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A shorter linker in the bispecific antibody RmAb158-scFv8D3 improves TfR-mediated Blood-Brain Barrier transcytosis in vitro
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Pharmacy, Department of Pharmacy.ORCID iD: 0009-0007-6465-0773
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Pharmacy, Department of Pharmacy.
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Pharmacy, Department of Pharmacy.
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Pharmacy, Department of Pharmacy.
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(English)In: Scientific Reports, E-ISSN 2045-2322Article in journal (Other academic) Submitted
Abstract [en]

 Transferrin Receptor (TfR)-mediated transcytosis across the blood-brain barrier (BBB) enables the uptake of bispecific therapeutic antibodies into the brain. At therapeutically relevant concentrations, bivalent binding to TfR appears to reduce the transcytosis efficiency by receptor crosslinking. In this study, we aimed to improve BBB transcytosis of symmetric antibodies through minimizing their ability to cause TfR crosslinking. We created variants of the previously published RmAb158-scFv8D3, where the linker length between RmAb158 and the mTfR-targeting scFv8D3 was adjusted. We investigated the effect of the linker length on the antibodies’ binding kinetics to mTfR using ELISA and LigandTracer assays, and their ability to transcytose across BBB endothelial cells (In-Cell BBB-Trans assay). We show that even a direct fusion without a linker does not alter the antibodies’ apparent affinities to mTfR indicating their valency is unlikely affected by the linker length. However, the shortest linker variants demonstrated BBB transcytosis levels comparable to that of the monovalent control at a high antibody concentration and showed an almost two-fold higher level of BBB transcytosis compared to the longer linker variants at the high concentration. Our new RmAb158-scFv8D3 short-linker variants are examples of symmetric, therapeutic antibodies with improved TfR-binding characteristics to facilitate more efficient brain uptake. We hypothesize that bivalent binding to TfR as such does not negatively affect BBB transcytosis in vitro, but a very short distance between TfR-targeting domains lowers the probability of receptor crosslinking. This study provides valuable insights into antibody-TfR interaction kinetics, contributing to future development of TfR-targeting antibody-based treatments for brain diseases.

Keywords [en]
Blood-brain-barrier (BBB) shuttle; Transferrin receptor (TfR); RmAb158-scFv8D3; receptor crosslinking; bispecific antibodies; monovalent and bivalent binding
National Category
Medical Biotechnology (with a focus on Cell Biology (including Stem Cell Biology), Molecular Biology, Microbiology, Biochemistry or Biopharmacy) Biochemistry and Molecular Biology Neurosciences
Identifiers
URN: urn:nbn:se:uu:diva-536144OAI: oai:DiVA.org:uu-536144DiVA, id: diva2:1888799
Funder
ParkinsonfondenSwedish Research CouncilÅhlén-stiftelsenHarald Jeanssons stiftelseMagnus Bergvall FoundationVinnovaAlzheimerfondenOlle Engkvists stiftelseBertil and Ebon Norlin Foundation for Medical ResearchIngegerd Berghs stiftelseGunvor och Josef Anérs stiftelseO.E. och Edla Johanssons vetenskapliga stiftelseTorsten Söderbergs stiftelseInsamlingsfonden Bissen BrainwalkThe Swedish Brain FoundationAvailable from: 2024-08-13 Created: 2024-08-13 Last updated: 2024-08-14
In thesis
1. Targeting pathological alpha-synuclein: Protein engineering towards improved antibody-based therapeutics and their delivery to the brain
Open this publication in new window or tab >>Targeting pathological alpha-synuclein: Protein engineering towards improved antibody-based therapeutics and their delivery to the brain
2024 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

The aggregation of alpha-synuclein (αSyn) into oligomers and fibrils is central to the disease progression of Parkinson’s disease and related pathologies, where αSyn aggregates spread between neurons and cause neurodegeneration. To this date, there is no treatment available that could interfere with the aggregation of αSyn to potentially stop the disease progression. Among the major limitations in the development of therapeutics against αSyn aggregation are the low extracellular concentration of αSyn, the low selectivity of therapeutics for the pathologically relevant αSyn species, and the lacking detailed knowledge about the actual pathological αSyn species.

In this thesis, different engineered antibodies and αSyn mutants were investigated with the aim to identify better strategies of antibody-based treatment of αSyn aggregation.

In Paper I, we engineered multivalent antibodies based on the αSyn aggregate-specific antibody SynO2 to enhance the antibody’s binding strength to a wide range of soluble αSyn aggregates. We could show that the higher valency increased the binding strength to αSyn aggregates up to 20-fold.

In Paper II, we aimed to improve the design of the antibody RmAb158-scFv8D3 to enhance its TfR-mediated brain uptake. By drastically reducing the linker length between the therapeutic antibody and its TfR-targeting scFv8D3, we showed a two-fold enhanced transcytosis across an in vitro BBB model.

In Paper III, we fused a negatively charged peptide to the αSyn aggregate-specific antibodies SynO2 and 9E4 to test whether those fusion antibodies had the potential to bind with higher avidity to αSyn aggregates. Our results showed lower binding strengths compared with the parental antibodies.

In Paper IV, we designed αSyn mutants with a stabilized beta-hairpin conformation to produce stable, small αSyn oligomers closely resembling native, pathological αSyn oligomers. We showed that two of the mutants formed exclusively pentameric and hexameric oligomers under conditions that promoted fibrillation of wild-type αSyn.

In conclusion, this thesis shows that increasing the valency of an antibody is a possible strategy to enhance its binding strength to αSyn aggregates. However, to effectively target pathologically relevant αSyn species, a more selective targeting approach may be required, possibly through a conformational epitope exclusive to αSyn oligomers.

Place, publisher, year, edition, pages
Uppsala: Acta Universitatis Upsaliensis, 2024. p. 54
Series
Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Pharmacy, ISSN 1651-6192 ; 358
Keywords
Parkinson’s disease (PD), alpha-synuclein (αSyn), beta-hairpin, protein drugs, multivalent antibodies, blood-brain barrier (BBB), transferrin receptor (TfR)
National Category
Biochemistry and Molecular Biology Medical Biotechnology (with a focus on Cell Biology (including Stem Cell Biology), Molecular Biology, Microbiology, Biochemistry or Biopharmacy)
Identifiers
urn:nbn:se:uu:diva-536149 (URN)978-91-513-2198-1 (ISBN)
Public defence
2024-10-04, A1:107a, BMC, Husargatan 3, Uppsala, 09:15 (English)
Opponent
Supervisors
Available from: 2024-09-12 Created: 2024-08-14 Last updated: 2024-09-12

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