Download Designing Molecular Probes for the Detection of Gene Expression

Rapid Production of Bispecific Antibodies Using
‘Off-the-Shelf’ IgG
Andrew Tsourkas, Ph.D.
Professor
Department of Bioengineering
University of Pennsylvania
Limitations/Challenges of Nanoparticle Bioconjugations
• Conventional Chemistries are inefficient (typically <10%) and are not site-specific
• Click-chemistries are efficient, but are not-specific & require labeling of
antibody
Creating Targeted Nanoparticles
Targeting Group
Crosslinker
Contrast Agent/Nanoparticle
HOOC
NH2
Desirable attributes for nanoparticle-targeting ligand conjugations
•
Ability to work with any off-the-shelf antibody
•
Highly efficient
•
Site-specific/proper orientation on nanoparticle surface
•
No effect on antibody affinity
Sortase-Tag Expressed Protein Ligation (STEPL)
• Site-specific C-terminal modification of any single-chain recombinant
protein with any desirable tag (imaging agents, drug, peg, click moieties, etc.)
% Protein Ligated
% Peptide Utilized
Proximity-Based Sortase Ligation (PBSL)
• Binding partners are used to bring Sortase and Sortase Recognition Motif
into close proximity, to increase the efficiency of ligation.
Proximity-Based Sortase Ligation (PBSL)
• Binding partners are used to bring Sortase and Sortase Recognition Motif
into close proximity, to increase the efficiency of ligation.
Improving Nanoparticle Bioconjugations
• Confirmation of Click conjugation
• Cancer cells labeled with Her2-SPIO exhibit a
a lower T2
• Magnetically purified SPIO are
fluorescently labeled
• Ligand density has large effect on avidity
Improving Nanoparticle Bioconjugations
• Her2-SPIO can be used to effectively detect Her2/neu-positive tumors
Rapid Production of Modular Bispecific Targeting Ligands
• Two affibody constructs were used to make 8 different bispecific targeting ligands
Improved Specificity of Bispecific Targeting Ligands
• Bispecific targeting ligands can be used to acquired enhanced specificity for
double-positive target cell lines
Site-Specific IgG-Nanoparticle Conjugations
• EPL-Click can be combined with the incorporation of unnatural amino acids to
allow for the site-specific attachment of IgG to nanoparticles.
Site-specific Modification of IgG
• Photoreactive Antibody binding domains (pAbBDs) bind at the CH2-CH3 hinge
• pAbBDs efficiently crosslink a wide range of antibodies from various hosts and
subclasses
Optimization of IgG Bioconjugations
• pAbBDs can be covalently linked to IgG very rapidly and efficiently.
• A 1:1 pAbBD-to-IgG heavy chain ratio is adequate for complete labeling
Modification of a Single IgG Heavy Chain
• Steps can be take to modify only a single IgG heavy chain with Protein Z/G.
• IgG modified with pAbBDs exhibit the same affinity for their target receptor as
native IgG.
IgG-Nanoparticle Bioconjugations
• pAbBDs enables the covalent linkage of IgG to Nanoparticles
IgG-Nanoparticle Bioconjugations
• Imaging VCAM-1 in murine inflammation model
Alternative IgG-Bioconjugate Applications
• pAbBDs allow us to functionalize antibodies with a wide array of chemical
and biological moieties for use in diverse applications
One-Step Production of Bispecific Antibodies
• pAbBD-scFv fusions allows IgG-scFv bispecific antibodies to be produced
in a single step.
pAbBDscFv
• Bispecifics can be produced rapidly, in parallel, and with high purity
Bispecific Antibodies
•
Affinity Assays
- Bispecific antibodies exhibit no loss in affinity compared with the monoclonal
antibody (mAb) from which they are derived.
Bispecific Antibodies Exhibit High Potency
• Bispecific antibodies exhibit an EC50 of ~2 ng/mL (PMBCs, E:T = 10:1)
Jeko B cells: Rituximab x anti-CD3
K562 cells: Rituximab x anti-CD3
Jeko B cells: Rituximab + anti-CD3
Jeko B cells: Rituximab
Rapid Production of Bispecific Antibodies from Two FullLength IgGs
• Site-specific antibody conjugation methods can be used to make bispecific
antibodies rapidly (<1 day) and efficiently
Rapid Production of Bispecific Antibodies
OKT3
Cetux x OKT3
Cetux
OKT3
Her x OKT3
Her
OKT3
Ritux x OKT3
Ritux
Her
Cetux x Her
Cetux
• 4 unique bispecific antibodies were generated by a one person in less than 24 hrs.
Rapid Production of Bispecific Antibodies
• Bispecifics exhibit similar affinity as individual wild-type IgG
• FPLC can be used to improve purity
Trimer
Dimer
Monomer
Acknowledgements
Graduate Students
Rob Warden
James Hui
Elizabeth Higbee
Jessica Liu
Post-Docs/Research Scientists
Ching-Hui Huang
Xumei Zhang
Kido Nwe
Yang Song
Lesan Yan
Jayesh Thawani
Joel Stein
Burcin Altun
Collaborators
Zhiliang Cheng (Upenn)
Vladimir Popik (UGa)
Small Animal Imaging Facilities
Weixia Liu
Stephen Pickup
Funding: NSF, NIH/NCI, NIH/NIBIB, American Cancer Society, CDMRP BCRP