Closely related antibody receptors exploit fundamentally different strategies for steroid recognition

Verdino, Petra; Aldag, Caroline; Hilvert, Donald; Wilson, Ian A.

doi:10.1073/pnas.0801783105

Cited by 9 publications

(26 citation statements)

References 32 publications

(45 reference statements)

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“…The remaining residue position (31 of VH) has Asn in the sequence published by Xu et al but Lys in the sequence published by the patent. To probe the involvement of residues, which are alanine in WT epitope or paratope, we mutated alanine to tryptophan as the large aromatic side chain of tryptophan is expected to have the highest disruptive potential to the binding interface 42 . Importantly, 18/19 identified paratope residues are from the heavy chain, which is logical given that the interaction between m102.3 and GP is dominated by the heavy chain.…”

Section: Resultsmentioning

confidence: 99%

Prediction of the binding interface between monoclonal antibody m102.4 and Nipah attachment glycoprotein using structure-guided alanine scanning and computational docking

Tit-oon

Tharakaraman

Artpradit

et al. 2020

Sci Rep

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Nipah Virus (NiV) has been designated as a priority disease with an urgent need for therapeutic development by World Health Organization. The monoclonal antibody m102.4 binds to the immunodominant NiV receptor-binding glycoprotein (GP), and potently neutralizes NiV, indicating its potential as a therapeutic agent. Although the co-crystal structure of m102.3, an m102.4 derivative, in complex with the GP of the related Hendra Virus (HeV) has been solved, the structural interaction between m102.4 and NiV is uncharacterized. Herein, we used structure-guided alanine-scanning mutagenesis to map the functional epitope and paratope residues that govern the antigen–antibody interaction. Our results revealed that the binding of m102.4 is mediated predominantly by two residues in the HCDR3 region, which is unusually small for an antibody-antigen interaction. We performed computational docking to generate a structural model of m102.4-NiV interaction. Our model indicates that m102.4 targets the common hydrophobic central cavity and a hydrophilic rim on the GP, as observed for the m102.3-HeV co-crystal, albeit with Fv orientation differences. In summary, our study provides insight into the m102.4-NiV interaction, demonstrating that structure-guided alanine-scanning and computational modeling can serve as the starting point for additional antibody reengineering (e.g. affinity maturation) to generate potential therapeutic candidates.

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Section: Resultsmentioning

confidence: 99%

Prediction of the binding interface between monoclonal antibody m102.4 and Nipah attachment glycoprotein using structure-guided alanine scanning and computational docking

Tit-oon

Tharakaraman

Artpradit

et al. 2020

Sci Rep

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“…On the other hand, the unique advantages of oligonucleotide-based receptors over other types of receptors is that they can be readily isolated by streamlined in vitro selection and amplification procedures and tailored by rational adjustments in stringencies and focused counter-selections. , However, we were concerned that aptamer receptors defined by shorter sequences, e.g. , <40 nucleotides, would have only limited affinities for purely hydrophobic targets, because the free energy benefits of hydrophobic interactions are directly proportional to contact surface areas. , For hydrophilic steroids, such as those containing hydroxyl groups, selectivity may be easier to achieve due to more oriented polar interactions, but these may interfere with our goal of achieving high-affinity receptors with limited size. We were further concerned that concomitant increases in binding pocket complexity would make aptamers even less likely to be successfully isolated in selections.…”

mentioning

confidence: 99%

High-Affinity Nucleic-Acid-Based Receptors for Steroids

Yang¹,

Chun

Zhang³

et al. 2017

ACS Chem. Biol.

134

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Artificial receptors for hydrophobic molecules usually have moderate affinities and limited selectivities. We describe three new classes of high affinity hydrophobic receptors for nonaromatic steroids based on deoxyribonucleotides, obtained through five high stringency selections coupled with tailored counter-selections. The isolation of multiple classes of high affinity steroid receptors demonstrates the surprising breadth of moderately sized hydrophobic binding motifs (<40 nucleotides) available to natural nucleic acids. Studies of interactions with analogs indicate that two classes, four-way junctions and 4XG motifs, comprise receptors with shapes that prevent binding of specific steroid conjugates used in counter-selections. Furthermore, they strongly prefer nonhydroxylated steroid cores, which is typical for hydrophobic receptors. The third new class accommodates hydroxyl groups in high-affinity, high-selectivity binding pockets, thus reversing the preferences of the first two classes. The high-affinity binding of aptamers to targets efficiently inhibits double-helix formation in the presence of the complementary oligonucleotides. The high affinity of some of these receptors and tailored elimination of binding through counter-selections ensures that these new aptamers will enable clinical chemistry applications.

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“…Two mutations (Leu52HTrp and Arg113HTrp) directed to the binding site residues of 1E9 Fab were sufficient to improve the steroid binding affinity of 1E9 Fab. The crystal structures of the 1E9 double mutant Fab (1E9dm) in complex with progesterone and 5b-androstane-3,17-dione showed the major role of hydrophobic interactions in the complex formation (Verdino et al, 2008). In both 1E9dm Fab complex structures, the hapten molecule is bound in a sandwich between the amino acid residues Trp55H and Trp113H.…”

Section: Comparison To Other Steroid-binding Antibodiesmentioning

confidence: 98%

“…The three-dimensional structures have been determined for three anti-estradiol antibodies [57-2, 17E12 and 10G6 (Lamminmäki and Kankare, 2001;Monnet et al, 2002)], an anti-progesterone antibody DB3 (Arevalo et al, 1994), two anti-digoxin antibodies (26-10 and 40-50 (Jeffrey et al, 1993;Jeffrey et al, 1995), a glucuronide binding antibody Fv4155 fragment (Trinh et al, 1997) and a mutated catalytic Diels-Alderase antibody Fab fragment 1E9dm (Verdino et al, 2008). The relative orientation of the bound steroid molecule, number of hydrogen bonds between the hapten and antibody and the contribution of the antibody heavy chain to steroid binding vary among these structures.…”

Section: Comparison To Other Steroid-binding Antibodiesmentioning

confidence: 99%

The testosterone binding mechanism of an antibody derived from a naïve human scFv library

Niemi

Takkinen

Amundsen

et al. 2011

J of Molecular Recognition

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A testosterone binding scFv antibody was isolated from a naïve human library with a modest size of 10(8) clones. The crystal structure of the Fab fragment form of the 5F2 antibody clone complexed with testosterone determined at 1.5 Å resolution shows that the hapten is bound deeply in the antibody binding pocket. In addition to the interactions with framework residues only CDR-L3 and CDR-H3 loops interact with testosterone and the heavy chain forms the majority of the contacts with the hapten. The testosterone binding site of the 5F2 antibody with a high abundance of aromatic amino acid residues shows similarity with an in vitro affinity matured antibody having around 300 times higher affinity. The moderate affinity of the 5F2 antibody originates from the different orientation of the hapten and few light chain contacts. This is the first three-dimensional structure of a human steroid hormone binding antibody that has been isolated from a naïve human repertoire.

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Closely related antibody receptors exploit fundamentally different strategies for steroid recognition

Cited by 9 publications

References 32 publications

Prediction of the binding interface between monoclonal antibody m102.4 and Nipah attachment glycoprotein using structure-guided alanine scanning and computational docking

Prediction of the binding interface between monoclonal antibody m102.4 and Nipah attachment glycoprotein using structure-guided alanine scanning and computational docking

High-Affinity Nucleic-Acid-Based Receptors for Steroids

The testosterone binding mechanism of an antibody derived from a naïve human scFv library

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