Biotherapeutics Drug Development
Transcript of Biotherapeutics Drug Development
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Biotherapeutics Drug Development
University of Connecticut Bioanalytical Chemistry Spring 2011
April 19, 2011
Susan Hurst, Ph.D.
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Outline
• Background
• Therapeutic Modalities
• Examples of Challenges for Biotherapeutics
• Bioanalytical Overview
• Summary
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What are Biotherapeutics
• The term Biotherapeutics usually refers to therapeutic materials produced using biological means, including recombinant DNA technologyDNA technology.
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Types of Biopharmaceutical “Modalities”
Antibody-Antibodies FC fusionRecombinant
Vaccines
Other engineered molecules
conjugates FC fusion proteinsprotein
PeptidesOligonucleotides
Antibody fragments
4Slide modified from Bonnie Rup
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Biotherapeutics (including vaccines) are predicted to compromise 50% of Top 100 products by 2014
Biotherapeutics Within Top 100 Products
Source: EvaluatePharma5Slide Courtesy of Arin Bose
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Advantages To Biotherapeutics
• Favorable attrition rate• Inherently highly specific for the target• Minimum risk for non-mechanism based toxicity
and safety issues• Can augment bodies normal growth factors• Can augment bodies normal growth factors,
hormones, and enzymes• Able to modulate protein/protein interactions
intractable to small molecules• Applicable in multiple therapeutic areas and for a
variety of targets
Slide Courtesy of Arin Bose6
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Background: How are biotherapeutics different?
Large-MoleculeTherapeutics
Small-MoleculePharmaceuticals
• Large molecule therapeutics treat diseases using biological matter, e.g., proteins, monoclonal antibodies, peptides, RNA, cells, vaccines etc
• Small molecule drugs are organic or metallic compounds which bind with proteins in the body, thereby altering their function and their role in disease
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vaccines, etc.• Size is ~150,000 Da• Typically grown and extracted from living cells
role in disease• Size is <600 Da• Typically made utilizing chemistry synthesis
• Work extra-cellularly• High specificity limits toxicities• Technology IP restrictions often resulting in
royalties to companies which have patented means of producing biologics
• Work intra-cellularly
• Less specificity
• Can inhibit multiple targets in family• Unspecific off-target toxicities
• Difficult to deliver (usually must be injected)• Difficult to affect targets inside the cell
• Generally expensive to manufacture
• Easier to deliver (often oral, e.g., aspirin, antibiotics)
• Generally cheap to manufacture (low COGS), and easy to replicate after patent expiration (the high cost is the initial development)
Slide Courtesy of Arin Bose
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Typical Biologics Manufacturing Process:Drug Substance
Slide Courtesy of Arin Bose8
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Recombinant Proteins
• First products (human insulin, growth hormone) approved in the early 80’s
• Initial products were recombinant versions of natural proteins; recent shift to altered forms as well as to highly engineered proteinshighly engineered proteins
• Very diverse set of products with dissimilar properties and modes of action
• Technologies vary from product to product though there are some aspects of a “platform”
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Monoclonal Antibodies
• Designed to bind very specifically to a target
• Can function via several different mechanisms of action– Bind to target and stimulate cell mediated immune response
– Block protein ligand binding to its receptor
IgG2 Monoclonal Antibody
Hinge region
Constant regions
Variable regionsLight chain
Heavy chain
CDR’sHypervariableregions
Antigen binding
Complimentactivation
Macrophagebinding
Carbohydrate side chain
IgG2 Monoclonal Antibody
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Monoclonal Antibodies
• Different sub-classes: IgG1, IgG2, IgG4
• Different frames: Murine, Chimeric, Humanized, Fully human
• Can be directed against a soluble or membrane bound target
• Mechanism include direct binding to the target or ADCC (Antibody Dependent• Mechanism include direct binding to the target or ADCC (Antibody Dependent Cellular Cytotoxicity: where antibodies coat target cells making them vulnerable to immune response)
• Can be either an antagonist or agonist
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Antibody Frames
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Antibody-Drug Conjugates (ADCs)
An antibody carrier attached to a payload via a linker
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• ADCs can be thought of as:– Prodrugs– Sophisticated delivery systems for Payload drug
delivery
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FC Fusion Proteins
Fusion proteins also called chimeric proteins are proteins created through the fusing of two or more genes which originally coded for separate
t i
14Ex. Enbrel: TNF receptor 2 fused to an Fc component of IgG1
proteins.
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Oligonucleotides?
• Are short nucleic acid polymers, typically with 50 or fewer bases• Each monomer is made up of a sugar, phosphate, and heterocyclic
base• Can be chemically synthesized
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Additional Challenges For Biotherapeutics
• Species specificity may limit standard preclinical models for safety testing
• Delivery options are currently limited (main routes are intravenous and subcutaneous)
• Target Mediated Disposition may lead to Nonlinearity
• Manufacturing is significantly more complex and a critical factor in safety and efficacy thus manufacturing changes have to be carefully assessed (Comparability).
• Products can lead to immunogenicity where the body mounts an immune response to the product. This is especially true for products that contain other species components (i.e. giving human protein to animals for safety studies).
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Examples of Special Biotherapeutics Considerations
• Nonlinearity
• Comparability• Comparability
• Immunogenicity
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Nonlinearity
102
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conc
(ug/
mL)
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10101010 101010
1010 10
50505050 5050 505050 50
Blue Single dose studyRed Repeated dose study
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Time post last dose (day)
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Antibody PK and PD: General Scheme
Ab Abplasma tissue
Renal filtration,catabolism
Catabolismwithin tissue
Convection,FcRnAb Ab
plasma tissue
Renal filtration,catabolism
Catabolismwithin tissue
Convection,FcRn
Lobo et. al. J. Pharmaceutical Sci. Vol 93. No. 11 pp 2645 - 2668
RAb-targetComplex
konkoffkon koff
Transduction(Response)
Catabolism ofcomplex
RAb-targetComplex
konkoffkon koff
Transduction(Response)
Catabolism ofcomplex
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Nonlinearity: Target Mediated Disposition
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10101010 101010
1010 10
50505050 5050 505050 50
Blue Single dose studyRed Repeated dose study
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0 5 10 15 20 25 30 35
Time post last dose (day)
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Comparability
Understanding potential changes in a product due to manufacturing changes
d th b t i t th
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and the subsequent impact on the product
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Comparability: Definition
• Comparable means “highly similar” not necessarily “identical”
• ICH Q5E– “The demonstration of comparability does not
necessarily mean that the quality attributes of the pre-y q y pchange and post-change products are identical; but that they are highly similar and that the existing knowledge is sufficiently predictive to ensure that any differences in quality attributes have no adverse impact upon safetyand efficacy of the drug product”.
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Potential changes to manufacturing process
1. Expression system– Master cell bank– Working cell bank
4. Formulation and filling– Excipient, liquid to
lyophilized or vice versa,equipment, change in manufacturing protocol, t th l it
Triggers for Comparability Studies
2. Fermentation/culture process
– Raw materials, cell culture conditions, scale, equipment, site change
3. Purification process– Column/resin, reagents,
scale, site, equipment
strength, scale, site change, shipping
5. Drug product– Batch definition, shelf-life,
container/closure, shipping, storage.
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Comparability: Hierarchical Process
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Analytical Comparability
A typical manufacturing comparability program will assess the major aspects of biotherapeutic production and testing:
• Characterization testing – cell bank and drug substance, as appropriate
• Release testing – drug substance and drug product, as appropriate
• Stability testing – drug substance and drug product, as appropriate
• In-Process testing – cell bank performance, bulk harvest and process parameters, as
appropriate
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In Vivo Testing (preclinical or Clinical)
The extent of in vivo testing needed as part of the comparability exercise depends upon the:
– Product risk assessment– Type of Manufacturing changes– Potential for the process change to impact product
characteristics– Stage of development when the change is introduced– Understanding of the relationship between critical
product quality attributes, and safety/efficacy, both pre-clinically and clinically
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Individual Plasma Drug X Concentrations Over Time in animals without immunogenicity
ratio
ns (n
g/m
L)
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Dru
g X
Con
cent
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Individual Plasma Drug X Concentrations Over Time in all animals
ratio
ns (n
g/m
L)
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Dru
g X
Con
cent
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Bioanalytical Concerns
• The variability of the PK assay should be considered when deciding the comparability acceptance criteria.
• The PK and immunogencity assays should be cross-validated using both the old and new material
– If a difference is noted analytically for the two materials this is considered a flag regarding potential comparability issues even if the material passed the Manufacturing analytical analysis.Reagent conjugation variability could add additional challenges for ADA bridge– Reagent conjugation variability could add additional challenges for ADA bridge assay formats
• The PK assay ideally should be set up for simultaneous analysis (i.e. both sets of material qualified against a common lot).
• All parameters should be considered to determine whether there is evidence of difference in immunogenicity
– e.g. incidence, time of onset, titers, transience
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Immunogenicity
• Biological therapeutics have the potential to elicit anti-drug antibodies (ADAs) and generate unwanted immunogenicity
– Non-neutralizing antibodies (NNab)– Neutralizing antibodies (Nab)
• In preclinical studies, ADA can affect drug exposure, affecting the interpretation of the toxicity, pharmacokinetic and pharmacodynamic data
• Potential to induce ADAs is a safety issue that is an important consideration in
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Potential to induce ADAs is a safety issue that is an important consideration in the development of biologics and a critical aspect of regulatory filing
• Immunogenicity testing is a key component in the demonstration of clinical safety and efficacy
• Areas of concern for Nab– Safety
• Cross react with endogenous protein to induce adverse affects– Efficacy
• Effect bioavailability, alter PK/PD (increased or decreased rate of clearance)• Neutralize biological effects and compromise further therapy
Slide Courtesy of Corinna Krinos-Fiorotti
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Bioanalytical Overview
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Bioanalytical Overview
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Basic ELISA: Drug Assay
B B B
Biotin Conjugated Anti-human IgG
Signal Detection
Drug std or sample
Target Anti-drug antibody
Drug
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Basic Sandwich Anti-Drug Antibody Assay
Signal Detection
B BBiotin Conjugated Drug
Anti-drug antibody
Drug
Drug
Anti-Drug Antibody (control or sample)
Biotin Conjugated Drug
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Neutralizing Antibody Assays
34Slide Courtesy of Corinna Krinos-Fiorotti
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Protein Quantification by Mass Spectrometry
Biotherapeutic(Plasma, Urine etc.)
Medium Sensitivity
“T i ”
Low Sensitivity
Direct
High Sensitivity
ImmunoaffinitySi l S l P“Trapping”
• Digestion
• Dilution
• On-line SPE
• Protein precipitation (ACN)
• Digestion
• Off-line SPE
• Dry down
• Injection
• Simple Sample Prep
• Affinity Enrichment
• Digestion before or after enrichment
• On-line SPE
• 1 Step– LC/MS/MS
2 StepTrap Enrichment
Pre-concentrationLC/MS/MS
3 StepAffinity EnrichmentTrap EnrichmentLC/MS/MS
Slide Courtesy of Dawn R. DufieldSPE – solid phase extraction
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Comparison of Analytical Assays for Protein Quantitation
ELISA’s• Pros
– Sensitivity (pg/mL)– High Throughput– Automated– Often commercial kits are
available
Mass Spectrometric Methods• Pros
– Comparable sensitivity (pg/mL – ug/mL)
– Increased specificity – Large dynamic range
Ability to measure
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available
• Cons– Limited dynamic range– Matrix Effects– Not suitable for metabolic
studies– Susceptible to cross-
reactivity– Long development for
multiple Ab’s - mAb
– Ability to measure metabolites and degradation products
• Cons– Need Internal standard– Lower Throughput– Cost of Instrumentation– MW Limitation – need
digestion
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Comparison of Analytical Assays for Protein Quantitation
Ezan et al Bioanalysis, 2009, 1(8), 1375-1388
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When to use LC/MS/MS
– First Choice• Peptides• Oligonucleotides in tissues• Early discovery (when no reagents are available)• Antibody drug conjugates (ex. tracking the loss of the payload)
– LC/MS/MS as a compliment to ligand binding assays (ex. ELISA)• When there are issues with unresolved interference.• Characterization – to understand what the ligand binding assay is
measuring
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Summary
• Biotherapeutics are becoming an increasingly important part of drug development
• There are multiple types of biotherapeutics each with their own distinct characteristics and drug development challenges
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• Biotherapeutics have unique challenges for drug development when compared to small molecules including (but not limited to) target mediated disposition, comparability, and immunogenicity
• A key factor for biotherapeutics is the development of fit for purpose bioanalytical assays with the appropriate validations.