Substrate Profiling of Glutathione S‐transferase with Engineered Enzymes and Matched Glutathione Analogues

Feng, Shan; Zhang, Lei; Adilijiang, Gulishana; Liu, Jieyuan; Deng, Haiteng

doi:10.1002/anie.201402000

Cited by 9 publications

(5 citation statements)

References 21 publications

(31 reference statements)

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“…Imaging tools capable of detecting endogenous protein S -glutathionylation (PSSG) from live mammalian cells have drawn significant interests in recent years. − When cells are under oxidative stress, PSSG occurs, whereby cysteines in affected proteins form disulfide bonds with endogenous GSH resulting in the formation of glutathionylated proteins (protein-SSG) (Figure a). This process is catalyzed by redox enzymes together with reactive oxygen species (ROS) and is closely associated with the progression of many diseases .…”

Section: Resultsmentioning

confidence: 99%

Cell-Permeant Bioadaptors for Cytosolic Delivery of Native Antibodies: A “Mix-and-Go” Approach

Liew

Zhang

et al. 2020

ACS Cent. Sci.

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Antibodies are powerful tools that may potentially find wide applications in live-cell bioimaging, disease diagnostics, and therapeutics. Their practical applications have however remained limited thus far, owing to their inability to cross the cell membrane. Existing approaches for cytosolic delivery of functional antibodies are available, but they are constantly plagued by the need for chemical/genetic modifications, low delivery efficiency, and severe endolysosomal trapping. Consequently, it is of paramount importance to develop new strategies capable of highly efficient cytosolic delivery of native antibodies with immediate bioavailability. Herein, we report a modification-free, convenient “mix-and-go” strategy for the cytosolic delivery of native antibodies to different live mammalian cells efficiently, with minimal endolysosomal trapping and immediate bioavailability. By simply mixing a cell-permeant bioadaptor (derived from protein A or TRIM21) with a commercially available off-the-shelf antibody, the resulting noncovalent complex could be immediately used for intracellular delivery of native antibodies needed in subsequent cytosolic target engagement. The versatility of this approach was successfully illustrated in a number of applications, including antibody-based, live-cell imaging of the endogenous protein glutathionylation to detect oxidative cell stress, antibody-based activation of endogenous caspase-3, and inhibition of endogenous PTP1B activity, and finally TRIM21-mediated endogenous protein degradation for potential targeted therapy. Our results thus indicate this newly developed, “mix-and-go” antibody delivery method should have broad applications in chemical biology and future drug discovery.

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Section: Resultsmentioning

confidence: 99%

Cell-Permeant Bioadaptors for Cytosolic Delivery of Native Antibodies: A “Mix-and-Go” Approach

Liew

Zhang

et al. 2020

ACS Cent. Sci.

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“…It not only can conjugate with biotin for purification in proteomics but also can click with fluorophores for imaging applications. Also, azido-glutathione may be used to identify small molecule substrates of glutathione S-transferase, as shown in a recent report . Such efforts could significantly contribute to an enhanced understanding of the roles of glutathione and glutathionylation in redox regulation.…”

mentioning

confidence: 96%

“…Also, azido-glutathione may be used to identify small molecule substrates of glutathione S-transferase, as shown in a recent report. 21 Such efforts could significantly contribute to an enhanced understanding of the roles of glutathione and glutathionylation in redox regulation. Journal of the American Chemical Society…”

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confidence: 99%

Metabolic Synthesis of Clickable Glutathione for Chemoselective Detection of Glutathionylation

et al. 2014

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Glutathionylation involves reversible protein cysteine modification that regulates the function of numerous proteins in response to redox stimuli, thereby altering cellular processes. Herein we developed a selective and versatile approach to identifying glutathionylation by using a mutant of glutathione synthetase (GS). GS wild-type catalyzes coupling of γGlu-Cys to Gly to form glutathione. We generated a GS mutant that catalyzes azido-Ala in place of Gly with high catalytic efficiency and selectivity. Transfection of this GS mutant (F152A/S151G) and incubation of azido-Ala in cells efficiently afford the azide-containing glutathione derivative, γGlu-Cys-azido-Ala. Upon H2O2 treatment, clickable glutathione allowed for selective and sensitive detection of glutathionylated proteins by Western blotting or fluorescence after click reaction with biotin-alkyne or rhodamine-alkyne. This approach affords the efficient metabolic tagging of intracellular glutathione with small clickable functionality, providing a versatile handle for characterizing glutathionylation.

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“…Contributing to the recent effort toward substrate profiling for a wide range of transferases, Deng and colleagues formulated a technique called 'bioorthogonal identification of GST substrates' (BIGS) by developing allele-specific pair of GST mutant and modified reduced glutathione. 117 Upon analysis of the crystal structure of GSTM1 from S. japonicum, they generated a K44G/W40A/ R41A triple mutant (GST-KWR) that was able to modify a homopropargylic ester of GSH (GSH-R1) as its substrate with efficiency comparable to the wild-type GSTM1-GSH pair ( Figure 9C). Although the mutant was still active toward GSH, it showed preference toward modified GSH in a competitive assay, demonstrating its functional orthogonality.…”

Section: Acs Chemical Biologymentioning

confidence: 99%

“…As an interesting application, the GST-KWR and GSH-R1 pair was used to identify multiple substrates, such as cyclodopaglucoside and callystatin A, from the Chinese herbal medicine Ganmaochongli using LC-MS/MS of the enriched sample ( Figure 9C). 117 Recently, Ahn and colleagues have demonstrated that hole-bearing glutathione synthetase can synthesize a GSH analogue containing bumped azido-alanine, providing a ACS Chemical Biology Reviews dx.doi.org/10.1021/cb500651d | ACS Chem. Biol.…”

Section: Acs Chemical Biologymentioning

confidence: 99%

Allele-Specific Chemical Genetics: Concept, Strategies, and Applications

Islam

2014

ACS Chem. Biol.

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The relationship between DNA and protein sequences is well understood, yet because the members of a protein family/subfamily often carry out the same biochemical reaction, elucidating their individual role in cellular processes presents a challenge. Forward and reverse genetics have traditionally been employed to understand protein functions with considerable success. A fundamentally different approach that has gained widespread application is the use of small organic molecules, known as chemical genetics. However, the slow time-scale of genetics and inherent lack of specificity of small molecules used in chemical genetics have limited the applicability of these methods in deconvoluting the role of individual proteins involved in fast, dynamic biological events. Combining the advantages of both the techniques, the specificity achieved with genetics along with the reversibility and tunability of chemical genetics, has led to the development of a powerful approach to uncover protein functions in complex biological processes. This technique is known as allele-specific chemical genetics and is rapidly becoming an essential toolkit to shed light on proteins and their mechanism of action. The current review attempts to provide a comprehensive description of this approach by discussing the underlying principles, strategies, and successful case studies. Potential future implications of this technology in expanding the frontiers of modern biology are discussed.

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Substrate Profiling of Glutathione S‐transferase with Engineered Enzymes and Matched Glutathione Analogues

Cited by 9 publications

References 21 publications

Cell-Permeant Bioadaptors for Cytosolic Delivery of Native Antibodies: A “Mix-and-Go” Approach

Cell-Permeant Bioadaptors for Cytosolic Delivery of Native Antibodies: A “Mix-and-Go” Approach

Metabolic Synthesis of Clickable Glutathione for Chemoselective Detection of Glutathionylation

Allele-Specific Chemical Genetics: Concept, Strategies, and Applications

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