Co-reporter:Morwen Williams;Adam I. Green;Julio Fernandez-Cestau;David L. Hughes;Maria A. O'Connell;Benoît Bertrand;Manfred Bochmann
Dalton Transactions 2017 vol. 46(Issue 39) pp:13397-13408
Publication Date(Web):2017/10/10
DOI:10.1039/C7DT02804K
A series of cyclometallated gold(III) complexes supported by pyrazine-based (C^Npz^C)-type pincer ligands were synthesized via two different pathways. Nucleophilic attack on the isocyanide complex [(C^Npz^C)Au(CNC6H3Me2-2,6)]SbF6 (2) gave [(C^Npz^C)Au(ACC)]SbF6 complexes with aniline (4·SbF6), adamantylamine (5), glycine ethyl ester (6), alanine methyl ester (7), valine methyl ester (8), phenylglycine methyl ester (9) and methionine methyl ester (10) substituents (ACC = acyclic carbene). The pathway via isocyanide insertion into gold–amide bonds was also investigated; e.g. the reaction of xylyl isocyanide with (C^Npz^C)AuNHPh followed by protonation with HBF4·OEt2 gave the acyclic carbene complex 4·BF4. To the best of our knowledge compounds 6–10 represent the first examples of gold(III) acyclic carbene complexes bearing amino acid functions. The compounds provide a versatile platform for the study of the anti-proliferative properties of gold(III) complexes. Tests against human adenoma-type lung cancer cells identified 5, 6, 7 and 10 as particularly promising and demonstrate the synthetic flexibility of acyclic carbene complexes and the potential of that class of compounds for anticancer applications. Compared to cisplatin, amino ester-containing ACC complexes showed improved selectivity for MCF-7 breast cancer cells over that for healthy fibroblasts.
Co-reporter:Michael J. Austin, Stephen J. Hearnshaw, Lesley A. Mitchenall, Paul J. McDermott, Lesley A. Howell, Anthony Maxwell and Mark Searcey
MedChemComm 2016 vol. 7(Issue 7) pp:1387-1391
Publication Date(Web):18 May 2016
DOI:10.1039/C6MD00229C
The discovery of new antibiotics with novel modes of action to combat antimicrobial resistance (AMR) is of vital importance. The natural product simocyclinone D8 (SD8) is a potent inhibitor of DNA gyrase. Its bi-functional structure and novel mode of action serve as an inspiring lead for antibiotic development. Herein we describe a proof of principle fragment-based approach towards the development of a new class of coumarin-quinolone hybrids. We demonstrate that the coumarin moiety is required for the observed inhibitory activity (IC50 ∼ 3 μM) of the hybrid compound, which is in part mediated through stabilisation of a cleaved-DNA intermediate.
Co-reporter:Marco M.D. Cominetti, Sarah A. Goffin, Ewan Raffel, Kerrie D. Turner, Jordann C. Ramoutar, Maria A. O’Connell, Lesley A. Howell, Mark Searcey
Bioorganic & Medicinal Chemistry Letters 2015 Volume 25(Issue 21) pp:4878-4880
Publication Date(Web):1 November 2015
DOI:10.1016/j.bmcl.2015.06.014
Previous studies on the natural product chlorofusin have shown that the full peptide and azaphilone structure are required for inhibition of the interaction between MDM2 and p53. In the current work, we utilized the cyclic peptide as a template and introduced an azidonorvaline amino acid in place of the ornithine/azaphilone of the natural product and carried out click chemistry with the resulting peptide. From this small library the first ever non-azaphilone containing chlorofusin analog with MDM2/p53 activity was identified. Further studies then suggested that the simple structure of the Fmoc-norvaline amino acid that had undergone a click reaction was also able to inhibit MDM2/p53 interaction. This is an example where studies of a natural product have led to the serendipitous identification of a new small molecule inhibitor of a protein–protein interaction.
Co-reporter:Michael J. Stephenson, Lesley A. Howell, Maria A. O’Connell, Keith R. Fox, Claire Adcock, Jenny Kingston, Helen Sheldrake, Klaus Pors, Stephen P. Collingwood, and Mark Searcey
The Journal of Organic Chemistry 2015 Volume 80(Issue 19) pp:9454-9467
Publication Date(Web):September 10, 2015
DOI:10.1021/acs.joc.5b01373
The duocarmycins are potent antitumor agents with potential for use in the development of antibody–drug conjugates (ADCs) as well as being clinical candidates in their own right. In this article, we describe the synthesis of a duocarmycin monomer (DSA) that is suitably protected for utilization in solid-phase synthesis. The synthesis was performed on a large scale, and the resulting racemic protected Fmoc-DSA subunit was separated by supercritical fluid chromatography (SFC) into the single enantiomers; its application to solid-phase synthesis methodology gave a series of monomeric and extended duocarmycin analogues with amino acid substituents. The DNA sequence selectivity was similar to that in previous reports for both the monomeric and extended compounds. Substitution at the C-terminus of duocarmycin caused a decrease in antiproliferative activity for all of the compounds studied. An extended compound containing an alanine at the C-terminus was converted to the primary amide or to an extended structure containing a terminal tertiary amine, but this had no beneficial effects on biological activity.
Co-reporter:María J. Marín, Benjamin D. Rackham, Andrew N. Round, Lesley A. Howell, David A. Russell and Mark Searcey
Chemical Communications 2013 vol. 49(Issue 80) pp:9113-9115
Publication Date(Web):22 Aug 2013
DOI:10.1039/C3CC45600E
We describe a gold nanoparticle based assay that can rapidly determine the crosslinking of DNA duplexes by ligands. Such compounds have potential in targeting highly compacted DNA such as that found in the nucleosome.
Co-reporter:Benjamin D. Rackham, Lesley A. Howell, Andrew N. Round and Mark Searcey
Organic & Biomolecular Chemistry 2013 vol. 11(Issue 48) pp:8340-8347
Publication Date(Web):15 Oct 2013
DOI:10.1039/C3OB42009D
Small molecules that interact with DNA, disrupting the binding of transcription factors or crosslinking DNA into larger structures, have significant potential as cancer therapies and in nanotechnology. Bisintercalators, including natural products such as echinomycin and rationally designed molecules such as the bis-9-aminoacridine-4-carboxamides, are key examples. There is little knowledge of the propensity of these molecules to crosslink duplex DNA. Here we use single molecule force spectroscopy to assay the crosslinking capabilities of bisintercalators. We show that bis-9-aminoacridine-4-carboxamides with both rigid and flexible linkers are able to crosslink duplex strands of DNA, and estimate the equilibrium free energy of a 9-aminoacridine-4-carboxamide bisintercalator from DNA at 5.03 kJ mol−1. Unexpectedly, we find that echinomycin and its synthetic analogue TANDEM are capable of sequence-specific crosslinking of the terminal base pairs of two duplex DNA strands. In the crowded environment of the nucleosome, small molecules that crosslink neighbouring DNA strands may be expected to have significant effects on transcription, while a small molecule that facilitates sequence-specific blunt-end ligation of DNA may find applications in the developing field of DNA nanotechnology.
Co-reporter:Richard Steel, Jonathan Cowan, Estelle Payerne, Maria A. O'Connell, and Mark Searcey
ACS Medicinal Chemistry Letters 2012 Volume 3(Issue 5) pp:407
Publication Date(Web):March 12, 2012
DOI:10.1021/ml300041g
Nuclear factor (erythroid-derived 2)-like 2 (Nrf2) is increasingly recognized as a central regulator of multiple signaling pathways in inflammation and cancer, and the ability to use chemical biological tools to investigate its biological effects is very attractive. A peptide comprising a TAT-conjugated Nrf2 sequence is shown to activate Nrf2 and its downstream target gene heme-oxygenase-1 (HO-1) in a dose-dependent manner in intact human THP-1 monocytes. Levels of Nrf2 protein peak after 3 h, whereas HO-1 mRNA and protein peak after 6 and 12 h, respectively. The peptide is also shown to inhibit the production of the pro-inflammatory cytokine TNF. The TAT-14mer constitutes a useful chemical biology tool with potential therapeutic applications.Keywords: antioxidant response; cell-penetrating peptide; inflammation; Keap-1; Nrf2; protein−protein interaction
Co-reporter:Dr. Lesley A. Howell;Dr. Richard A. Bowater;Dr. Maria A. O'Connell;Anthony P. Reszka; Stephen Neidle; Mark Searcey
ChemMedChem 2012 Volume 7( Issue 5) pp:792-804
Publication Date(Web):
DOI:10.1002/cmdc.201200060
Abstract
The ability of small molecules to target DNA forms the basis of many clinically used antitumour agents. This study examines the effects of novel 9-aminoacridine carboxamides, synthesised by click chemistry based upon the reactions of either 9-(2-azidoethyl)amino or 9-propargylaminoacridine compounds, on various types of DNA tertiary structures. This gave either monomeric or dimeric compounds, the dimeric derivatives being the first unsymmetrical acridine dimers to be described. The compounds were assayed for duplex DNA, quadruplex DNA and four-way junction DNA binding. Their antiproliferative activity in the Human promyelocytic leukaemia cell line, HL60, was also assessed. Although for some of the compounds, notably the acridine 4-carboxamides, activity correlated with DNA binding affinity, for others it did not, with the rigidly linked dimers in particular showing a complicated relationship between 3- and 4-carboxamide structure and biological activity. The monomeric 3-carboxamides were more effective at stabilising G-quadruplex structures and also gave more hits in the four-way junction stabilisation assay. There is clear evidence from the binding of the 3-carboxamides that these compounds destabilise the open X form of the junction at lower concentrations and stabilise the X-stacked at higher concentrations. This might have implications for the biological activity of these compounds against proteins that bind to the Holliday junction (HJ).
Co-reporter:Lesley A. Howell, Zoë A. E. Waller, Richard Bowater, Maria O'Connell and Mark Searcey
Chemical Communications 2011 vol. 47(Issue 29) pp:8262-8264
Publication Date(Web):24 Jun 2011
DOI:10.1039/C1CC12922H
Small molecules that induce the formation of higher order DNA structures have potential therapeutic and nanotechnology applications. Screening of a click library has identified the first compound to induce the formation of a Holliday junction structure at room temperature without the need for a high temperature annealing step.
Co-reporter:Lesley A. Howell, Rosul Gulam, Anja Mueller, Maria A. O’Connell, Mark Searcey
Bioorganic & Medicinal Chemistry Letters 2010 Volume 20(Issue 23) pp:6956-6959
Publication Date(Web):1 December 2010
DOI:10.1016/j.bmcl.2010.09.128
Threading intercalators are high affinity DNA binding agents that bind by inserting a chromophore into the duplex and locating one group in each groove. The first threading intercalators that can be conjugated to acids, sulfonic acids and peptides to target them to duplex DNA are described, based upon the well studied acridine-3- or 4-carboxamides. Cellular uptake of the parent acridine is rapid and it can be visualized in the nucleus of cells. Both the parent compounds and their conjugates maintain antitumor activity.
Co-reporter:Lesley A. Howell, Aaron Howman, Maria A. O’Connell, Anja Mueller, Mark Searcey
Bioorganic & Medicinal Chemistry Letters 2009 Volume 19(Issue 20) pp:5880-5883
Publication Date(Web):15 October 2009
DOI:10.1016/j.bmcl.2009.08.070
A small set of 9-aminoacridine-3- and 4-carboxamides were synthesized efficiently using the benzyne/azide click chemistry. The products bind to duplex DNA but have different antitumour activity in the HL60 cell line.
Co-reporter:Lesley A. Howell Dr.
ChemBioChem 2009 Volume 10( Issue 13) pp:2139-2143
Publication Date(Web):
DOI:10.1002/cbic.200900243
Co-reporter:Simon Dawson, John P. Malkinson, David Paumier and Mark Searcey
Natural Product Reports 2007 vol. 24(Issue 1) pp:109-126
Publication Date(Web):13 Nov 2006
DOI:10.1039/B516347C
Covering: up to 2005
Co-reporter:Lesley A. Howell, Zoë A. E. Waller, Richard Bowater, Maria O'Connell and Mark Searcey
Chemical Communications 2011 - vol. 47(Issue 29) pp:NaN8264-8264
Publication Date(Web):2011/06/24
DOI:10.1039/C1CC12922H
Small molecules that induce the formation of higher order DNA structures have potential therapeutic and nanotechnology applications. Screening of a click library has identified the first compound to induce the formation of a Holliday junction structure at room temperature without the need for a high temperature annealing step.
Co-reporter:María J. Marín, Benjamin D. Rackham, Andrew N. Round, Lesley A. Howell, David A. Russell and Mark Searcey
Chemical Communications 2013 - vol. 49(Issue 80) pp:NaN9115-9115
Publication Date(Web):2013/08/22
DOI:10.1039/C3CC45600E
We describe a gold nanoparticle based assay that can rapidly determine the crosslinking of DNA duplexes by ligands. Such compounds have potential in targeting highly compacted DNA such as that found in the nucleosome.
Co-reporter:Benjamin D. Rackham, Lesley A. Howell, Andrew N. Round and Mark Searcey
Organic & Biomolecular Chemistry 2013 - vol. 11(Issue 48) pp:NaN8347-8347
Publication Date(Web):2013/10/15
DOI:10.1039/C3OB42009D
Small molecules that interact with DNA, disrupting the binding of transcription factors or crosslinking DNA into larger structures, have significant potential as cancer therapies and in nanotechnology. Bisintercalators, including natural products such as echinomycin and rationally designed molecules such as the bis-9-aminoacridine-4-carboxamides, are key examples. There is little knowledge of the propensity of these molecules to crosslink duplex DNA. Here we use single molecule force spectroscopy to assay the crosslinking capabilities of bisintercalators. We show that bis-9-aminoacridine-4-carboxamides with both rigid and flexible linkers are able to crosslink duplex strands of DNA, and estimate the equilibrium free energy of a 9-aminoacridine-4-carboxamide bisintercalator from DNA at 5.03 kJ mol−1. Unexpectedly, we find that echinomycin and its synthetic analogue TANDEM are capable of sequence-specific crosslinking of the terminal base pairs of two duplex DNA strands. In the crowded environment of the nucleosome, small molecules that crosslink neighbouring DNA strands may be expected to have significant effects on transcription, while a small molecule that facilitates sequence-specific blunt-end ligation of DNA may find applications in the developing field of DNA nanotechnology.
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