Immunodiscovery developing antibodies for research, diagnosis and therapy MATS OHLIN

Immunodiscovery developing antibodies for research, diagnosis and therapy MATS OHLIN

Immunotechnology a department at Lund University exploiting advanced technologies in biomedicine Genomics Antibody technology Immunotechnology Proteomics Antibody-driven proteomics Allergy Cancer Immunology Bioinformatics

Antibodies key molecules exploiting advanced technologies in biomedicine Genomics Antibody technology Immunotechnology Proteomics Antibody-driven proteomics Allergy Cancer Immunology Bioinformatics

The versatile antibody Target binding paratope 90 Effector function Fc

Targets of antibodies Antigens and their epitopes Kwong and Mascola (2012) Cell 37, 412-425

The target antigen A diagnostic molecule

Wingren et al. (2012) Cancer Res 72, 2481 Antibody-based discovery of biomarkers Multiplexed diagnostic or prognostic sets of analytes

The target antigen Diagnostic molecules A research target A cellular component for therapy Presence on target cell Unwanted presence on other cells (off-target effects) Accessibility Antibody mechanism http://www.proteinatlas.org of action

Diverse functions in oncology Weiner (2015) Nat Rev Cancer 15, 361-370

Biological function of antibodies mechanisms of action Agonist / antagonist / partial antagonist Steric hindrance of activity Prevention of dimerization Signaling Induction of apoptosis Complement activation Opsonization Antibody-dependent cellular cytotoxicity Carrier payload Anti-angiogenesis Activation of immunity

Antibodies as registered drugs

Recombinant antibodies $75 billion annual sales (2013) * * * anti-vegf IFN-β1a rtnfr anti-her2 anti-tnfα IFN-β1a anti-tnfα anti-cd20 Ecker et al. (2015) mabs 7, 9-14

Targets and indications

Immune checkpoint regulators new fancy targets

Immune checkpoint regulators new fancy targets controlling immune activity

The binder (Antisera) Mouse monoclonal antibody

The foreign nature of mouse antibodies The problem immunogenicity of non-human proteins the difficulty of raising human antibodies Mouse antibody sequence

The binder solving the problem through technology advances (Antisera) Mouse monoclonal antibody Chimeric antibody Humanized antibody Human antibody From human immune response From mice with human antibody locus From combinatorial antibody library

Chimeric and humanized antibodies enhancing the proteins human nature The problems immunogenicity of non-human proteins and the difficulty of raising human antibodies Mouse antibody Chimeric antibody Humanized antibody Human antibody sequence sequence sequence sequence Nature 1986; 321, 522

A diverse set of constructs

Harvesting human monoclonal antibody specificities from immune individuals B cell immortalization Human hybridoma technology Antibody gene cloning Blood collection Single cell sorting Gene cloning Antibody product analysis

Jakobovits et al. (2007) Nat Biotechnol 25, 1134-1143. Mice producing human antibodies

Antibodies from combinatorial libraries Collections of millions billions of antibody encoding genes and their corresponding antibody specificities From immune response Naïve development of antibodies against any target

Phage display technology Screen for desired properties 7 6 5 2 1 Immobilized Antigen 4 3 Immobilized Antigen 1. Immobilize antigen 2. Add phage library 3. Wash away non-binding phages 4. Elute bound phages and infect E.coli 5. Amplify binding phages 6. Repeat step 1-5 until sufficient enrichment 7. Screen for desired properties

Phage display technology the evolution approach * * * * * * * * * * * * * * Immobilized Antigen Immobilized Antigen

Amstutz et al. (2001) Curr Opin Biotechnol 12, 400 405 Ribosomal display Very large libraries Built-in protein evolution

Large-scale antibody development pipeline Large library Automated selection Automated production High throughput immunoassay / bioassays Designed plasmids for ease of cloning Prokaryotic and eukaryotic cell production systems

Antibody formats Intact naked antibodies choice of isotype (e.g. IgG1-4), fragment etc. Single antibody vs. antibody mixtures Immunoconjugates CAR T cells

Example: CD20 as a target Antibody: Rituximab Product: MabThera Target: present on most cells of the B cell lineage Treatment of disease with B cell involvement e.g. Non-Hodgkin s lymphoma & chronic lymphatic leukemia Rheumatoid arthritis Granulomatosis with polyangiitis and microscopic polyangiitis Antibody depletes B cells Impairs antibody responses Antibody does not affect plasma cells or stem cells Does not eliminate existing antibody production

Immunoconjugates Kadcyla targeting HER2+ cells with chemotherapy (Emtansine) http://www.kadcyla.com/

CAR-T cells and bispecific antibodies adding function to targeting Recruiting T cell immunity to tumors Suzuki et al. (2015) Ped Blood Cancer 62, 1326 1336

Biosimilar a biological drug that is almost an identical copy of an original product

Discovery in the field of antibody A critical source of new entities for biomedicine and research