Ava Sadi scite author profile

Interleukin 6 plays a key role in mediating inflammatory reactions in autoimmune diseases and cancer, where it is also involved in metastasis and tissue invasion. Neutralizing antibodies against IL-6 and its receptor have been approved for therapeutic intervention or are in advanced stages of clinical development. Here we describe the crystal structures of the complexes of IL-6 with two Fabs derived from conventional camelid antibodies that antagonize the interaction between the cytokine and its receptor. The x-ray structures of these complexes provide insights into the mechanism of neutralization by the two antibodies and explain the very high potency of one of the antibodies. It effectively competes for binding to the cytokine with IL-6 receptor (IL-6R) by using side chains of two CDR residues filling the site I cavities of IL-6, thus mimicking the interactions of Phe229 and Phe279 of IL-6R. In the first antibody, a HCDR3 tryptophan binds similarly to hot spot residue Phe279. Mutation of this HCDR3 Trp residue into any other residue except Tyr or Phe significantly weakens binding of the antibody to IL-6, as was also observed for IL-6R mutants of Phe279. In the second antibody, the side chain of HCDR3 valine ties into site I like IL-6R Phe279, whereas a LCDR1 tyrosine side chain occupies a second cavity within site I and mimics the interactions of IL-6R Phe229.

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Dual anti-idiotypic purification of a novel, native-format biparatopic anti-MET antibody with improved in vitro and in vivo efficacy

Godar

Morello

Sadi³

et al. 2016

Sci Rep

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Bispecific antibodies are of great interest due to their ability to simultaneously bind and engage different antigens or epitopes. Nevertheless, it remains a challenge to assemble, produce and/or purify them. Here we present an innovative dual anti-idiotypic purification process, which provides pure bispecific antibodies with native immunoglobulin format. Using this approach, a biparatopic IgG1 antibody targeting two distinct, HGF-competing, non-overlapping epitopes on the extracellular region of the MET receptor, was purified with camelid single-domain antibody fragments that bind specifically to the correct heavy chain/light chain pairings of each arm. The purity and functionality of the anti-MET biparatopic antibody was then confirmed by mass spectrometry and binding experiments, demonstrating its ability to simultaneously target the two epitopes recognized by the parental monoclonal antibodies. The improved MET-inhibitory activity of the biparatopic antibody compared to the parental monoclonal antibodies, was finally corroborated in cell-based assays and more importantly in a tumor xenograft mouse model. In conclusion, this approach is fast and specific, broadly applicable and results in the isolation of a pure, novel and native-format anti-MET biparatopic antibody that shows superior biological activity over the parental monospecific antibodies both in vitro and in vivo.

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Combining somatic mutations present in differentin vivoaffinity-matured antibodies isolated from immunizedLama glamayields ultra-potent antibody therapeutics

Klarenbeek

Blanchetot

Schragel

et al. 2016

Protein Engineering, Design and Selection

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Highly potent human antibodies are required to therapeutically neutralize cytokines such as interleukin-6 (IL-6) that is involved in many inflammatory diseases and malignancies. Although a number of mutagenesis approaches exist to perform antibody affinity maturation, these may cause antibody instability and production issues. Thus, a robust and easy antibody affinity maturation strategy to increase antibody potency remains highly desirable. By immunizing llama, cloning the 'immune' antibody repertoire and using phage display, we selected a diverse set of IL-6 antagonistic Fabs. Heavy chain shuffling was performed on the Fab with lowest off-rate, resulting in a panel of variants with even lower off-rate. Structural analysis of the Fab:IL-6 complex suggests that the increased affinity was partly due to a serine to tyrosine switch in HCDR2. This translated into neutralizing capacity in an in vivo model of IL-6 induced SAA production. Finally, a novel Fab library was designed, encoding all variations found in the natural repertoire of VH genes identified after heavy chain shuffling. High stringency selections resulted in identification of a Fab with 250-fold increased potency when re-formatted into IgG1. Compared with a heavily engineered anti-IL-6 monoclonal antibody currently in clinical development, this IgG was at least equally potent, showing the engineering process to have had led to a highly potent anti-IL-6 antibody.

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Structure of Interleukin-6 in complex with a Camelid Fab fragment

Klarenbeek¹,

Blanchetot²,

Schragel³

et al. 2015

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Ava Sadi

Structural Mimicry of Receptor Interaction by Antagonistic Interleukin-6 (IL-6) Antibodies

Dual anti-idiotypic purification of a novel, native-format biparatopic anti-MET antibody with improved in vitro and in vivo efficacy

Combining somatic mutations present in differentin vivoaffinity-matured antibodies isolated from immunizedLama glamayields ultra-potent antibody therapeutics

Structure of Interleukin-6 in complex with a Camelid Fab fragment

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