I02-Macromolecular Crystallography
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Diamond Proposal Number(s):
[12346]
Open Access
Abstract: Crystallization is the bottleneck in macromolecular crystallography; even when a protein crystallises, crystal packing often influences ligand-binding and proteinâprotein interaction interfaces, which are the key points of interest for functional and drug discovery studies. The human hypoxia-inducible factor prolyl hydroxylase 2 (PHD2) readily crystallises as a homotrimer, but with a sterically blocked active site. We explored strategies aimed at altering PHD2 crystal packing by protein modification and molecules that bind at its active site and elsewhere. Following the observation that, despite weak inhibition/binding in solution, succinamic acid derivatives readily enable PHD2 crystallization, we explored methods to induce crystallization without active site binding. Cyclic peptides obtained via mRNA display bind PHD2 tightly away from the active site. They efficiently enable PHD2 crystallization in different forms, both with/without substrates, apparently by promoting oligomerization involving binding to the C-terminal region. Although our work involves a specific case study, together with those of others, the results suggest that mRNA display-derived cyclic peptides may be useful in challenging protein crystallization cases.
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Dec 2020
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I03-Macromolecular Crystallography
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Diamond Proposal Number(s):
[19069, 19458]
Open Access
Abstract: β-Lactam antibiotics are presently the most important treatments for infections by pathogenic Escherichia coli, but their use is increasingly compromised by β-lactamases, including the chromosomally encoded class C AmpC serine-β-lactamases (SBL). The diazabicyclooctane (DBO) avibactam is a potent AmpC inhibitor; the clinical success of avibactam combined with ceftazidime has stimulated efforts to optimise the DBO core. We report kinetic and structural studies, including four high resolution crystal structures, concerning inhibition of the AmpC serine-β-lactamase from E. coli (AmpCEC) by clinically relevant DBO-based inhibitors: avibactam, relebactam, nacubactam, and zidebactam. Kinetic analyses and mass spectrometry-based assays were used to study their mechanisms of AmpCEC inhibition. The results reveal that, under our assay conditions, zidebactam manifests increased potency (Kiapp 0.69 ΟM) against AmpCEC compared to the other DBOs (Kiapp 5.0-7.4 ΟM) due to an ⟠10 fold accelerated carbamoylation-rate. However, zidebactam also has an accelerated off-rate and with sufficient preincubation time all the DBOs manifest similar potencies. Crystallographic analyses indicate a greater conformational freedom of the AmpCEC-zidebactam carbamoyl-complex compared to those for the other DBOs. The results suggest carbamoyl-complex lifetime should be a consideration in development of DBO-based SBL inhibitors for the clinically important class C SBLs.
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Nov 2020
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I04-Macromolecular Crystallography
I24-Microfocus Macromolecular Crystallography
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Diamond Proposal Number(s):
[172122, 23269]
Abstract: Class A serine β-lactamases (SBLs) are key antibiotic resistance determinants in Gram-negative bacteria. SBLs neutralize β-lactams via a hydrolytically labile covalent acyl-enzyme intermediate. Klebsiella pneumoniae carbapenemase (KPC) is a widespread SBL that hydrolyzes carbapenems, the most potent β-lactams; known KPC variants differ in turnover of expanded-spectrum oxyimino-cephalosporins (ESOCs), e.g. cefotaxime and ceftazidime. Here, we compare ESOC hydrolysis by the parent enzyme KPC-2 and its clinically observed double variant (P104R/V240G) KPC-4. Kinetic analyses show KPC-2 hydrolyzes cefotaxime more efficiently than the bulkier ceftazidime, with improved ESOC turnover by KPC-4 resulting from enhanced turnover (kcat), rather than binding (KM). High-resolution crystal structures of ESOC acyl-enzyme complexes with deacylation-deficient (E166Q) KPC-2 and KPC-4 mutants show that ceftazidime acylation causes rearrangement of three loops; the Ί-, 240- and 270-loops, that border the active site. However, these rearrangements are less pronounced in the KPC-4 than the KPC-2 ceftazidime acyl-enzyme, and are not observed in the KPC-2:cefotaxime acyl-enzyme. Molecular dynamics simulations of KPC:ceftazidime acyl-enyzmes reveal that the deacylation general base E166, located on the Ί-loop, adopts two distinct conformations in KPC-2, either pointing âinâ or âoutâ of the active site; with only the âinâ form compatible with deacylation. The âoutâ conformation was not sampled in the KPC-4 acyl-enzyme, indicating that efficient ESOC breakdown is dependent upon the ordering and conformation of the KPC Ί-loop. The results explain how point mutations expand the activity spectrum of the clinically important KPC SBLs to include ESOCs through their effects on the conformational dynamics of the acyl-enzyme intermediate.
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Nov 2020
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I24-Microfocus Macromolecular Crystallography
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Patrick
Rabe
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John
Beale
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Agata
Butryn
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Pierre
Aller
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Anna
Dirr
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Pauline A.
Lang
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Danny N.
Axford
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Stephen
Carr
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Thomas M.
Leissing
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Michael A.
Mcdonough
,
Bradley
Davy
,
Ali
Ebrahim
,
Julien
Orlans
,
Selina L. S.
Storm
,
Allen M.
Orville
,
Christopher J.
Schofield
,
Robin L.
Owen
Diamond Proposal Number(s):
[19458]
Open Access
Abstract: Cryogenic X-ray diffraction is a powerful tool for crystallographic studies on enzymes including oxygenases and oxidases. Amongst the benefits that cryo-conditions (usually employing a nitroÂgen cryo-stream at 100â
K) enable, is data collection of diÂoxyÂgen-sensitive samples. Although not strictly anaerobic, at low temperatures the vitreous ice conditions severely restrict O2 diffusion into and/or through the protein crystal. Cryo-conditions limit chemical reactivity, including reactions that require significant conformational changes. By contrast, data collection at room temperature imposes fewer restrictions on diffusion and reactivity; room-temperature serial methods are thus becoming common at synchrotrons and XFELs. However, maintaining an anaerobic environment for diÂoxyÂgen-dependent enzymes has not been explored for serial room-temperature data collection at synchrotron light sources. This work describes a methodology that employs an adaptation of the `sheet-on-sheet' sample mount, which is suitable for the low-dose room-temperature data collection of anaerobic samples at synchrotron light sources. The method is characterized by easy sample preparation in an anaerobic glovebox, gentle handling of crystals, low sample consumption and preservation of a localized anaerobic environment over the timescale of the experiment (<5â
min). The utility of the method is highlighted by studies with three X-ray-radiation-sensitive Fe(II)-containing model enzymes: the 2-oxoglutarate-dependent L-arginine hyÂdroxyÂlase VioC and the DNA repair enzyme AlkB, as well as the oxidase isopenicillin N synthase (IPNS), which is involved in the biosynthesis of all penicillin and cephalosporin antibiotics.
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Sep 2020
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I03-Macromolecular Crystallography
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Tongri
Liu
,
Martine I.
Abboud
,
Rasheduzzaman
Chowdhury
,
Anthony
Tumber
,
Adam P.
Hardy
,
Kerstin
Lippl
,
Christopher T.
Lohans
,
Elisabete
Pires
,
James
Wickens
,
Michael
Mcdonough
,
Christopher M.
West
,
Christopher J.
Schofield
Diamond Proposal Number(s):
[12346]
Abstract: In animals, the response to chronic hypoxia is mediated by prolyl-hydroxylases (PHDs) that regulate the levels of hypoxia inducible transcription factor a (HIFÎą). PHD homologues exist in other types of eukaryotes and prokaryotes where they act on non-HIF substrates. To gain insight into the factors underlying different PHD substrates and properties, we carried out biochemical and biophysical studies on PHD homologues from the slime mold, Dictyostelium discoideum, and the protozoan parasite, Toxoplasma gondii, both lacking HIF. The respective prolyl-hydroxylases (DdPhyA and TgPhyA) catalyze prolyl-hydroxylation of S-Phase Kinase Associated Protein 1 (Skp1), a reaction enabling adaptation to different dioxygen availability. Assays with full length Skp1 substrates reveal substantial differences in the kinetic properties of DdPhyA and TgPhyA, both with respect to each other and compared with human PHD2; consistent with cellular studies TgPhyA is more active at low dioxygen concentrations than DdPhyA. TgSkp1 is a DdPhyA substrate and DdSkp1 is a TgPhyA substrate. No cross-reactivity was detected between DdPhyA/TgPhyA substrates and human PHD2. The human Skp1 E147P variant is a DdPhyA and TgPhyA substrate, suggesting some retention of ancestral interactions. Crystallographic analysis of DdPhyA enables comparisons with homologues from humans, Trichoplax adhaerens, and prokaryotes, TgPhyA informing on differences in mobile elements involved in substrate binding and catalysis. In DdPhyA, two mobile loops that enclose substrates in the PHDs are conserved, but the C-terminal helix of the PHDs is strikingly absent. The combined results support the proposal that PHD homologues have evolved kinetic and structural features suited to their specific sensing roles.
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Sep 2020
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I03-Macromolecular Crystallography
I24-Microfocus Macromolecular Crystallography
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Pauline
Lang
,
Anete
Parkova
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Thomas
Leissing
,
Karina
Calvopina
,
Ricky
Cain
,
Alen
Krajnc
,
Tharindi
Panduwawala
,
Jules
Philippe
,
Colin W. G.
Fishwick
,
Peteris
Trapencieris
,
Malcolm
Page
,
Christopher J.
Schofield
,
Jurgen
Brem
Open Access
Abstract: Resistance to β-lactam antibacterials, importantly via production of β-lactamases, threatens their widespread use. Bicyclic boronates show promise as clinically useful, dual-action inhibitors of both serine- (SBL) and metallo- (MBL) β-lactamases. In combination with cefepime, the bicyclic boronate taniborbactam is in phase 3 clinical trials for treatment of complicated urinary tract infections. We report kinetic and crystallographic studies on the inhibition of AmpC, the class C βâlactamase from Escherichia coli, by bicyclic boronates, including taniborbactam, with different C-3 side chains. The combined studies reveal that an acylamino side chain is not essential for potent AmpC inhibition by active site binding bicyclic boronates. The tricyclic form of taniborbactam was observed bound to the surface of crystalline AmpC, but not at the active site, where the bicyclic form was observed. Structural comparisons reveal insights into why active site binding of a tricyclic form has been observed with the NDM-1 MBL, but not with other studied β-lactamases. Together with reported studies on the structural basis of inhibition of class A, B and D βâlactamases, our data support the proposal that bicyclic boronates are broad-spectrum βâlactamase inhibitors that work by mimicking a high energy âtetrahedralâ intermediate. These results suggest further SAR guided development could improve the breadth of clinically useful β-lactamase inhibition.
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Jun 2020
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I04-Macromolecular Crystallography
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Open Access
Abstract: The human 2-oxoglutarate dependent oxygenase aspartate/asparagine-β-hydroxylase (AspH) catalyses the hydroxylation of Asp/Asn-residues in epidermal growth factor-like domains (EGFDs). AspH is upregulated on the surface of malign cancer cells; increased AspH levels correlate with tumour invasiveness. Due to a lack of efficient assays to monitor the activity of isolated AspH, there are few reports of studies aimed at identifying small-molecule AspH inhibitors. Recently, it was reported that AspH substrates have a non-canonical EGFD disulfide pattern. Here we report that a stable synthetic thioether mimic of AspH substrates can be employed in solid phase extraction mass spectrometry based high-throughput AspH inhibition assays which are of excellent robustness, as indicated by high Zâ-factors and good signal-to-noise/background ratios. The AspH inhibition assay was applied to screen approximately 1500 bioactive small-molecules, including natural products and active pharmaceutical ingredients of approved human therapeutics. Potent AspH inhibitors were identified from both compound classes. Our AspH inhibition assay should enable the development of potent and selective small-molecule AspH inhibitors and contribute towards the development of safer inhibitors for other 2OG oxygenases, e.g. screens of the hypoxia-inducible factor prolyl-hydroxylase inhibitors revealed that vadadustat inhibits AspH with moderate potency.
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May 2020
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I04-1-Macromolecular Crystallography (fixed wavelength)
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Hwanho
Choi
,
Adam P.
Hardy
,
Thomas M.
Leissing
,
Rasheduzzaman
Chowdhury
,
Yu
Nakashima
,
Wei
Ge
,
Marios
Markoulides
,
John S.
Scotti
,
Philip A.
Gerken
,
Helen
Thorbjornsrud
,
Dahye
Kang
,
Sungwoo
Hong
,
Joongoo
Lee
,
Michael A.
Mcdonough
,
Hwangseo
Park
,
Christopher J.
Schofield
Diamond Proposal Number(s):
[18069]
Open Access
Abstract: Factor inhibiting hypoxia-inducible factor (FIH) is a 2-oxoglutarate-dependent protein hydroxylase that catalyses C3 hydroxylations of protein residues. We report FIH can accept (D)- and (L)-residues for hydroxylation. The substrate selectivity of FIH differs for (D) and (L) epimers, e.g., (D)- but not (L)-allylglycine, and conversely (L)- but not (D)-aspartate, undergo monohydroxylation, in the tested sequence context. The (L)-Leu-containing substrate undergoes FIH-catalysed monohydroxylation, whereas (D)-Leu unexpectedly undergoes dihydroxylation. Crystallographic, mass spectrometric, and DFT studies provide insights into the selectivity of FIH towards (L)- and (D)-residues. The results of this work expand the potential range of known substrates hydroxylated by isolated FIH and imply that it will be possible to generate FIH variants with altered selectivities.
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May 2020
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I03-Macromolecular Crystallography
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James P.
Holtâmartyn
,
Rasheduzzaman
Chowdhury
,
Anthony
Tumber
,
Tzuâlan
Yeh
,
Martine I.
Abboud
,
Kerstin
Lippl
,
Christopher T.
Lohans
,
Gareth W.
Langley
,
William
Figg
,
Michael A.
Mcdonough
,
Christopher W.
Pugh
,
Peter J.
Ratcliffe
,
Christopher J.
Schofield
Abstract: The 2âoxoglutarateâdependent hypoxia inducible factor prolyl hydroxylases (PHDs) are targets for treatment of a variety of diseases including anaemia. One PHD inhibitor is approved for use for the treatment of renal anaemia and others are in late stage clinical trials. The number of reported templates for PHD inhibition is limited. We report structureâactivity relationship and crystallographic studies on a promising class of 4âhydroxypyrimidineâcontaining PHD inhibitors.
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Dec 2019
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I04-Macromolecular Crystallography
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Abstract: β-Lactamases comprise the most important known mode of resistance to β-lactam antibiotics. Boronic acids/boronate esters show promise as a new class of β-lactamase inhibitors with the potential to inhibit both the metallo- and serine-β-lactamases. We report studies employing representative β-lactamases concerning a bicyclic boronate ester with a thioether rather than the more typical β-lactam antibiotic âC-6/C-7â acylamino side chain as present in the penicillin/cephalosporin antibiotics. The results, including a crystal structure of the clinically relevant VIM-2 metallo β-lactamase in complex with the inhibitor, reveal the potential of boronate inhibitors without the canonical acylamino side chain for inhibition of a broader range of serine- and metallo- β-lactamases compared to previous bicyclic boronates, including the metallo-β-lactamase L1. They imply further SAR studies will expand the already broad scope of ď˘-lactamase inhibition by bicyclic boronates.
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Dec 2019
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