CDMO Selection for Bispecific Antibody Development: A Case ...
Transcript of CDMO Selection for Bispecific Antibody Development: A Case ...
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CDMO Selection for Bispecific Antibody Development: A Case Study Matching Capabilities to Need
Tracy Kinjerski and Steven Chamow, Ph.D.
Chamow & Associates, Inc. San Mateo, CA USA
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Overview
• The Challenge• Client company/project
• Target product profile
• How to use a consultant in this process
• The Match
• Considerations for candidate CDMOs
• Scope of Work
• Development
• GMP production
• Timing of pre-IND meeting, IND
• Summary
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Pre-reads
1. Judy Meyers, How to Find the Right CDMO Partner in Pharma, Pharma
Manufacturing, Oct, 2019
2. Stephen Closs, Quality by Design: Working With Your Contract
Manufacturer, Chemistry Today 32, 10-13 (2014)
3. David Wilkerson, Outsourcing in Pharma and Biotech: Shifting to Contract
Manufacturing and Development, Zymewire blog, 4 Mar 2020
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The Challenge
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The Client
• Small, venture-funded Bay Area biotechnology company
• Internal capabilities
• POC research laboratory
• No CMC development infrastructure
• Monoclonal antibody discovery platform
• Oncology focus
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The Project
• Client company sought to develop pre-clinical mAb• Product
– Humanized IgG1, not a bispecific
• Hired external consulting group to execute CMC– Identify, evaluate, select and manage CDMO
– Develop pre-IND strategy
– Write CMC module of IND
• Starting point– In silico amino acid sequence
– Target product profile
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Target Product Profile (TPP)
• “Needs checklist”
• Defines product characteristics
• Product description
• Indications and usage
• Dosage and administration
• Dosage forms and strengths
• How supplied and handling
• Provided client with a roadmap to guide product development
• Anticipated dose and clinical indications → amount needed for clinical studies → scale of production
• Route of administration → type of formulation
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Preclinical TPP
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Characteristic Detail
Product Information
Product name
Molecular description Humanized IgG1/k
Biological activity
Proposed mechanism of action
Structural requirements
DS Stability 24 mo -20 deg C
Dosage Form Buffered liquid solution
DP Stability 36 mo 2-8 deg C
Route of Administration Intravenous
Dosage Strength 10 mg/kg
Pharmacokinetics
Container and Closure System
Glass vial
Production DS
CDMO
Cell line CHO
Target productivity at harvest
3 g/L
Production scale (L) 2000L
Estimated overall yield (%)
80%
Batch size (kg) 4.8 kg
Production DP
CDMO
Estimated yield (%)
Batch size (# vials)
Forecast (projected
demand for Ph3 clinical
trials, launch and first 5 years on market)
Labeling and Clinical Packaging
Vendor
• Clinical indication – oncology
Scale of production – 1000 or 2000 L
• Route of administration – infusion
10 mg/mL liquid solution
2-8 deg C storage
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The Match
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Use of CMC Consultants to Select and Manage CDMOs
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Seeks GMP product for
clinical testing
Sponsor (Client)
Provides technical,
quality and regulatory expertise; manages
CDMOs for sponsor
CMC Consultant
Performs production services:
Cell line/ process
design; GMP production
CDMOs
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We Evaluated CDMOs with Different Capabilities and Expertise
• Expertise varies
• Monoclonal antibodies
• Bispecifics
• Enzymes
• Cytokines
• Growth factors
• Fusion proteins (Fc, albumin)
• ADCs
• Capabilities vary (e.g., one-stop shop or not)
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Factors in Matching Client to CDMO• Phase of development
• Phase 1/IND vs. Phase 3/commercial
• Priorities
• Quality
• Cost
• Time
– Considered that cost and time are trade-offs
• Cell line
• Productivity
• Terms of access
– Proprietary vs. non-proprietary
– Wanted a CDMO with proprietary technology
• Cell line development experience and success
– Not all CDMOs are equally good at making cell lines (stability, productivity, etc..)
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Factors (cont’d.)
• One-stop shop or different CDMOs
• Process development
• Formulation development– This formulation was straightforward
• Analytical methods/Stability
• MCB—production/characterization
• cGMP – DS
– DP
• Other considerations– Capacity for manufacture
– Scale up and scale of manufacture
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Project Stages and Timeline
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Plasmid
Construction,
Cell Line,
Process and
Formulation
Development
MCB
Manufacture
and GMP
Clinical
Production
Drug
Substance
Pilot
Production for
GLP Tox
Studies
Product
Discovery
Client
CDMO 1
(12-16 mo to DS)
CDMO 2
(2-3 mo to DP)
GMP Clinical
Production
Drug Product
Clinical
Packaging,
Labeling and
Distribution
CDMO 3
(1-2 mo)
Overall duration from delivery of amino acid sequence
to clinical trial material: 15-21 month
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Scope of Work
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The Starting Point…
mAb γ1 Heavy Chain
Amino Acid Sequence
MAVLGLLFCLVTFPSCVLSQVQLKESGPGLVAPSQSLSITCTVSGFSLTDYGVRWIRQPPGKGLEWLGVIWGGGSTYYNSALKSRLSISKDNSKSQVFLKMNSLQTDDTAMYYCAKEKRRGYYYAMDYWGQGTSVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKAEPKSCDKTHTCPPCPAPELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGKTS
cDNA Sequence
ATG GCT GTC TTA GGG CTA CTC TTC TGC CTG GTG ACG TTC CCA AGC TGT GTC CTG TCC CAG GTG CAG CTG AAG GAG TCA GGA CCT GGC CTG GTG GCG CCCTCA CAG AGC CTG TCC ATC ACA TGC ACT GTC TCA GGG TTC TCA TTA ACC GAC TAT GGT GTA AGG TGG ATT CGC CAG CCT CCA GGA AAG GGT CTG GAG TGG CTGGGA GTA ATA TGG GGT GGT GGA AGC ACA TAC TAT AAT TCA GCT CTC AAA TCC AGA CTG AGC ATC AGC AAG GAC AAC TCC AAG AGC CAA GTT TTC TTA AAA ATGAAC AGT CTG CAA ACT GAT GAC ACA GCC ATG TAC TAC TGT GCC AAA GAG AAA CGG AGG GGG TAT TAC TAT GCT ATG GAC TAC TGG GGT CAA GGA ACC TCA GTCACC GTC TCC TCA GCT AGC ACC AAG GGC CCA TCG GTC TTC CCC CTG GCA CCC TCC TCC AAG AGC ACC TCT GGG GGC ACA GCG GCC CTG GGC TGC CTG GTCAAG GAC TAC TTC CCC GAA CCG GTG ACG GTG TCG TGG AAC TCA GGC GCC CTG ACC AGC GGC GTG CAC ACC TTC CCG GCT GTC CTA CAG TCC TCA GGA CTCTAC TCC CTC AGC AGC GTG GTG ACC GTG CCC TCC AGC AGC TTG GGC ACC CAG ACC TAC ATC TGC AAC GTG AAT CAC AAG CCC AGC AAC ACC AAG GTG GACAAG AAA GCA GAG CCC AAA TCT TGT GAC AAA ACT CAC ACA TGC CCA CCG TGC CCA GCA CCT GAA CTC CTG GGG GGA CCG TCA GTC TTC CTC TTC CCC CCA AAACCC AAG GAC ACC CTC ATG ATC TCC CGG ACC CCT GAG GTC ACA TGC GTG GTG GTG GAC GTG AGC CAC GAA GAC CCT GAG GTC AAG TTC AAC TGG TAC GTGGAC GGC GTG GAG GTG CAT AAT GCC AAG ACA AAG CCG CGG GAG GAG CAG TAC AAC AGC ACG TAC CGG GTG GTC AGC GTC CTC ACC GTC CTG CAC CAG GACTGG CTG AAT GGC AAG GAG TAC AAG TGC AAG GTC TCC AAC AAA GCC CTC CCA GCC CCC ATC GAG AAA ACC ATC TCC AAA GCC AAA GGG CAG CCC CGA GAACCA CAG GTG TAC ACC CTG CCC CCA TCC CGG GAT GAG CTG ACC AAG AAC CAG GTC AGC CTG ACC TGC CTG GTC AAA GGC TTC TAT CCC AGC GAC ATC GCCGTG GAG TGG GAG AGC AAT GGG CAG CCG GAG AAC AAC TAC AAG ACC ACG CCT CCC GTG CTG GAC TCC GAC GGC TCC TTC TTC CTC TAC AGC AAG CTC ACCGTG GAC AAG AGC AGG TGG CAG CAG GGG AAC GTC TTC TCA TGC TCC GTG ATG CAT GAG GCT CTG CAC AAC CAC TAC ACG CAG AAG AGC CTC TCC CTG TCTCCG GGT AAA ACT AGT TGA
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Synthesizing cDNA from an amino acid sequence
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…To the Goal
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Producing bulk drug substance and filled and labelled drug product
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Scope of WorkDevelopment
• Cell Line
• cDNA synthesis and plasmid construction
• Cell line
– RCB
– MCB
• Process
• Upstream
• Downstream
• Formulation
• Analytical
• Compendial
• Product-specific
– Platform methods
– Potency
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Scope of Work (cont’d.)Scale Up and Clinical Production
• Tox production• Reference material
• Preliminary DP stability
• Characterization of reference material
• GMP production of DS• Viral clearance study
• ICH Stability
• GMP production of DP• ICH Stability
• Clinical labeling, packaging and distribution
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Cell line and Process Development
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Elements of the Process
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First Consideration: Cell Line/Expression System
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Type of cell
line
Expected
productivityTimeline*
Cell line
stabilityCost components
Fee for
service
Milestone
paymentsRoyalty
Proprietary
(requires
license)
3-7 g/L, may
require
proprietary
media
3-6 mo aa
sequence to
RCB
60-generation
confirmation
may not be
critical path task
Yes Yes Few
Non-proprietary
(public domain)
1-3 g/L,
generally with
commercial
media
6-9 mo, aa
sequence to
RCB
60-generation
confirmation of
stability is critical
path task
Yes No No
*Includes 1 mo for DNA codon optimization, synthesis + 1 mo for plasmid construction
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Special Considerations for Bispecifics
• Vector design
• Single vs. multiple plasmid system
– Assembly of the oligomer may vary with differential expression of monomer chains
– Chain ratio may need to be optimized
– Multiple plasmids provide greatest flexibility
• Structure and stability
• Implications for use of a platform process
• Stability at extremes of pH
– Acid stability required for capture on Protein A, low pH hold
for virus inactivation
• Purification complexities
– Product variants as impurities
– Removal of variants will define final polishing chromatography
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We went with Chinese Hamster Ovary Cells/Proprietary Expression System
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Maximizing Productivity of Cell Culture Process
• Titer (mg/L) is determined by accumulated cell mass x cell specific productivity
Titer = qp•∫xdt
• A good process…
• Starts with a highly productive cell line
• And a cell culture process that produces high accumulated cell mass
– Time in production phase with high cell viability
– Timing and composition of feeds
▪ Provide just-in-time nutrients and minimize waste products
– Rate of agitation, oxygenation (sparging)
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Where
qp = cell specific productivity
∫xdt = cell mass
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Cell Culture Process Design
• Fed-batch
• Perfusion
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Process Development Runs—Product Titer
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• 2L confirmation
batches (3)
• 100L pilot batch (tox)
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GMP Production
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Summarizing the Scale Up
• Confirmation runs at 2 L bench scale
• Performed with RCB
• Confirmed performance of complete process
• Tox production at 100 L pilot scale
• Performed with MCB
• Pilot scale process reflects GMP process
– Generates reference material
– Preliminary DS, DP stability to support GMP stability
• GMP production at 2000 L
• Performed with MCB
• Samples taken for
– Virus clearance study
– DS, DP stability
• Assay methods qualified
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Confirmation Runs vs. Tox Batch – VCD
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0
25
50
75
100
125
150
175
200
0 1 2 3 4 5 6 7 8 9 10 11 12
Via
ble
Ce
ll C
on
c. *1
0^
5 [
mL
-1]
Time [d]
TOX BR1 BR2 BR3
Comparable growth
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Confirmation Runs vs. Tox Batch – Viability
31
0
20
40
60
80
100
0 1 2 3 4 5 6 7 8 9 10 11 12
Via
bilit
y [
%]
Time [d]
TOX BR1 BR2 BR3
Final viability is ~80%
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Confirmation Runs vs. Tox Batch – Titer
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0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
0 1 2 3 4 5 6 7 8 9 10 11 12
Pro
du
ct
Ce
ll C
on
c. [m
g*L
-1]
Time [d]
TOX BR1 BR2 BR3
3.9 g/L on Day 12
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Summary of Process - mAb Bulk Drug Substance (DS)
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Fed-batch production
Multiple cycles per harvest
Cell Bank Vial
Seed Train
Expansion Train
Production Bioreactor
Harvest by Centrifuge/Filtration
Protein AChromatography
Anion-exchangeChromatography
Cation-exchangeChromatography
UF/DF
Virus Filtration 70-80% overall product
yield
Compounding
Frozen bulk DS
Low pH hold
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Summary of Process - mAb Drug Product (DP)
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Frozen bulk DS was thawed
Filtered
Filled into vials
Labeled and Packaged
Liquid DP filled into
glass vials
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Formulation Development and Drug Product Stability Studies
• Developed a stable formulation for storage of DS (-20ºC)
• Developed a stable formulation for DP (2-8ºC)
• Evaluated
– pH
– Excipients
• Formulation selected based on 3-month stability data
• Goals
– Liquid DP formulation (10 mg/mL) for intravenous administration
– Stable DP product for >24 months at 2-8ºC storage
– DP is compatible with container/closure system and in-use
compatibility (if DP to be diluted in IV bag)
• Key stability-indicating assays
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When Did We Time Interactions with FDA?
Pre-IND meeting--
asked CMC and tox
questions; preliminary
DS, DP stability
Filed IND (1 mo
GMP DP stability)
Initiated cell line
development
Plasmid
Construction,
Cell Line,
Process and
Formulation
Development
MCB
Manufacture
and GMP
Clinical
Production
Drug
Substance
Pilot
Production for
GLP Tox
Studies
Product
Discovery
GMP Clinical
Production
Drug Product
Clinical
Packaging,
Labeling and
Distribution
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Summary
• If you are a scientist at a company wishing to develop a new biologic for
clinical testing, plan on outsourcing manufacturing to a competent CDMO
• A CDMO can design a production process and can provide high quality
product to meet regulatory requirements in sufficient quantity
• CDMO’s have particular expertise, and capabilities should be evaluated
carefully
• Plan on 1-2 years to develop a cell line and process and manufacture tox and
clinical product
• Plan your interactions with FDA around the uniqueness of your product
• You may want to seek a CMC consultant to assist in this effort
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Questions
Steven Chamow, PhD
(650) 274-3753
www.chamowassociates.com
Tracy Kinjerski
(714) 600-3904
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Current mAb development timelineState-of-the-art technology applied to achieve 12 mo
39 From Kelley, Nature Biotechnol. 38, 540-545 (2020)
IND
1 2 3 4 5 6 7 8 9 10 11 12
VectorsTransfect
Select
Pool
screen
Clone
screen
Cell line
stabilityMCB testing
Tox studies and readout
Pooled
MaterialProcess, formulation, analytical development cGMP DS/testing cGMP DP/testing
DP
stability
Tox
material
Months
Viral clearance
Critical path to IND
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Acceleration during COVID-19How are programs moving faster than 12 mo?
• Adopt latest technological advances
• Highly productive cell lines
• Large bioreactors using single-use technology
– Enables production of thousands of doses from single batch of >5 kg
• Focus on platform approach
• Human IgG1 expressed in CHO cells
– Safety and quality risks are low
– >50 have been commercialized
– Substantial platform knowledge, cGMP production experience and facilities
• Accept higher business risk
• Consider caveats, but…with no increased risk to patients in first clinical trials (risk/benefit)
• Why not after a pandemic?
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Faster CMC development timeline for pandemicPotential reduction from 12 mo to 6 mo
41
Use targeted integration/high productivityhost
Large volume transient material supply
No pool screening
No cell line stability for cloneselection
Platform check (minimal PD/form/AD)
Pool of cells or clones used for toxicology studies
Abbreviated tox studies off criticalpath
Master cell bank into cGMP production w/o testing
DS, DP conditional release
Modular viral clearance—nostudies
No DP stability for IND
Rolling submission (tox, release, stability)
Testing completed before first patientdosed
Traditional
Accelerated
Critical path
Release and stability data prior todosing
From Kelley, Nature Biotechnol. 38, 540-545 (2020)
CTAP
submission
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What’s new here?
• Integration of innovative CMC methods with focus on speed
• Targeted integration
• Single round of cloning with imaging
• Ambr15
• Development supply run from large scale transient culture
• Tox production from cell pool
• No RCB--growth of production cell line concurrent with MCB manufacture
• Abbreviated tox studies
• Accepting higher business risk