Cambridge Healthtech Institute’s Eighth Annual
Applying Expression Platforms

Meeting the Demand for Recombinant Proteins

4-5 November 2015

Biopharmaceuticals represent the fastest‐growing sector of the pharmaceutical industry, driven by the rapidly expanding manufacture of recombinant protein‐based drugs. Key properties of individual expression systems and characteristics of the targeted recombinant protein affect the quality and quantity of production. Thus, early steps in the development of a functionally active protein often require multiple iterations to optimise expression, production and purification.

The Applying Expression Platforms conference addresses the strategies required in the transition from producing recombinant proteins for the laboratory to preparing for clinical production.

Final Agenda

Day 1 | Day 2 | Speaker Biographies | Download Brochure  

Wednesday, 4 November

07:45 Registration and Morning Coffee

CELL LINE DEVELOPMENT

08:30 Chairperson’s Opening Remarks

Zhiwei Song, Ph.D., Principal Scientist, Lead PI for GlycoSing Programme, Bioprocessing Technology Institute, A*STAR

09:20 Boosting Antibody Cell Line Performance without Compromising the Desired Glycan Composition

Volker Sandig, M.D., Ph.D., CSO, ProBioGen

An optimal and consistent glycan pattern is desired for novel antibodies while reproduction of the original pattern is critical for biosimilar development. When selecting the final clone, posttranslational modifications may get in conflict with process performance and maximal titer. An advanced flexible vector platform and control of complex N-Glycans (including fucosylation, galactosylation and sialylation) with heterologous enzymes, glycan precursors and microelements support the perfect choice for each antibody.

09:50 A Quick and Efficient Method to Generate Mammalian Stable Cell Lines Based on a Novel Inducible Alphavirus DNA/RNA Layered System

Alejandro Aranda, Ph.D., Principal Investigator, Vectors Development Lab, END-ICAP Unit, INSERM, University of Versailles – Saint Quentin en Yvelines

We report a new method to generate high-expressing mammalian cell lines in a quick and efficient way. For that purpose, we developed a master cell line (MCL) containing an inducible alphavirus vector expressing GFP integrated into the genome. New cell lines can be generated based on MCL by recombinase mediated cassette exchange, leading to quick generation of inducible cell lines expressing proteins of therapeutic interest.

10:20 Platform Expression Systems for Rapid Development of Microbial & Mammalian Cell Lines for Biopharmaceutical Production

Ian Hodgson, Ph.D., BSc, Head, Molecular Biology, FUJIFILM Diosynth Biotechnologies

The process development of biopharmaceuticals demands concise timelines (to get products into clinic quickly), high product titres (with correct product quality), coupled with the ability to use the same expression system throughout the product life cycle. We have developed platform approaches to cell line development for both bacterial and mammalian expression, which combine all of these attributes. We will describe the development of these systems, and show data that demonstrates their performance.

10:50 Coffee Break in the Exhibit Hall with Poster Viewing

11:30 Expression and Cell Line Development of Complex and Fc-Modified Therapeutic Antibodies

Johannes Auer, Ph.D., Principal Scientist, Large Molecule Research, Roche Pharma Research & Development, Roche Innovation Center Penzberg

The process of generating complex therapeutic antibodies from first test expressions until the selection of cell clones for the primary seed bank will be described. Exemplified insights will be presented into how we determine individual characteristics of a given molecule, how we balance quantity and quality of the product and how we deal with proof of monoclonality of cell clones and their stable productivity for clinical supply.

12:00 Generation of Tagged Mammalian Cell Lines with an Improved Recombinase Exchangeable Cassette

Johannes Spehr, Ph.D., Research Scientist, Recombinant Protein Expression, Helmholtz Centre for Infection Research

Recombinase mediated cassette exchange (RMCE) is a fast and reliable technique to stably integrate a gene-of-interest into a well-characterized master cell line. By using the trifunctional selective marker Hygromycinephosphotransferase-Thymidinkinase-eGFP (HTG) we improved and accelerated the generation of new producer cell lines for high expression. The HTG combines positive selection for Hygromycin and eGFP during master cell line generation with negative selection on Ganciclovir during cassette exchange.

12:30 Rapid Production of Recombinant Proteins and Stable Cell Lines

Peer Heine, Ph.D., Field Application Scientist, MaxCyte, Inc.

Success means getting to market fast. Therefore, fast and efficient protein production for drug candidate development, characterization, and selection is critical. Creating a stable cell line for clinic trial, takes months to more than a year for complicated proteins. High efficiency, scalable electroporation can reduce stable cell line development timelines by up to 50%, even in difficult-to-transfect cell lines. In this presentation, data will show the rapid production of proteins and cell lines at different scales.

13:00 Enjoy Lunch on Your Own

13:30 Session Break

CONSTRUCTING HIGH PRODUCERS THROUGH GENOME ENGINEERING

14:00 Chairperson’s Remarks

Cecília Calado, Ph.D., Professor, Chemical Engineering Department, ISEL-Instituto Superior de Engenharia de Lisboa, Instituto Politécnico de Lisboa

14:05 Sequencing the CHO DXB11 Genome Reveals Regional Variations in Genomic Stability and Haploidy

Christian Schrøder Kaas, Research Scientist, Mammalian Cell Technology, Novo Nordisk A/S

The copy number from each gene in the genome was calculated from next-generation sequencing data and revealed an unexpected degree of haploidy in Chinese Hamster Ovary (CHO) cells. The data can further be mined to reveal areas of the genome shown to be stable, such as chromosomes one and four, which can be hypothesised to host favourable landing platforms for targeted integration of transgenes encoding coagulation factors or antibodies.

14:35 Tunable Gene Expression Control of the RiboTite System

Neil Dixon, Ph.D., MRSC, BBSRC David Phillips Research Fellow, Manchester Institute of Biotechnology, Faculty of Life Sciences, University of Manchester

Here we report the development and application a novel recombinant E. coli expression system that operates at translational level. The RiboTite system has been benchmarked against classical gene expression control mechanisms for the production of various reporter and target proteins of clinical importance. The system permits tunable cellular level regulation, tight basal control, high levels of expression upon induction, and predictable specific production rates across a range of growth temperatures.

15:05 Minimally Invasive Host Cell Design and Growth Decoupled Protein Production - New Concepts to Further Advance E. coli Expression Systems

Gerald Striedner, Ph.D., Assistant Professor, Biotechnology, University of Natural Resources and Life Sciences

Our E. coli expression system design is strongly focused on making them fit for production conditions. One strategy to improve fitness and performance of production cells is the reduction of the recombinant infrastructure to essential compounds to minimise metabolic load and cell response to recombinant gene expression. An alternative concept is based on decoupling cell growth and product formation to allocate cells’ full protein synthesis capacity to recombinant protein production.

15:35 Refreshment Break in the Exhibit Hall with Poster Viewing

CONSTRUCTING HIGH PRODUCERS THROUGH BIOPROCESS

16:15 Cell Line Development and Early Bioprocessing: An Integrated Data Management Solution to Select the Right Clone

Claudia Götzberger-Schad, Ph.D., Senior Scientist, Global Biologics, Bayer Pharma AG

We present an integrated data management platform supporting the clone selection in the Cell Line Development (CLD) process. The system tracks all clones screened in high-throughput mode, collects all relevant characterisation data, such as productivity and quality parameters, and streamlines high-throughput workflows by interfacing with automation equipment and bioreactors at different scales. A special focus of the presentation will be on fermentation in small-scale bioreactors to assess quality and to guide clone selection and upscaling campaigns.

16:45 In situ Near-Infrared versus High-Throughput Mid-Infrared Spectroscopy to Monitor Biopharmaceuticals Production

Cecília Calado, Ph.D., Professor, Chemical Engineering Department, ISEL-Instituto Superior de Engenharia de Lisboa, Instituto Politécnico de Lisboa

Global regulatory agencies impose stringent quality guidelines concerning biopharmaceutical production that have been changing to meet the Quality by Design (QbD) framework. Highly sensitive analytical techniques, as the ones based on Fourier Transformed Infra-Red (FTIR) spectroscopy enabling simultaneous characterisation of heterologous product synthesis and physiologic cell behavior, are therefore desirable. We compare in situ near-FTIR versus high-throughput Mid-FTIR spectroscopy concerning monitoring of critical process variables and general cell physiology.

18:15 Networking Reception in the Exhibit Hall with Poster Viewing

19:15 End of Day

Day 1 | Day 2 | Speaker Biographies | Download Brochure  

Thursday, 5 November

08:00 Morning Coffee

CASE STUDIES: UPSTREAM DECISIONS LEAD TO DOWNSTREAM SUCCESSES

08:30 Chairperson’s Remarks

Georg Klima, Executive Director, Process Science Austria, Biopharmaceuticals Division, Boehringer Ingelheim RCV

FEATURED PRESENTATION

08:35 From Bench to Clinic – Fast Track Process Development for Novel Biotherapeutics in Microbial Expression Systems

Georg Klima, Executive Director, Process Science Austria, Biopharmaceuticals Division, Boehringer Ingelheim RCV

Novel biotherapeutic formats pose unique development challenges as established platform processes are rarely applicable. To achieve rapid assessment of novel constructs’ safety in nonclinical and clinical testing, alternative process development strategies are required. A versatile toolbox approach utilising E. coli and Pichia pastoris expression systems and automated high-throughput process development will be presented. Further, we highlight a systematic approach for robust scale-up and transfer from bench to clinical scale manufacturing. September 2015 Speaker Interview

09:05 Eukaryotic Lysates for Cell-Free Bioproduction

Marlitt Stech, Ph.D., Research Scientist, Cell-Free Bioproduction, Fraunhofer Institute for Cell Therapy and Immunology (IZI), Branch Bioanalytics and Bioprocesses Potsdam-Golm (IZI-BB)

We introduce novel systems for the cell-free production of glycoproteins, membrane proteins and functional antibody fragments in an endotoxin-free environment. The eukaryotic translation systems developed are based on translationally active lysates from cultured Sf21 and CHO cells which contain endogenous microsomal vesicles. The presence of these microsomes enables a co-translational translocation of target proteins, improved conditions for protein folding and enrichment and their subsequent posttranslational modification.

09:35 Modular Expression Approaches Using Transient and Stable Mammalian Production

Mark Trautwein, Ph.D., Senior Research Scientist, Cell and Protein Sciences, Bayer HealthCare

Successful antibody lead discovery requires high-quality antigens, either as recombinant proteins or displayed on cellular surfaces. However, antigen production has notorious pitfalls in expression and purification. To ensure high probability of success while minimising resource demands and keeping short timelines, we have implemented a step-wise approach using transient and stable expressions in different mammalian host cell lines taking advantage of a modular expression toolbox allowing high-throughput expression optimisation.

10:05 cGMP Biologics Production Using Corynex® :
A Highly-Productive Gram-Positive Microbial Protein Secretion System

Yoshimi Kikuchi, Ph.D., Principal Researcher, Ajinomoto Co., Inc.

Corynex® is Ajinomoto’s highly productive protein expression system based on the gram-positive bacteria C. glutamicum. The easy-to-handle platform can secrete correctly-folded proteins directly into media with high purity, free from cell lysis, refolding, endotoxins, and spores. We recently demonstrated successful 1000L GMP biologics production using Corynex®.

10:35 Coffee Break in the Exhibit Hall with Poster Viewing

CASE STUDIES: UPSTREAM DECISIONS LEAD TO DOWNSTREAM SUCCESSES (CONT’D)

11:15 The Incorporation of Non-Natural Amino Acids Enables Empowered Antibodies for Cancer Therapy

Gang Yin, Ph.D., Principal Scientist, Protein Biochemistry, Sutro Biopharma, Inc.

A cell-free protein synthesis system was engineered for site-specific incorporation of non-natural amino acids (nnAAs). Methods have been developed for conjugation of synthetic molecules to antibodies or antibody to antibody by Azide/DBCO or Tetrazine/Trans-cyclooctenes reaction at desired sites. Incorporation of non-natural amino acids and development of conjugation chemistries enable empowered antibodies for cancer therapy. Three applications were discussed: antibody drug conjugates with single warhead and combination warheads, bispecific antibodies, and extended half-life antibodies by pegylation.

11:45 Wacker Biotech Refolding Technology – The Complement to our ESETEC® Secretion Platform

Guido Seidel, Ph.D., Managing Director, Operations, Wacker Biotech GmbH

Wacker Biotech is known as THE MICROBIOAL CMO. We lead the development of innovative, cost-saving E. coli technologies for recombinant manufacturing of biopharmaceuticals. Depending on customers need we can produce difficult to expressed proteins via E. coli Secretion Technology - ESETEC® or with our proprietary refolding technology.

12:15 Enjoy Lunch on Your Own

13:00 Dessert Break in the Exhibit Hall with Poster Viewing

13:30 End of Applying Expression Platforms

Day 1 | Day 2 | Speaker Biographies | Download Brochure  

Conference Programs

• Display of Biologics
• Engineering Antibodies
• Machine Learning: Part 2

• Antibody-Based Therapies
• Emerging Targets & Approaches
• Membrane Protein Targets

• Safety & Efficacy
• Advancing Multispecifics
• Engineering Bispecifics

• Modulating the TME
• Innovative CAR T Therapy
• Next-Gen Immunotherapies

• Optimisation & Developability
• Analytical Characterisation
• Protein Stability & Formulation

• Data Science & Engineering
• Optimising Expression
• Process Development

• Intro to Machine Learning
• Machine Learning: Part 1
• Machine Learning: Part 2

• Antibody-Based Therapies
• Engineering Conjugates
• Next-Gen Immunotherapies