Efficient Elimination of Nonstoichiometric Enzyme Inhibitors from HTS Hit Lists

Habig, Michael; Blechschmidt, Anke; Dressler, S.; Hess, Barbara; Patel, Viral; Billich, Andreas; Ostermeier, Christian; Beer, David; Klumpp, Martin

doi:10.1177/1087057109336586

Cited by 33 publications

(34 citation statements)

References 31 publications

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“…These assays revealed competitive inhibition (Figure S5E) with a half-maximal inhibitory concentration (IC 50 ) of 2.05 nM (Figure 4C and 5E). Non-specific inhibition was excluded through stoichiometry controls (Habig et al, 2009): after reducing enzyme concentration tenfold, from 100 nM to 10 nM, potency changed by only ∼25% and remained within error margins (Figure 5F). A control through liquid chromatography-mass spectrometry (LC-MS) confirmed an ART-dependent suppression of EXP1-mediated GSH-hematin adduct formation down to spontaneous levels (Figure 5F inset and S5F).…”

Section: Resultsmentioning

confidence: 99%

Supergenomic Network Compression and the Discovery of EXP1 as a Glutathione Transferase Inhibited by Artesunate

Lisewski

Quiros

et al. 2014

Cell

113

128

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Summary A central problem in biology is to identify gene function. One approach is to infer function in large supergenomic networks of interactions and ancestral relationships among genes; however, their analysis can be computationally prohibitive. We show here that these biological networks are compressible. They can be shrunk dramatically by eliminating redundant evolutionary relationships and this process is efficient because in these networks the number of compressible elements rises linearly rather than exponentially as in other complex networks. Compression enables global network analysis to computationally harness hundreds of interconnected genomes and to produce functional predictions. As a demonstration, we show that the essential, but functionally uncharacterized Plasmodium falciparum antigen EXP1 is a membrane glutathione S-transferase. EXP1 efficiently degrades cytotoxic hematin, is potently inhibited by artesunate, and is associated with artesunate metabolism and susceptibility in drug-pressured malaria parasites. These data implicate EXP1 in the mode of action of a frontline antimalarial drug.

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Section: Resultsmentioning

confidence: 99%

Supergenomic Network Compression and the Discovery of EXP1 as a Glutathione Transferase Inhibited by Artesunate

Lisewski

Quiros

et al. 2014

Cell

113

128

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“…[43,87] In many more cases, detergents are included in the assay buffer for the primary screen right away, [56] which obviates the need for a separate counterscreen, even if this motivation is rarely mentioned explicitly. [30,88] In contrast, demonstrating stoichiometric inhibition by measuring potency at different concentrations of enzyme [25] typically is used later in the flowchart, [52] where the limited number of compounds allows for dose-response experiments. The same holds for direct measurements of compound aggregation which often are used in conjunction with other experimental methods, e.g.…”

Section: Experimental Identification Of Nonstoichiometric Inhibitors mentioning

confidence: 97%

“…[49] Another technique to detect aggregation of a compound is nuclear magnetic resonance (NMR), which either analyzes the signal from the compound itself [50] or uses the conformational distortion of the human La antigen as a surrogate readout in what is called ALARM NMR. [18,51] An indirect approach compares compound potency at different concentrations of enzyme [25,52]; bellshaped dose-response curves in cellular assays are another warning signal. One of several possible explanations is the failure of colloidal aggregates to enter intact cells.…”

Section: Colloidal Aggregationmentioning

confidence: 99%

“…Although stoichiometric binding has so far been difficult to measure in cellular systems and the term non-stoichiometric inhibition was originally coined in a biochemical context, [25] hit lists from cellular screening in practice can be affected by similar issues as those from biochemical screens. Therefore, this review extrapolates to cellular assays wherever appropriate and contains an additional section specifically discussing cellular target engagement.…”

Section: Introductionmentioning

confidence: 98%

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Non-stoichiometric inhibition in integrated lead finding – a literature review

Klumpp

2015

Expert Opinion on Drug Discovery

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Over the last few years, awareness of non-stoichiometric inhibitors within screening libraries and HTS hit lists has considerably increased, not only in the pharmaceutical industry but also in the academic drug discovery community. This has resulted in a variety of methods to detect and handle such compounds. These range from in silico approaches to flag suspicious compounds, and counterassays to measure non-stoichiometric inhibition, to biophysical methods that positively demonstrate stoichiometric binding. In addition, novel technologies to verify target engagement within cells are becoming available. While still a time- and resource-consuming nuisance, non-stoichiometric inhibitors therefore do not fundamentally jeopardize the discovery of low molecular weight lead and drug candidates. Rather, they should be viewed as a manageable issue that with appropriate expertise can be overcome through integration of the above-mentioned approaches.

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“…Such a detergent dependence [12][13][14] and a steep Hill slope 19 have been proposed as markers of aggregation-based nonstoichiometric inhibition. Although there has been some recent debate on the usefulness and accuracy of detergent sensitivity as a criterion to eliminate artifactual inhibitors, 20 a Hill coefficient well above 1 in the absence of detergent combined with complete abrogation of activity in the pre sence of ionic or nonionic detergent strongly suggests that 1 is not a stoichiometric inhibitor of Csp-3. In the case of Csp-6, the detergent effect was not as pronounced as for Csp-3, but a high Hill coefficient coupled with unusual inhibition curves such as partial inhibition indicated suspicious behavior.…”

Section: Evaluation Of Csp-6 Inhibitorsmentioning

confidence: 99%

A Label-Free LC/MS/MS-Based Enzymatic Activity Assay for the Detection of Genuine Caspase Inhibitors and SAR Development

et al. 2013

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The resurgence of interest in caspases (Csp) as therapeutic targets for the treatment of neurodegenerative diseases prompted us to examine the suitability of published nonpeptidic Csp-3 and Csp-6 inhibitors for our medicinal chemistry programs. To support this effort, fluorescence-based Csp-2, Csp-3, and Csp-6 enzymatic assays were optimized for robustness against apparent enzyme inhibition caused by redox-cycling or aggregating compounds. The data obtained under these improved conditions challenge the validity of previously published data on Csp-3 and Csp-6 inhibitors for all but one series, namely, the isatins. Furthermore, in this series, it was observed that the nature of the rhodamine-labeled substrate, typically used to measure caspase activity, interfered with the pharmacological sensitivity of the Csp-2 assay. As a result, a liquid chromatography/tandem mass spectrometry-based assay that eliminates label-dependent assay interference was developed for Csp-2 and Csp-3. In these label-free assays, the activity values of the Csp-2 and Csp-3 reference inhibitors were in agreement with those obtained with the fluorogenic substrates. However, isatin 10a was 50-fold less potent in the label-free Csp-2 assay compared with the rhodamine-based fluorescence format, thus proving the need for an orthogonal readout to validate inhibitors in this class of targets highly susceptible to artifactual inhibition.

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Efficient Elimination of Nonstoichiometric Enzyme Inhibitors from HTS Hit Lists

Cited by 33 publications

References 31 publications

Supergenomic Network Compression and the Discovery of EXP1 as a Glutathione Transferase Inhibited by Artesunate

Supergenomic Network Compression and the Discovery of EXP1 as a Glutathione Transferase Inhibited by Artesunate

Non-stoichiometric inhibition in integrated lead finding – a literature review

A Label-Free LC/MS/MS-Based Enzymatic Activity Assay for the Detection of Genuine Caspase Inhibitors and SAR Development

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