Utilizing novel technology for the analysis of therapeutic antibodies and host cell protein contamination

Utilizing novel technology for the analysis of therapeutic antibodies and host cell protein contamination Kelli Jonakin, Ph.D. Senior Field Application Scientist, Seattle, WA Eric Johansen, Ph.D. Senior Application Scientist, Biologics, Redwood City, CA

Outline Introduction MS Antibody characterization strategies. Intact protein analysis. Peptide mapping and quantitation. Protein sequence/modifications (oxidation, deamidation, etc). Sequence Variant Analysis MS XIC of All Quantitative Workflow Simple, Sensitive and Powerful Technique for Host Cell Protein Detection MSMS of ALL Fragment Ions of Every Peptide: SWATH. 2 2012 AB SCIEX

Therapeutic Immunoglobulin Molecules Reported IgG1 Structure and Heterogeneity Changes in Sequence: Sequence Variant Analysis Cysteinylation (+119 Da) Thioether (-32 Da) CDR Intact IgG1: MW ~150 kda Homodimer H2L2 (symmetrical) 1300-1350 aa 32 Cys - 16 disulfide bridges 4 interchain + 12 intrachain N-term blocking (Gln/Glu PyroGlu: - 17/-18 Da) VH VL IgG1 = H2L2 (148-149 kda) CH1 CH1 CL CL Glycosylation Heterogeneity (Fab & Fc: +1445, 1607, 1769 Da ) Oxidation (Met, Trp: +16 Da) Deamidation (Asn: +1 Da) Succinimide (Asn/Asp Succ: -17 Da) Glycation (Lys-Glc: +162 Da) C H 2 C H 3 C H 2 C H 3 Host Cell Protein Analysis Other Proteins Other Proteins C-term clipping (-Lys: -128 Da) C-term amidation (OH NH2: -1 Da) 3 2012 AB SCIEX

Intact mab Analysis

Why Perform Intact Protein Analysis? Biological therapeutics are produced in cells. Cells can alter the glycosylation patterns and PTMs over time. Protein cleavage or truncation can also occur. Rapid method of global observation of changes to product from lot-to-lot. Intact protein analysis provides: Mass of complete protein product i.e. clipped or truncated? Glycosylation heterogeneity Drug-Antibody-Ratio of antibody-drug conjugates Reproducible, reliable, trustworthy data is the most important factor. DAR and Relative abundance of each glycoform must be determined reliably. 5 2012 AB SCIEX

Excellent Sensitivity for Antibody Analysis Intact Molecule Weight Determination Anti Actin IgG (Sigma) 10µg mab on column Expanded mass region to view heterogeneity +40 (~150kDa) +39 +38 5µg mab on column ~33.3 pmol 1µg mab on column ~6.6 pmol Note the Linear Response to the increasing mab Concentration: 1ug:50 counts, 5ug:250 counts, 10ug:500counts 6 2012 AB SCIEX

BioPharma View Deconvolution TOFMS Deconvoluted 7 2012 AB SCIEX

Qualitative and Quantitative Peptide Map Analyses

Why Perform Peptide Map Analysis? Biological therapeutics are produced in cells. Cells can alter sequence and PTMs in response to changing environmental conditions, through natural processes of change, or mistakes. It s important to determine critical quality attributes: properties that are necessary for safety and efficacy of the drug, and to track these attributes through scale-up, purification, and formulation changes. Peptide mapping analysis provides: Product sequence Post-Translational Modifications Glycosylation Heterogeneity Low-Level Sequence Variants. Adding simultaneous quantitation of each peptide from a protein product and its modified forms gives you an additional dimension of information: allows you to quantitatively monitor changes over time. 9 2012 AB SCIEX

Quant-Qual Peptide Mapping MS XIC of All peptides ID OF ALL PEPTIDES and MODIFIED PEPTIDES TripleTOF 5600+ IDA RUN MS XIC of ALL Batch Comparison Sample A Sample B 10 2012 AB SCIEX

Peptide Mapping Experimental details Denaturation > Reduction > Alkylation > Trypsin digestion TripleTOF 5600 system with the Turbo V Source. UHPLC system Injection: 1 ug on column TripleTOF 5600+ TripleTOF Parameters: One 0.25 second TOF-MS scan 20 0.05 second MS/MS scans Total Cycle Time 1.3 seconds. Time Solvent A Solvent B 0 95 5 5 95 5 45 65 35 50 10 90 57 10 90 60 95 5 75 95 5 11 2012 AB SCIEX

Sample Acquisition on TripleTOF System Antibody Digest: 45 min chromatography, 20 x 50msec msms/second 2 ul injection (1.0 ug total) Full scan MS TIC blue MS/MS TIC pink MS/MS spectra 12 2012 AB SCIEX

Sample Acquisition on TripleTOF System Antibody Digest: 45 min chromatography, 20 x 50msec msms/second Selected Start Mass/Charge: 934.7181 Da Selected End Mass/Charge: 947.1810 Da Selected Points:27791 to 29139 Min. Intensity: 202.00 Max. Intensity: 8.410e5 Sum Intensity: 1.152e7 Sum Intensity Above 50%: 1.007e6 2 ul injection (1.0 ug total) Full scan MS TIC blue MS/MS TIC pink Peak Mass/Charge: 941.5178 Da Peak Width at 50%: 0.0187 Da Points Across Peak at 50%: 4 Peak Width at Base: 0.0780 Da Points Across Peak at Base: 18 Peak Area: 17515.14 Resolution: 36,023 MS/MS spectra 23,591 Resolution 36,661 Resolution 36,225 Resolution 36,844 Resolution 13 2012 AB SCIEX

ProteinPilot Software Version 4.5 (Beta) Smart data processing for protein characterization Automatic extensive identification with the Paragon search algorithm Search for Hundreds of Biological Modifications All Sequence Variants Unexpected Cleavages Without the Large Number of False Positives from Error Tolerant Searching 14 2012 AB SCIEX

The Problem with Trying to ID More Variations Sequence Database Match Approach (Mascot, Sequest, etc) MH+1 956.4684 How Many Peptides in Database within 10 ppm of 956.4684 ~20 Score each based on MSMS ions in Spectrum vs 20x Theoretical PEPTIDER Good at ID of peptides In database. Adding mods and amino acid substitutions increases size of database. Error Tolerant Search to find more Mods 15 2012 AB SCIEX

The Problem with Error Tolerant Searching How to Avoid the Combinatorial Explosion? (SIGNAL) (NOISE) New right answers increasing search space New wrong answers increasing search space Variations allowed Variations allowed As search space increases, additional right answers become harder to find while the cost in incorrect peptide hypotheses considered explodes. The signal to noise drops rapidly as we consider more variations. How can we change this situation? 16 2012 AB SCIEX

Limited de novo Sequencing Generate Taglets The Paragon Algorithm is a tag based database search algorithm. A large number of short sequence tags Taglets are called for an MS/MS spectrum. They are rated with a chance the Taglet is correct. S L L L L D S L G D 17 2012 AB SCIEX

Varying Search Space on a Continuum Taglets for Sequence Temperature Value (STV) 18 2012 AB SCIEX

The Paragon Algorithm Key Idea Database sequence regions with: hotter STV searched more extensively cooler STV are searched less extensively Assumption: it is worth more effort to find a MW match for sequence regions with more tag evidence indicating the right answer may be found there. Thus, allow more mods, soften digestion rules and allow bigger MW deltas as STV increases. Mol. Cell. Proteomics, 6:1638-1655, (2007) 19 2012 AB SCIEX

Protein Pilot Search Results: Antibody Digest Color Peptide Confidence Gray No match Red > 0 and < 50 Yellow >= 50 and < 95 Green >= 95 20 2012 AB SCIEX

Quant-Qual Peptide Mapping MS XIC of All peptides ID OF ALL PEPTIDES and MODIFIED PEPTIDES TripleTOF 5600+ IDA RUN MS XIC of ALL Batch Comparison Lot 1 Lot 2 21 2012 AB SCIEX

Peptide Mapping TripleTOF 5600 System High Speed MS/MS Acquisition TIC XIC 22 2012 AB SCIEX

Zoom in TIC & XIC windows MS XIC data gives higher specificity vs. TIC (similar to UV trace) TIC XIC 23 2012 AB SCIEX

Peptide modification Deamidation HT07 vs. Deamidated HT07 Unmodified Pept (large peak) HT07 0.3 min Modified Small Pept Deamidated HT07 HT07, +3 Precursor Ion HT07 MS/MS HT07 y11 +2 ion 1 Da Shift Dea-HT07, +3 Precursor Ion Dea-HT07 MS/MS 1 Da Shift Dea-HT07 y11 +2 ion 24 2012 AB SCIEX

Relative quantitation of individual peptides Automatable Reports. Quant + Qual = Fingerprint of the current state of your biologic product. 25 2012 AB SCIEX

Recap: Advanced Characterization Peptide Mapping & Quantitation Workflow 1. Data Acquisition 2. Peptide Mapping 3. MS Peak Extraction, Relative Quant of all Peptides, and Report Generation TOF MS and MS/MS acquired at high speed TripleTOF 5600 System Datafiles Protein Database Search Results Obtained XIC peak integration across samples Automated Peptide Map Quantitative Report 26 2012 AB SCIEX

Batch Comparison: Scale-Up/Process Development/Formulation Studies can be Automated Data Acquisition TOF MS and MS/MS acquired at high speed BioPharmaBeta 2 is the latest preview release of our powerful new solution for automation of core biologics development workflows 27 2012 AB SCIEX

Characterize Standard for Peptide Mapping workflow 1. Load the file 2. Process 3. Review results 28 2012 AB SCIEX

BioPharma Beta 2 Quant Peptide Map Quantitative Batch Comparison TIC & XIC Matched peptide list MS MS/MS 29 2012 AB SCIEX

MSMS of All with SWATH Data-Independent Analysis for Host Cell Protein Detection

Why Perform Host cell Protein (HCP) analysis? Biological therapeutics are produced in cells. Any of the cell s proteins that copurify with the drug may provoke an immunogenic response in the patient. The current standard is an ELISA assay to detect HCPs. Polyclonal serum is raised against the host cell proteome. Usually in Rabbit. The ELISA only works if both Rabbit and Human react to the antigen: If Rabbit does not produce an immunogenic response but Human does: A deadly and costly problem could result. Mass spectrometry is being adopted as the new standard of unbiased HCP assessment. 31 2012 AB SCIEX

MS/MS ALL with SWATH Acquisition What is it? MS/MS ALL A data-independent workflow enabled by TripleTOF system technology that acquires high resolution quantifiable MS/MS data for all detectable analytes in a complex sample, in a single run How does it work? SWATH Acquisition Uses wide isolation windows stepped across a mass range, collecting high resolution composite MS/MS spectra in a chromatographic time scale What does this enable? Data processing post-acquisition: generate fragment ion XICs at high resolution for quantitation with confirmation of identity Quantitation and confirmation of everything in the sample Digital record of everything in your sample Single method for acquiring all your data 32 2012 AB SCIEX

Targeted Quantitative Workflows Top Two Techniques MRM Workflow SWATH Acquisition High Res XICs 33 2012 AB SCIEX

Powerful MS System for Biologics Analysis Accurate-mass, high-resolution MS system for characterization and quantification of biologics High speed MS/MS acquisition for comprehensive identification and quantification for peptide mapping and SVA experiments Sequence-tag based searching in Protein Pilot can pinpoint sequence variants with high confidence in less time. SWATH Technology for Host Cell Protein Detection Easy transition from qualitative workflows to targeted quantitative workflows 34 2012 AB SCIEX

AB SCIEX Solutions in Biologics Preclinical Basic Research Development Clinical Development Commercialized Product Basic and Advanced Characterization Targeted Quantitation TripleTOF 5600+ TripleTOF 4600 LINAC Unifying link QTRAP 4500 QTRAP 6500 w/selexion TM Eksigent ekspert 425 System 35 2012 AB SCIEX

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