Translating the Concept of Bispecific Antibodies to Engineering Heterodimeric Phosphotriesterases with Broad Organophosphate Substrate Recognition

Escher, Benjamin; Köhler, Annette G.; Job, Laura; Worek, Franz; Skerra, Arne

doi:10.1021/acs.biochem.0c00751

Cited by 8 publications

(12 citation statements)

References 57 publications

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“…To take benefit of this technology, a PAS tag with 200 residues was appended to BdPTE-3, yielding BdPTE-4, to potentially increase its circulation time in vivo. Moreover, introduction of the flexible PAS sequence as a linker proved useful in the recent investigation of Escher et al (2020) with the aim to generate a bispecific catalytic bioscavenger. The resulting heterodimer BdPTE-7 combines the substrate profiles of its constituent subunits, BdPTE-1 and BdPTE-6, without impairing their individual catalytic activities.…”

Section: Discussionmentioning

confidence: 99%

“…The SapI restriction site in front of the stop-codon of the variant BdPTE-3 was used to insert a PAS#1(200) gene cassette according to Schlapschy et al (2013), yielding BdPTE-4. The expression plasmid encoding the heterodimeric variant BdPTE-7 composed of BdPTE-1 and BdPTE-6 subunits, fused by a PAS(100) linker between the C-terminus of BdPTE-1 and the N-terminus of BdPTE-6 and complemented by electrostatic steering mutations R152E as well as E71K to stabilize the heterodimerization, was constructed according to Escher et al (2020). For the additional C-terminal PASylation, two inverted SapI restriction sites were inserted upfront of the stop-codon via PCR, followed by the seamless insertion of a PAS#1(200) gene cassette as above.…”

Section: Plasmid Constructionmentioning

confidence: 99%

“…The BdPTE variants were produced in E. coli BL21 and purified as previously described (Escher et al 2020;Job et al 2020). Briefly, bacteria were cultivated in shake flasks with 2 L LB medium supplemented with 100 mg L −1 ampicillin and 0.2 mM ZnSO 4 and induced with 200 µg L −1 anhydrotetracycline.…”

Section: Protein Expression and Purificationmentioning

confidence: 99%

“…Furthermore, Job et al (2020) increased the oxidation stability of BdPTE 10-2-C3 by replacing two free Cys to Val, resulting in the variant 10-2-C3(C59V/C227V). Recent investigations by Escher et al (2020) led to an enlarged substrate spectrum by creating bispecific enzymes, e.g., by fusing two different PTE monomers via a 100-residue Pro/Ala/Ser (PAS) linker (Schlapschy et al 2013) to obtain a heterodimeric singlechain PTE (scPTE).…”

Section: Introductionmentioning

confidence: 99%

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Catalytic activity and stereoselectivity of engineered phosphotriesterases towards structurally different nerve agents in vitro

et al. 2021

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Highly toxic organophosphorus nerve agents, especially the extremely stable and persistent V-type agents such as VX, still pose a threat to the human population and require effective medical countermeasures. Engineered mutants of the Brevundimonas diminuta phosphotriesterase (BdPTE) exhibit enhanced catalytic activities and have demonstrated detoxification in animal models, however, substrate specificity and fast plasma clearance limit their medical applicability. To allow better assessment of their substrate profiles, we have thoroughly investigated the catalytic efficacies of five BdPTE mutants with 17 different nerve agents using an AChE inhibition assay. In addition, we studied one BdPTE version that was fused with structurally disordered PAS polypeptides to enable delayed plasma clearance and one bispecific BdPTE with broadened substrate spectrum composed of two functionally distinct subunits connected by a PAS linker. Measured kcat/KM values were as high as 6.5 and 1.5 × 108 M−1 min−1 with G- and V-agents, respectively. Furthermore, the stereoselective degradation of VX enantiomers by the PASylated BdPTE-4 and the bispecific BdPTE-7 were investigated by chiral LC–MS/MS, resulting in a several fold faster hydrolysis of the more toxic P(−) VX stereoisomer compared to P(+) VX. In conclusion, the newly developed enzymes BdPTE-4 and BdPTE-7 have shown high catalytic efficacy towards structurally different nerve agents and stereoselectivity towards the toxic P(−) VX enantiomer in vitro and offer promise for use as bioscavengers in vivo.

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Section: Discussionmentioning

confidence: 99%

Section: Plasmid Constructionmentioning

confidence: 99%

Section: Protein Expression and Purificationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Catalytic activity and stereoselectivity of engineered phosphotriesterases towards structurally different nerve agents in vitro

et al. 2021

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“…with N-acyl homoserine lactones [108,109]. Thus, they can be rationally combined to obtain universal enzyme preparations [110] or even hybrid molecules with other enzymes [111] or with 'guide' DNA [112]. This opens up new promising perspectives for their practical application.…”

Section: Concluding Remarks and Future Perspectivesmentioning

confidence: 99%

Enzymes, Reacting with Organophosphorus Compounds as Detoxifiers: Diversity and Functions

Lyagin

Ефременко

2021

IJMS

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Organophosphorus compounds (OPCs) are able to interact with various biological targets in living organisms, including enzymes. The binding of OPCs to enzymes does not always lead to negative consequences for the body itself, since there are a lot of natural biocatalysts that can catalyze the chemical transformations of the OPCs via hydrolysis or oxidation/reduction and thereby provide their detoxification. Some of these enzymes, their structural differences and identity, mechanisms, and specificity of catalytic action are discussed in this work, including results of computational modeling. Phylogenetic analysis of these diverse enzymes was specially realized for this review to emphasize a great area for future development(s) and applications.

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Post-VX exposure treatment of rats with engineered phosphotriesterases

Stigler¹,

Köhler

Koller³

et al. 2021

Arch Toxicol

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The biologically stable and highly toxic organophosphorus nerve agent (OP) VX poses a major health threat. Standard medical therapy, consisting of reactivators and competitive muscarinic receptor antagonists, is insufficient. Recently, two engineered mutants of the Brevundimonas diminuta phosphotriesterase (PTE) with enhanced catalytic efficiency (kcat/KM = 21 to 38 × 106 M−1 min−1) towards VX and a preferential hydrolysis of the more toxic P(−) enantiomer were described: PTE-C23(R152E)-PAS(100)-10-2-C3(I106A/C59V/C227V/E71K)-PAS(200) (PTE-2), a single-chain bispecific enzyme with a PAS linker and tag having enlarged substrate spectrum, and 10-2-C3(C59V/C227V)-PAS(200) (PTE-3), a stabilized homodimeric enzyme with a double PASylation tag (PAS-tag) to reduce plasma clearance. To assess in vivo efficacy, these engineered enzymes were tested in an anesthetized rat model post-VX exposure (~ 2LD50) in comparison with the recombinant wild-type PTE (PTE-1), dosed at 1.0 mg kg−1 i.v.: PTE-2 dosed at 1.3 mg kg−1 i.v. (PTE-2.1) and 2.6 mg kg−1 i.v. (PTE-2.2) and PTE-3 at 1.4 mg kg−1 i.v. Injection of the mutants PTE-2.2 and PTE-3, 5 min after s.c. VX exposure, ensured survival and prevented severe signs of a cholinergic crisis. Inhibition of erythrocyte acetylcholinesterase (AChE) could not be prevented. However, medulla oblongata and diaphragm AChE activity was partially preserved. All animals treated with the wild-type enzyme, PTE-1, showed severe cholinergic signs and died during the observation period of 180 min. PTE-2.1 resulted in the survival of all animals, yet accompanied by severe signs of OP poisoning. This study demonstrates for the first time efficient detoxification in vivo achieved with low doses of heterodimeric PTE-2 as well as PTE-3 and indicates the suitability of these engineered enzymes for the development of highly effective catalytic scavengers directed against VX.

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Translating the Concept of Bispecific Antibodies to Engineering Heterodimeric Phosphotriesterases with Broad Organophosphate Substrate Recognition

Cited by 8 publications

References 57 publications

Catalytic activity and stereoselectivity of engineered phosphotriesterases towards structurally different nerve agents in vitro

Catalytic activity and stereoselectivity of engineered phosphotriesterases towards structurally different nerve agents in vitro

Enzymes, Reacting with Organophosphorus Compounds as Detoxifiers: Diversity and Functions

Post-VX exposure treatment of rats with engineered phosphotriesterases

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