high-quality hits, and the associated data were placed in the public domain to stimulate engagement by the wider community. One such series, the spiro compounds, are described here. The compounds were explored by a combination of traditional in-house research and open source methods. The series benefits from a particularly simple structure and a short associated synthetic chemistry route. Many members of the series displayed striking potency and low toxicity, and highly promising in vivo activity in a mouse model was confirmed with one of the analogues. Ultimately the series was discontinued due to concerns over safety, but the associated data remain public domain, empowering others to resume the series if the perceived deficiencies can be overcome.

Published

2018

29. Experimentally Validated Pharmacoinformatics Approach to Predict hERG Inhibition Potential of New Chemical Entities.

Author

Munawar S, Windley MJ, Tse EG, Todd MH, Hill AP, Vandenberg JI, and Jabeen I

Abstract

The hERG (human ether-a-go-go-related gene) encoded potassium ion (K + ) channel plays a major role in cardiac repolarization. Drug-induced blockade of hERG has been a major cause of potentially lethal ventricular tachycardia termed Torsades de Pointes (TdPs). Therefore, we presented a pharmacoinformatics strategy using combined ligand and structure based models for the prediction of hERG inhibition potential (IC 50 ) of new chemical entities (NCEs) during early stages of drug design and development. Integrated GRid-INdependent Descriptor (GRIND) models, and lipophilic efficiency (LipE), ligand efficiency (LE) guided template selection for the structure based pharmacophore models have been used for virtual screening and subsequent hERG activity (pIC 50 ) prediction of identified hits. Finally selected two hits were experimentally evaluated for hERG inhibition potential (pIC 50 ) using whole cell patch clamp assay. Overall, our results demonstrate a difference of less than ±1.6 log unit between experimentally determined and predicted hERG inhibition potential (IC 50 ) of the selected hits. This revealed predictive ability and robustness of our models and could help in correctly rank the potency order (lower μM to higher nM range) against hERG.

Published

2018

30. Antitubercular Bis-Substituted Cyclam Derivatives: Structure-Activity Relationships and in Vivo Studies.

Author

Spain M, Wong JK, Nagalingam G, Batten JM, Hortle E, Oehlers SH, Jiang XF, Murage HE, Orford JT, Crisologo P, Triccas JA, Rutledge PJ, and Todd MH

Subjects

Animals, Antitubercular Agents chemical synthesis, Antitubercular Agents chemistry, Aza Compounds chemical synthesis, Aza Compounds chemistry, Bacterial Load drug effects, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Coordination Complexes pharmacology, Drug Resistance, Bacterial, Heterocyclic Compounds, 1-Ring chemical synthesis, Heterocyclic Compounds, 1-Ring chemistry, Macrocyclic Compounds chemical synthesis, Macrocyclic Compounds chemistry, Metals, Heavy chemistry, Microbial Sensitivity Tests, Molecular Structure, Mycobacterium marinum drug effects, Solubility, Structure-Activity Relationship, Tuberculosis drug therapy, Zebrafish, Antitubercular Agents pharmacology, Aza Compounds pharmacology, Heterocyclic Compounds, 1-Ring pharmacology, Macrocyclic Compounds pharmacology

Abstract

We recently reported the discovery of nontoxic cyclam-derived compounds that are active against drug-resistant Mycobacterium tuberculosis. In this paper we report exploration of the structure-activity relationship for this class of compounds, identifying several simpler compounds with comparable activity. The most promising compound identified, possessing significantly improved water solubility, displayed high levels of bacterial clearance in an in vivo zebrafish embryo model, suggesting this compound series has promise for in vivo treatment of tuberculosis.

Published

2018

31. Addressing the most neglected diseases through an open research model: The discovery of fenarimols as novel drug candidates for eumycetoma.

Author

Lim W, Melse Y, Konings M, Phat Duong H, Eadie K, Laleu B, Perry B, Todd MH, Ioset JR, and van de Sande WWJ

Subjects

Animals, Female, Hyphae drug effects, Larva drug effects, Mycetoma microbiology, Neglected Diseases, Antifungal Agents therapeutic use, Madurella drug effects, Mycetoma drug therapy, Pyrimidines therapeutic use

Abstract

Eumycetoma is a chronic infectious disease characterized by a large subcutaneous mass, often caused by the fungus Madurella mycetomatis. A combination of surgery and prolonged medication is needed to treat this infection with a success rate of only 30%. There is, therefore, an urgent need to find more effective drugs for the treatment of this disease. In this study, we screened 800 diverse drug-like molecules and identified 215 molecules that were active in vitro. Minimal inhibitory concentrations were determined for the 13 most active compounds. One of the most potent compounds, a fenarimol analogue for which a large analogue library is available, led to the screening of an additional 35 compounds for their in vitro activity against M. mycetomatis hyphae, rendering four further hit compounds. To assess the in vivo potency of these hit compounds, a Galleria mellonella larvae model infected with M. mycetomatis was used. Several of the compounds identified in vitro demonstrated promising efficacy in vivo in terms of prolonged larval survival and/or reduced fungal burden. The results presented in this paper are the starting point of an Open Source Mycetoma (MycetOS) approach in which members of the global scientific community are invited to participate and contribute as equal partners. We hope that this initiative, coupled with the promising new hits we have reported, will lead to progress in drug discovery for this most neglected of neglected tropical diseases.

Published

2018

32. Molecular Switches for any pH: A Systematic Study of the Versatile Coordination Behaviour of Cyclam Scorpionands.

Author

Lau YH, Clegg JK, Price JR, Macquart RB, Todd MH, and Rutledge PJ

Abstract

Molecular switches have many potential applications in nanoscience and biomedicine. Transition metal complexes that can be switched from an inert, unreactive state to a catalytically active one by a simple change in conditions (e.g. pH shift) or by binding to a specific biomolecular target-so-called target-activated metal complexes (TAMCs)-hold particular allure as a means of harnessing the potent but at times indiscriminate reactivity of metal-based drugs. Towards this goal, we have prepared a series of ten structurally related ligands, each of which bears a different pendant side-arm functional group appended to a common macrocyclic core, along with copper(II) and nickel(II) complexes of these cyclam-based "molecular scorpionands". X-ray crystal structures reveal a variety of binding modes between pendant side-arm and metal centre that depend on the constituent donor atoms. To investigate the switchability of side-arm coordination in solution, spectrophotometric pH titrations were carried out for all 20 metal complexes. The majority of the complexes undergo spectroscopic changes that are consistent with a switch in pendant coordination state at a specific pH. This ligand series represents a comprehensive model platform from which to build pH-switchable metal complexes for applications in nanoscience and biomedicine., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

33. N-Aryl Groups Are Ubiquitous in Cross-Dehydrogenative Couplings Because They Stabilize Reactive Intermediates.

Author

Tsang AS, Hashmi ASK, Comba P, Kerscher M, Chan B, and Todd MH

Abstract

The mechanism of cross-dehydrogenative coupling (CDC) reactions has been examined by experimental and computational methods. We provide a rationale for the ubiquity of the N-aryl group in these reactions. The aryl substituent stabilizes two intermediates and the high-energy transition state that connects them, which together represent the rate-determining step. This knowledge has enabled us to predict whether new CDC substrates will react either well or poorly., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

34. An open source pharma roadmap.

Author

Balasegaram M, Kolb P, McKew J, Menon J, Olliaro P, Sablinski T, Thomas Z, Todd MH, Torreele E, and Wilbanks J

Subjects

Competitive Behavior, Drug Discovery economics, Drug Discovery methods, Drug Industry economics, Drug Industry methods, Humans, India, Models, Theoretical, Organizations, Nonprofit, Research economics, Research organization & administration, Consumer Advocacy standards, Drug Discovery organization & administration, Drug Industry organization & administration, Pharmaceutical Preparations supply & distribution

Abstract

In an Essay, Matthew Todd and colleagues discuss an open source approach to drug development.

Published

2017

35. Recent Advances in Macrocyclic Fluorescent Probes for Ion Sensing.

Author

Wong JK, Todd MH, and Rutledge PJ

Subjects

Crown Ethers chemistry, Cyclodextrins chemistry, Heterocyclic Compounds chemistry, Quantum Dots, Biosensing Techniques, Fluorescent Dyes chemistry, Ions chemistry, Macrocyclic Compounds chemistry

Abstract

Small-molecule fluorescent probes play a myriad of important roles in chemical sensing. Many such systems incorporating a receptor component designed to recognise and bind a specific analyte, and a reporter or transducer component which signals the binding event with a change in fluorescence output have been developed. Fluorescent probes use a variety of mechanisms to transmit the binding event to the reporter unit, including photoinduced electron transfer (PET), charge transfer (CT), Förster resonance energy transfer (FRET), excimer formation, and aggregation induced emission (AIE) or aggregation caused quenching (ACQ). These systems respond to a wide array of potential analytes including protons, metal cations, anions, carbohydrates, and other biomolecules. This review surveys important new fluorescence-based probes for these and other analytes that have been reported over the past five years, focusing on the most widely exploited macrocyclic recognition components, those based on cyclam, calixarenes, cyclodextrins and crown ethers; other macrocyclic and non-macrocyclic receptors are also discussed.

Published

2017

36. A direct method for the N -tetraalkylation of azamacrocycles.

Author

Counsell AJ, Jones AT, Todd MH, and Rutledge PJ

Abstract

An efficient protocol for the direct synthesis of N -tetraalkylated derivatives of the azamacrocycles cyclam and cyclen has been developed, using a partially miscible aqueous-organic solvent system with propargyl bromide, benzyl bromide, and related halides. The method works most effectively when the reaction mixture is shaken, not stirred. A crystal structure of the N -tetrapropargyl cyclam derivative 1,4,8,11-tetra(prop-2-yn-1-yl)-1,4,8,11-tetraazacyclotetradecane diperchlorate is reported.

Published

2016

37. Open Source Drug Discovery: Highly Potent Antimalarial Compounds Derived from the Tres Cantos Arylpyrroles.

Author

Williamson AE, Ylioja PM, Robertson MN, Antonova-Koch Y, Avery V, Baell JB, Batchu H, Batra S, Burrows JN, Bhattacharyya S, Calderon F, Charman SA, Clark J, Crespo B, Dean M, Debbert SL, Delves M, Dennis AS, Deroose F, Duffy S, Fletcher S, Giaever G, Hallyburton I, Gamo FJ, Gebbia M, Guy RK, Hungerford Z, Kirk K, Lafuente-Monasterio MJ, Lee A, Meister S, Nislow C, Overington JP, Papadatos G, Patiny L, Pham J, Ralph SA, Ruecker A, Ryan E, Southan C, Srivastava K, Swain C, Tarnowski MJ, Thomson P, Turner P, Wallace IM, Wells TN, White K, White L, Willis P, Winzeler EA, Wittlin S, and Todd MH

Abstract

The development of new antimalarial compounds remains a pivotal part of the strategy for malaria elimination. Recent large-scale phenotypic screens have provided a wealth of potential starting points for hit-to-lead campaigns. One such public set is explored, employing an open source research mechanism in which all data and ideas were shared in real time, anyone was able to participate, and patents were not sought. One chemical subseries was found to exhibit oral activity but contained a labile ester that could not be replaced without loss of activity, and the original hit exhibited remarkable sensitivity to minor structural change. A second subseries displayed high potency, including activity within gametocyte and liver stage assays, but at the cost of low solubility. As an open source research project, unexplored avenues are clearly identified and may be explored further by the community; new findings may be cumulatively added to the present work.

Published

2016

38. Synthesis and Evaluation of 1,8-Disubstituted-Cyclam/Naphthalimide Conjugates as Probes for Metal Ions.

Author

Wong JK, Ast S, Yu M, Flehr R, Counsell AJ, Turner P, Crisologo P, Todd MH, and Rutledge PJ

Abstract

Fluorescent molecular probes for metal ions have a raft of potential applications in chemistry and biomedicine. We report the synthesis and photophysical characterisation of 1,8-disubstituted-cyclam/naphthalimide conjugates and their zinc complexes. An efficient synthesis of 1,8-bis-(2-azidoethyl)cyclam has been developed and used to prepare 1,8-disubstituted triazolyl-cyclam systems, in which the pendant group is connected to triazole C4. UV/Vis and fluorescence emission spectra, zinc binding experiments, fluorescence quantum yield and lifetime measurements and pH titrations of the resultant bis-naphthalimide ligand elucidate a complex pattern of photophysical behaviour. Important differences arise from the inclusion of two fluorophores in the one probe and from the variation of triazole substitution pattern (dye at C4 vs. N1). Introducing a second fluorophore greatly extends fluorescence lifetimes, whereas the altered substitution pattern at the cyclam amines exerts a major influence on fluorescence output and metal binding. Crystal structures of two key zinc complexes evidence variations in triazole coordination that mirror the solution-phase behaviour of these systems.

Published

2016

39. Nontoxic Metal-Cyclam Complexes, a New Class of Compounds with Potency against Drug-Resistant Mycobacterium tuberculosis.

Author

Yu M, Nagalingam G, Ellis S, Martinez E, Sintchenko V, Spain M, Rutledge PJ, Todd MH, and Triccas JA

Subjects

Animals, Antitubercular Agents chemical synthesis, Antitubercular Agents chemistry, Cell Line, Dose-Response Relationship, Drug, Humans, Mice, Microbial Sensitivity Tests, Models, Molecular, Molecular Conformation, Mycobacterium tuberculosis growth & development, Organometallic Compounds chemical synthesis, Organometallic Compounds chemistry, Structure-Activity Relationship, Antitubercular Agents pharmacology, Mycobacterium tuberculosis drug effects, Organometallic Compounds pharmacology, Tuberculosis, Multidrug-Resistant drug therapy

Abstract

Tuberculosis (TB) accounted for 1.5 million deaths in 2014, and new classes of anti-TB drugs are required. We report a class of functionalized 1,8-disubstituted cyclam derivatives that display low micromolar activity against pathogenic mycobacteria. These compounds inhibit intracellular growth of Mycobacterium tuberculosis, are nontoxic to human cell lines, and are active against multidrug-resistant M. tuberculosis strains, indicating a distinct mode of action. These compounds warrant further appraisal as novel agents to control TB in humans.

Published

2016

40. Experiences with a researcher-centric ELN.

Author

Badiola KA, Bird C, Brocklesby WS, Casson J, Chapman RT, Coles SJ, Cronshaw JR, Fisher A, Frey JG, Gloria D, Grossel MC, Hibbert DB, Knight N, Mapp LK, Marazzi L, Matthews B, Milsted A, Minns RS, Mueller KT, Murphy K, Parkinson T, Quinnell R, Robinson JS, Robertson MN, Robins M, Springate E, Tizzard G, Todd MH, Williamson AE, Willoughby C, Yang E, and Ylioja PM

Abstract

Electronic Laboratory Notebooks (ELNs) are progressively replacing traditional paper books in both commercial research establishments and academic institutions. University researchers require specific features from ELNs, given the need to promote cross-institutional collaborative working, to enable the sharing of procedures and results, and to facilitate publication. The LabTrove ELN, which we use as our exemplar, was designed to be researcher-centric ( i.e. , not only aimed at the individual researcher's basic needs rather than to a specific institutional or subject or disciplinary agenda, but also able to be tailored because it is open source). LabTrove is being used in a heterogeneous set of academic laboratories, for a range of purposes, including analytical chemistry, X-ray studies, drug discovery and a biomaterials project. Researchers use the ELN for recording experiments, preserving data collected, and for project coordination. This perspective article describes the experiences of those researchers from several viewpoints, demonstrating how a web-based open source electronic notebook can meet the diverse needs of academic researchers.

Published

2015

41. Efficient deprotection of F-BODIPY derivatives: removal of BF2 using Brønsted acids.

Author

Yu M, Wong JK, Tang C, Turner P, Todd MH, and Rutledge PJ

Abstract

The effective and efficient removal of the BF2 moiety from F-BODIPY derivatives has been achieved using two common Brønsted acids; treatment with trifluoroacetic acid (TFA) or methanolic hydrogen chloride (HCl) followed by work-up with Ambersep(®) 900 resin (hydroxide form) effects this conversion in near-quantitative yields. Compared to existing methods, these conditions are relatively mild and operationally simple, requiring only reaction at room temperature for six hours (TFA) or overnight (HCl).

Published

2015

42. Using an open source model to accelerate schistosomiasis drug research.

Author

Todd MH and Coaker H

Subjects

Animals, Anthelmintics pharmacology, Humans, Internet, Praziquantel pharmacology, Anthelmintics therapeutic use, Drug Discovery methods, Praziquantel therapeutic use, Schistosoma drug effects, Schistosomiasis drug therapy, Software

Published

2015

43. pH-Responsive quantum dots (RQDs) that combine a fluorescent nanoparticle with a pH-sensitive dye.

Author

Ast S, Rutledge PJ, and Todd MH

Abstract

A quantum dot conjugated to a dye through an experimentally simple process of self-assembly exhibits an enhanced emission when the dye is attached, and this effect is pH-sensitive.

Published

2014

44. Efficient Synthesis and Anti-Tubercular Activity of a Series of Spirocycles: An Exercise in Open Science.

Author

Badiola KA, Quan DH, Triccas JA, and Todd MH

Subjects

Access to Information, Antitubercular Agents chemistry, Antitubercular Agents toxicity, Cell Line, Cell Survival drug effects, Chemistry, Pharmaceutical, Chromatography, Drug Industry, Humans, Internet, Molecular Structure, Mycobacterium tuberculosis growth & development, Proton Magnetic Resonance Spectroscopy, Antitubercular Agents chemical synthesis, Antitubercular Agents pharmacology, Mycobacterium tuberculosis drug effects

Abstract

Tuberculosis afflicts an estimated 2 billion people worldwide and causes 1.3 million deaths annually. Chemotherapeutic solutions rely on drugs developed many years ago, with only one new therapeutic having been approved in the last 40 years. Given the rise of drug-resistant strains, there is an urgent need for the development of a more robust drug development pipeline. GlaxoSmithKline recently placed the structures and activities of 177 novel anti-tubercular leads in the public domain, as well as the results of ongoing optimisation of some of the series. Since many of the compounds arose from screening campaigns, their provenance was unclear and synthetic routes were in many cases not reported. Here we present the efficient synthesis of several novel analogues of one family of the GSK compounds-termed "Spiros"-using an oxa-Pictet-Spengler reaction. The new compounds are attractive from a medicinal chemistry standpoint and some were potent against the virulent strain, suggesting this class is worthy of further study. The research was carried out using open source methodology, providing the community with full access to all raw experimental data in real time.

Published

2014

45. Neuroprotective peptide-macrocycle conjugates reveal complex structure-activity relationships in their interactions with amyloid β.

Author

Yu M, Ryan TM, Ellis S, Bush AI, Triccas JA, Rutledge PJ, and Todd MH

Subjects

Amino Acid Sequence, Amyloid beta-Peptides, Cell Line, Chelating Agents chemistry, Coordination Complexes chemistry, Coordination Complexes pharmacology, Drug Design, Humans, Macrocyclic Compounds chemistry, Metals metabolism, Neurons cytology, Neurons metabolism, Neuroprotective Agents chemistry, Oligopeptides chemistry, Peptide Fragments, Chelating Agents pharmacology, Macrocyclic Compounds pharmacology, Neurons drug effects, Neuroprotective Agents pharmacology, Oligopeptides pharmacology

Abstract

Interactions between amyloid β (Aβ) and metal ions are thought to mediate the neuropathogenic effects of Aβ in Alzheimer's disease. The construction of small molecules capable of synergistically chelating metal ions and recognizing Aβ would allow new insights into the biology of this disease and provide a possible therapeutic approach. We report herein the synthesis and biological evaluation of tetraazamacrocycle-(G)KLVFF hybrids and their metal complexes. The results obtained from ThT and bis-ANS extrinsic fluorescence assays, tyrosine intrinsic fluorescence assay and proteolytic assay imply complex, multifaceted structure-activity relationships in the interaction of these conjugates with Aβ. Many of the compounds tested rescued cells from Aβ-induced cytotoxicity. The attendant simplicity and ready diversification of the synthesis of these conjugates makes them attractive for further investigation.

Published

2014

46. Incorporating a piperidinyl group in the fluorophore extends the fluorescence lifetime of click-derived cyclam-naphthalimide conjugates.

Author

Yu M, Ast S, Yu Q, Lo AT, Flehr R, Todd MH, and Rutledge PJ

Subjects

Cell Line, Tumor, Copper metabolism, Female, Humans, Biosensing Techniques methods, Copper analysis, Fluorescent Dyes chemical synthesis, Fluorescent Dyes chemistry, Fluorescent Dyes pharmacology, Heterocyclic Compounds chemistry, Piperidines chemistry

Abstract

Ligands incorporating a tetraazamacrocycle receptor, a 'click'-derived triazole and a 1,8-naphthalimide fluorophore have proven utility as probes for metal ions. Three new cyclam-based molecular probes are reported, in which a piperidinyl group has been introduced at the 4-position of the naphthalimide fluorophore. These compounds have been synthesized using the copper(I)-catalyzed azide-alkyne Huisgen cycloaddition and their photophysical properties studied in detail. The alkylamino group induces the expected red-shift in absorption and emission spectra relative to the simple naphthalimide derivatives and gives rise to extended fluorescence lifetimes in aqueous buffer. The photophysical properties of these systems are shown to be highly solvent-dependent. Screening the fluorescence responses of the new conjugates to a wide variety of metal ions reveals significant and selective fluorescence quenching in the presence of copper(II), yet no fluorescence enhancement with zinc(II) as observed previously for the simple naphthalimide derivatives. Reasons for this different behaviour are proposed. Cytotoxicity testing shows that these new cyclam-triazole-dye conjugates display little or no toxicity against either DLD-1 colon carcinoma cells or MDA-MB-231 breast carcinoma cells, suggesting a potential role for these and related systems in biological sensing applications.

Published

2014

47. Open source drug discovery - a limited tutorial.

Author

Robertson MN, Ylioja PM, Williamson AE, Woelfle M, Robins M, Badiola KA, Willis P, Olliaro P, Wells TN, and Todd MH

Subjects

Anthelmintics chemical synthesis, Anthelmintics pharmacology, Antimalarials chemical synthesis, Antimalarials pharmacology, Humans, Information Dissemination ethics, Internet, Malaria drug therapy, Malaria parasitology, Schistosomiasis drug therapy, Schistosomiasis parasitology, Disclosure ethics, Drug Discovery, Information Dissemination methods, Software

Abstract

Open science is a new concept for the practice of experimental laboratory-based research, such as drug discovery. The authors have recently gained experience in how to run such projects and here describe some straightforward steps others may wish to take towards more openness in their own research programmes. Existing and inexpensive online tools can solve many challenges, while some psychological barriers to the free sharing of all data and ideas are more substantial.

Published

2014

48. The properties and performance of a pH-responsive functionalised nanoparticle.

Author

Ast S, Rutledge PJ, and Todd MH

Subjects

Hydrogen-Ion Concentration, Luminescent Measurements, Molecular Structure, Particle Size, Surface Properties, Quantum Dots

Abstract

We report fluorescence measurements of three quantum dots (QDs) of different sizes functionalised with the same pH responsive naphthalimide dye. QD size strongly influences energy transfer between dye and dot. Using QDs with an emission maximum of 570 nm gives rise to an interesting transfer of energy from dye to dot, while QDs with an emission maximum at 670 nm give unexpected enhancement of the dye emission. Titrations of QDs with the dye provide a means to establish the loading and hence an approximation of the surface dye density, which varies in proportion to QD size. Quenching effects are observed beyond the loading limit, and may indicate non-specific interactions between the excess dye and the nanoparticle. Attachment of the dye to the QD core is achieved by a thiol/disulfide exchange process that has been interrogated with Raman spectroscopy. The stability of these QD-dye conjugates over time and across a physiological pH range has been investigated to provide an assessment of their performance and robustness.

Published

2014

49. In vitro metabolic profile and in vivo antischistosomal activity studies of (η(6)-praziquantel)Cr(CO)3 derivatives.

Author

Patra M, Ingram K, Leonidova A, Pierroz V, Ferrari S, Robertson MN, Todd MH, Keiser J, and Gasser G

Subjects

Animals, Anthelmintics chemistry, Female, Humans, Mice, Optical Phenomena, Praziquantel chemistry, Stereoisomerism, Substrate Specificity, Anthelmintics metabolism, Anthelmintics pharmacology, Praziquantel metabolism, Praziquantel pharmacology, Schistosoma mansoni drug effects

Abstract

In vitro metabolic behavior was investigated for two chromium tricarbonyl derivatives of the antischistosomal drug praziquantel (PZQ) with the formula (η(6)-PZQ)Cr(CO)3 (1 and 2), by use of human liver microsomes. The metabolic profiles of the derivatives differ significantly. The optically pure (η(6)-PZQ)Cr(CO)3 derivatives (S, Sp)-1, (R, Rp)-1, (S, Rp)-2, and (R, Sp)-2 were also prepared to assess the eudysmic ratios of 1 and 2 against Schistosoma mansoni in vitro. A strong enantioselective antischistosomal activity was observed. The R-enantiomers are highly active against adult schistosomes in vitro (IC50 0.08-0.13 μM), whereas both S-enantiomers lack activity. The in vivo activity of 1 and 2 was then studied in mice harboring a chronic S. mansoni infection. A single dose of 1 and 2 (400 mg/kg) resulted in low worm burden reductions of 24% and 29% (p > 0.05).

Published

2013

50. Enhancing the usefulness of cross dehydrogenative coupling reactions with a removable protecting group.

Author

Tsang AS, Ingram K, Keiser J, Hibbert DB, and Todd MH

Subjects

Anthelmintics chemistry, Hydrogenation, Molecular Structure, Praziquantel chemistry, Stereoisomerism, Amines chemistry, Anthelmintics chemical synthesis, Praziquantel chemical synthesis

Abstract

A removable protecting group has been identified that allows the products of widely-used cross dehydrogenative couplings to be synthetically elaborated. The method can be used with enantiopure amines with no loss of enantiomeric excess. The methodology is exemplified by a new synthesis of enantiopure praziquantel, the drug used in the treatment of millions of people suffering from the neglected tropical disease, schistosomiasis.

Published

2013