An Integral Activity-Based Protein Profiling Method for Higher Throughput Determination of Protein Target Sensitivity to Small Molecules
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| Názov: | An Integral Activity-Based Protein Profiling Method for Higher Throughput Determination of Protein Target Sensitivity to Small Molecules |
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| Autori: | Chathuri J. Kombala, Agne Sveistyte, Tong Zhang, Leo J. Gorham, Gerard X. Lomas, John T. Melchior, Priscila M. Lalli, Vanessa L. Paurus, Stephen J. Callister, Aaron T. Wright, Vivian S. Lin |
| Rok vydania: | 2025 |
| Predmety: | Biochemistry, Genetics, Biotechnology, Immunology, Biological Sciences not elsewhere classified, Chemical Sciences not elsewhere classified, unique proteins affected, tandem mass tag, pooled competition sample, ms analyses 3, lc – ms, higher throughput workflows, higher throughput determination, discrete paraoxon concentrations, small molecules activity, protein target sensitivity, 8 coc concentrations, screen diverse chemicals, pooled samples across, based protein profiling, approach highly appealing, concentrations may, relative sensitivity, integral activity, coc ), wide range, toxicity data, strategy reduced, results showed, optimized conditions |
| Popis: | Activity-based protein profiling (ABPP) is a chemoproteomic technique that uses small molecule probes to label active enzymes selectively and covalently in complex proteomes. Competitive ABPP, which involves treatment of the active proteome with an analyte of interest, is especially powerful for profiling how small molecules impact specific protein activities. Advances in higher throughput workflows have made it possible to generate extensive competitive ABPP data across diverse biological samples, making this approach highly appealing for characterizing shared and unique proteins affected by perturbations such as drug or chemical exposures. To use the competitive ABPP approach effectively to understand potential adverse effects of chemicals of concern (CoC), a wide range of concentrations may be needed, particularly for chemicals that lack potency or toxicity data. In this work, we present an integral competitive ABPP method that enables target sensitivity determination for different organophosphate (OP) pesticides as model toxicants. Using previously developed OP-ABPs, we optimized conditions for tandem mass tag (TMT) multiplexing of ABPP samples and compared conventional competitive ABPP involving samples at discrete paraoxon concentrations to pooled samples across that same concentration range. We then expanded our approach to compare protein target sensitivities toward two additional OP pesticides, chlorpyrifos oxon and malaoxon. The results showed that differences in integral intensities for the pooled competition sample can be used to evaluate the relative sensitivity of specific proteins without increasing the overall number of samples. For 8 CoC concentrations of interest, this strategy reduced the number of TMT plexes and the corresponding number of LC–MS/MS analyses 3-fold. We envision the integral ABPP (IABPP) method will provide a means to screen diverse chemicals more rapidly to identify both high and low sensitivity protein targets. |
| Druh dokumentu: | article in journal/newspaper |
| Jazyk: | unknown |
| DOI: | 10.1021/acschembio.5c00412.s001 |
| Dostupnosť: | https://doi.org/10.1021/acschembio.5c00412.s001 https://figshare.com/articles/journal_contribution/An_Integral_Activity-Based_Protein_Profiling_Method_for_Higher_Throughput_Determination_of_Protein_Target_Sensitivity_to_Small_Molecules/29921783 |
| Rights: | CC BY-NC 4.0 |
| Prístupové číslo: | edsbas.E7A8BE66 |
| Databáza: | BASE |
Nájsť tento článok vo Web of Science | Abstrakt: | Activity-based protein profiling (ABPP) is a chemoproteomic technique that uses small molecule probes to label active enzymes selectively and covalently in complex proteomes. Competitive ABPP, which involves treatment of the active proteome with an analyte of interest, is especially powerful for profiling how small molecules impact specific protein activities. Advances in higher throughput workflows have made it possible to generate extensive competitive ABPP data across diverse biological samples, making this approach highly appealing for characterizing shared and unique proteins affected by perturbations such as drug or chemical exposures. To use the competitive ABPP approach effectively to understand potential adverse effects of chemicals of concern (CoC), a wide range of concentrations may be needed, particularly for chemicals that lack potency or toxicity data. In this work, we present an integral competitive ABPP method that enables target sensitivity determination for different organophosphate (OP) pesticides as model toxicants. Using previously developed OP-ABPs, we optimized conditions for tandem mass tag (TMT) multiplexing of ABPP samples and compared conventional competitive ABPP involving samples at discrete paraoxon concentrations to pooled samples across that same concentration range. We then expanded our approach to compare protein target sensitivities toward two additional OP pesticides, chlorpyrifos oxon and malaoxon. The results showed that differences in integral intensities for the pooled competition sample can be used to evaluate the relative sensitivity of specific proteins without increasing the overall number of samples. For 8 CoC concentrations of interest, this strategy reduced the number of TMT plexes and the corresponding number of LC–MS/MS analyses 3-fold. We envision the integral ABPP (IABPP) method will provide a means to screen diverse chemicals more rapidly to identify both high and low sensitivity protein targets. |
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| DOI: | 10.1021/acschembio.5c00412.s001 |