Cambridge Healthtech Institute’s 5th Annual

Gene Therapy Manufacturing

Scale-up and Purification of Viral Vectors

20 - 21 March 2024 ALL TIMES CET

Cambridge Healthtech Institute’s Gene Therapy Manufacturing meeting tackles the practical challenges facing the production, scale-up and purification of viral and non-vector-based gene therapies. Topics include cell line development, upstream processing, recovery, and purification, preparing for commercial manufacturing, and scale-up for clinical and commercial supply. Examples will come from the world of AAV and lentiviral vectors, mRNA and other non-viral approaches.

Wednesday, 20 March

Registration Open10:30

PLENARY KEYNOTE SESSION

BACK TO THE FUTURE OF BIOPROCESSING—ANTIBODIES TO EXTRACELLULAR VESICLES

11:15

Chairperson's Opening Remarks

Alois Jungbauer, PhD, Professor & Head, Biotechnology, Institute of Bioprocess Science and Engineering, University of Natural Resources and Life Sciences (BOKU)

11:20 PLENARY PRESENTATION:

What Have Monoclonal Antibodies Ever Done for Us? Past, Present, and Future Perspectives on Antibodies and How They Have Driven Bioprocessing Progress

Paul Varley, PhD, Senior Vice President, Development, Alchemab Therapeutics

Advances in bioprocessing have been pivotal to the emergence of monoclonal antibodies as one of the most successful classes of drugs in modern medicine. In this talk we will consider this journey and ask what's next for antibodies. We will also explore how advances in antibody bioprocessing continue to enable the next generation of biological medicines through the emergence of new product modalities.

11:50 PLENARY PRESENTATION:

Extracellular Vesicles as Promising Drug Modalities in Spinal Cord Injury and Other (Neuro-)Degenerative Diseases

Eva Rohde, MD, Chair, Transfusion Medicine, Director GMP Unit, Spinal Cord Injury and Tissue Regeneration Center Salzburg (SCI-TReCS), Paracelsus Medical University Salzburg

Extracellular vesicles (EVs) have emerged as promising new biologic drug modalities. EV therapeutics (EV-Tx) from mesenchymal stromal cells (MSC) exert anti-inflammatory, anti-fibrotic and regenerative effects. MSC-EV-Tx could optimise healing after acute traumatic injury. Challenges in reproducible EV-Tx manufacturing prevent comprehensive evaluation of their efficacy. In early research, the paradigm of “the-process-is-the-product” is valid for complex biologicals. A “one-size-fits-all” approach to solve technical and regulatory issues is not available for EV-Tx. The claimed disease-related mechanisms of action (MoA) of candidate EV-Tx will determine regulatory requirements to be met. This presentation will introduce concepts to accelerate EV-Tx testing in various target diseases.

Session Break12:20

12:35

Challenges and Opportunities in Gene Therapy Technical Development

Markus Haindl, PhD, Global Head, Gene Therapy Technical Development, Roche Diagnostics GmbH

While gene therapies are offering unique and unprecedented treatment options for patients, these versatile toolboxes are coming with high complexity on a molecular level, which finally poses significant challenges to provide access to such therapies on a global scale. Gene therapies are currently where monoclonal antibodies were 25 years ago and we need a shift of our development paradigms and transformative innovation for reliable supply, more sustainable cost of manufacturing as well as enhanced molecular understanding of these next-generation therapeutics.

Networking Lunch (Sponsored Opportunity Available)13:05

OPTIMISING VIRAL VECTOR PROCESS DEVELOPMENT

14:15

Chairperson's Opening Remarks

Eduard Ayuso, DVM, PhD, CEO, DINAMIQS; Chairman of Manufacturing, European Society of Gene and Cell Therapy

14:20

Exploring AAV Scale-Up: Experiences, Challenges, and Learnings

Amna Anwar, Associate Senior Scientist, Downstream Processing, Cell & Gene Therapy Catapult

In the presentation we will explore the journey of up-scaling an Adeno-Associated Virus (AAV) production process. We will share an overview of the experiences and insights gained during the scale-up work, highlighting the complexities faced during the most challenging steps of the upstream and downstream processes. Furthermore, we will discuss the valuable lessons learned and the innovative solutions we are implementing to address the remaining challenges effectively.

14:50

Improving Efficiency and Scalability of rAAV Upstream Processing

Priyanka Amba Gupta, Senior Scientist, Gene Therapy, Upstream, UCB

rAAVs are at the forefront of gene therapy, but the manufacturing processes for these remain a significant challenge. Specifically, the focus of product developers is on scalability and achieving high productivity consistently to ensure economic viability. While this field is still emerging, innovative approaches in upstream processing have shown potential. Here, we explore the evolving landscape of upstream rAAV production, highlighting the promising strategies to enhance efficiency and scalability.

15:20 FEATURED PRESENTATION:

Using Stable Producer Cell Lines for Manufacturing of Lentiviral Vectors in Perfusion Mode

Parameswari Govindarajan, PhD, Senior Scientist, Process Development, CSL Behring GmbH

The large-scale production of clinical-grade lentiviral vectors (LVs) for gene therapy applications is a remaining challenge. We are presenting a novel state-of-the art platform for LV production using HEK293T-based stable packaging cell lines. We describe the generation of stable producer cell lines and monoclonal cell line generation, identifying top producer clones. Based on the producer cell lines we have developed a perfusion process resulting in high Lentivirus (LV) titer.

15:50 Tools at Your Fingertips to improve AAV Productivity and Quality in 2024

Mathieu Porte, R&D Bioproduction Manager, Polyplus

Enhancing AAV productivity and quality is key to enable more Gene Therapy products to reach commercialization. There are several approaches to improve productivity, of which a cost-effective approach whereby early on during process development, multiple parameters can be optimized thanks to DOE at both Upstream and Downstream levels.  Combining using latest generation reagents and plasmid engineering tools with DOE can have a significant and positive impact on process efficiency.

Refreshment Break in the Exhibit Hall with Poster Viewing16:20

FUTURE DIRECTIONS IN GENE THERAPY MANUFACTURING

17:00 KEYNOTE PRESENTATION

Leveraging a Flexible Gene Therapy Process Development Platform to Create Efficiencies for AAV Manufacturing

Patrick M. Hossler, PhD, Senior Director, Pharmaceutical Development, Ultragenyx

Major challenges abound in gene therapy commercialization including inconsistencies in manufacturing performance, low yields, long timelines, and high costs. Process development has a pivotal role towards unlocking efficiency and helping facilitate global patient access to GT products. Through an extended pipeline of rAAV therapies, we developed a PD platform that integrates seamlessly with our manufacturing network. Studies of leveraging a flexible platform to create efficiencies in manufacturing will be presented.

17:30

Optimization of AAV Production for High-Yielding and Scalable GMP Processes

Mark Bell, Principal Bioprocessing Scientist, Purespring Therapeutics

Gene therapy is an emerging treatment modality for a wide range of monogenetic disease indications, including those in the kidney. Meeting the demand for these clinical indications requires innovative manufacturing strategies to boost rAAV productivity. Our success in triple plasmid transfection has elevated AAV productivity in small-scale platforms, and we outline our scaling and implementation approach at our CDMO to address these emerging therapeutic needs.

INTERACTIVE BREAKOUT DISCUSSIONS

18:00Interactive Breakout Discussions

Interactive Breakout Discussions are informal, moderated discussions, allowing participants to exchange ideas and experiences and develop future collaborations around a focused topic. Each discussion will be led by a facilitator who keeps the discussion on track and the group engaged. To get the most out of this format, please come prepared to share examples from your work, be a part of a collective, problem-solving session, and participate in active idea sharing. Please visit the Interactive Breakout Discussions page on the conference website for a complete listing of topics and descriptions.

IN-PERSON ONLY BREAKOUT:

Future Directions in Gene Therapy Manufacturing

Eduard Ayuso, DVM, PhD, CEO, DINAMIQS; Chairman of Manufacturing, European Society of Gene and Cell Therapy

  • ​Industrializing Gene Therapies - what have we learned from commercial products
  • Cell line development to process development
  • Technology gaps in process development - upstream to downstream
  • Formulation and Stability
IN-PERSON ONLY BREAKOUT:

Viral Vector Process Development and Formulation

Tarik Senussi, PhD, Senior Director Process & Formulation Development, MSAT, Gyroscope Therapeutics, a Novartis Company

  • ​Moving from Upstream to Downstream Processing
  • Formulation Strategies
  • Fill Finish

Close of Day18:30

Thursday, 21 March

Registration and Morning Coffee08:00

PROCESS DEVELOPMENT FOR VIRAL VECTORS

08:25

Chairperson's Remarks

Ana Sofia Coroadinha, PhD, Lab Head, Health & Pharma Division, Animal Cell Technology Unit Cell Line Development and Molecular Biotechnology Lab, IBET

08:30

Successful Development and Scaling-Up of a Suspension HEK293 Platform for AAV Manufacturing

Laurence Guianvarch, Head, Viral Vector Process Development, TaRGeT UMR1089

Recombinant adeno-associated virus (rAAV) vector is the most widely used viral vector for in vivo gene therapy. This work is aimed to develop a powerful rAAV production platform based on transient transfection of HEK293 cells in suspension, delivering large amounts of rAAV. After only a few months of development through a holistic approach, an end-to-end process was defined. This so-called “TaRGeT’s AAV platform” showed high and consistent productivity up to 5x1011 vg(vector genome)/mL in bulk harvest. Finally, this process has been successfully scaled-up from shake flask to 2L then to 50L stirred-tank bioreactors.

09:00

A Novel Three-Plasmid Packaging System for High-Yield and rcAAV-Free rAAV Production

Su Xiao, PhD, PhD, Co-Founder & Chief Tech Operations Officer, Neurophth Biotechnology

We developed a novel three-plasmid packaging system, Higher-Expression Recombinant AAV (HERA) system, which increased the rAAV yield by 5 to 10-fold (to 1E15vg/L across different serotypes) and reduced rcAAV to undetectable level. The HERA system has been evaluated in Neurophth’s suspension HEK293 platform for multiple preclinical and clinical batches. Herein, we present process and quality attributes summaries of historical batches to demonstrate the HERA system not only significantly reduced manufacturing scale, but also achieved improved quality profile

09:30

Challenges in AAV Vectors-Based Gene Therapies

Ana Sofia Coroadinha, PhD, Lab Head, Health & Pharma Division, Animal Cell Technology Unit Cell Line Development and Molecular Biotechnology Lab, IBET

Adeno-associated virus (AAV) vectors are widely used as a gene therapy vector. One of the current limitations on the use of AAV vectors is their small packaging capacity impairing delivery of therapeutic genes over 3.5kb in size. Herein, dual AAV co-delivery strategies are discussed and presented, namely the use of protein trans-splicing systems, to deliver larger genes. AAV vector doses are also analysed.

10:00 Synthetic, Enzymatically Produced DNA for Gene Therapy and Vaccine Applications

Amy Walker, PhD, Vice President, Research & Development, 4basebio Discovery Limited

Plasmid DNA is a major bottleneck in the production of C&G therapies and vaccines. Synthetic DNA offers a paradigm shift in GMP DNA production, conferring benefits including an enhanced safety profile, improved performance, and significantly accelerated turnaround times. Here, we show how 4basebio’s enzymatically produced DNA can outperform plasmid in the production of mRNA, AAV and in gene editing applications.

10:15Session Break

Coffee Break in the Exhibit Hall with Poster Viewing10:30

SEPARATION AND PURIFICATION OF VIRAL VECTORS

10:55

Chairperson's Remarks

Ricardo J.S. Silva, PhD, Senior Scientist, Downstream Process Development, Animal Cell Technology, iBET Instituto de Biologia Experimental Tecnologica

11:00

Improving Virus-Based Biopharmaceuticals Purification Using New Adsorbents

Cristina C. Peixoto, PhD, Head Downstream Process, Animal Cell Technology, iBET Instituto de Biologia Experimental Tecnologica

New modalities are a challenging task for downstream processing. Alternative purification strategies that can improve the purification yield, such as affinity chromatography or the use of new adsorbent materials are regarded nowadays as enabling technologies to overcome the capacity bottleneck in biomanufacturing. The current talk will focus on the development of new engineering ligands and new matrices aimed at the purification of viral vectors; some case studies will be discussed.

11:25

Integration of Upstream and Downstream Processes in AAV Production

Ricardo J.S. Silva, PhD, Senior Scientist, Downstream Process Development, Animal Cell Technology, iBET Instituto de Biologia Experimental Tecnologica

Process intensification and integration are often viewed as tools to improve bioprocess efficiency. This talk will explore the use of perfusion bioreaction and continuous chromatography to seamlessly integrate and connect upstream and downstream stages. AAV expression, harvesting, and clarification processes are integrated using tangential flow depth filtration. The cases of continuous AAV affinity capture and polishing will be presented, with an emphasis on the challenges and opportunities for future developments.

11:55

Non-Woven Material for Bionanoparticle Separation and Purification

Alexander Zollner, University of Natural Resources and Life Sciences, Vienna

Bionanoparticles, like virus-like particles, are promising candidates for future vaccines and gene therapies. For the production of safe pharmaceuticals, a major focus lies on the downstream processing. Within our research, we are investigating the fundamental principles of bionanoparticle purification with the goal of moving from resin-based chromatography to more environmentally friendly, biodegradable, membrane-based methods. This shift enhances process efficiency and aligns with our commitment to sustainable production.

Networking Lunch (Sponsorship Opportunity Available)12:30

DIGITALISATION OF GENE THERAPIES

13:45

Chairperson's Remarks

Ricardo J.S. Silva, PhD, Senior Scientist, Downstream Process Development, Animal Cell Technology, iBET Instituto de Biologia Experimental Tecnologica

13:50

Mastering the Digitalization Challenge for Biopharma Processes – From mAbs to Emerging Modalities

Michael Sokolov, PhD, Lecturer, ETH Zurich, COO, DataHow AG

In this presentation, we show how advanced machine learning and hybrid modeling approaches can be exploited to significantly improve process understanding, performance, and automated operation as digital twins. All presentations will be centered on industrial implementation examples for mAb, cell & gene therapy, and mRNA processes with numerous big pharma and CDMO partners allowing to quantify efficiency gains in and improved understanding in process development.

PROCESS DEVELOPMENT FOR VIRUS-LIKE PARTICLES

14:20

Continuous Production of Influenza VLPs Using IC-BEVS: A Multi-Stage Bioreactor Approach

Ricardo Correia, PhD, Postdoctorate Researcher, Cell-Based Vaccines Development Lab, iBET Instituto de Biologia Experimental Tecnologica

The lytic nature of IC-BEVS limits its use for continuous bioprocessing. Here, a continuous multi-stage bioreactor process was established to produce influenza hemagglutinin-displaying virus-like particles (HA-VLPs) using IC-BEVS. Different process designs (varying cell line and rBAC construct) and residence times (RT=18, 36, and 54 hours) were tested. The best-performing design allowed consistent rBAC (108-109 pfu/mL) and HA-VLPs (34±14 HA titer/mL) titers; RT=54 hours outperformed other RTs. HA-VLPs were efficiently identified by electron microscopy after 20 days of continuous operation. This work showcases successful continuous HA-VLPs production using IC-BEVS, paving the way for establishing continuous, integrated setups using this expression system.

14:50

Enhancing VLP Purification Strategies: Metal-ion Affinity Precipitation as a Paradigm Shift for His-Tagged Virus-Like Particles

Khai Wooi Jason Lee, PhD, Senior Lecturer, School of Biosciences, Taylors University

We present a novel purification method for recombinant multimeric virus-like particles (VLPs) using metal-ion affinity precipitation. The study focused on VLPs made of turnip yellow mosaic virus coat protein, produced in Escherichia coli. Remarkably, a mere 15 µM (or lower) of transition-metal salt, such as nickel chloride, proved sufficient to induce precipitation, leading to an impressive recovery rate of up to 70% with a purity exceeding 0.90.

Close of Summit15:20