• Principles and general themes
• 48 min
  1. Oncolytic viruses: strategies, applications and challenges

  • Dr. Stephen J. Russell
• 44 min
  2. Directed evolution of AAV delivery systems for clinical gene therapy

  • Prof. David Schaffer
• 47 min
  3. Gene transfer strategies: principles, state-of-the-art and the major barriers that need to be overcome 1

  • Prof. Luigi Naldini
• 30 min
  4. Gene transfer strategies: principles, state-of-the-art and the major barriers that need to be overcome 2

  • Prof. Luigi Naldini
• 36 min
  5. Manufacturing viral gene therapy vectors: general approaches and challenges

  • Prof. John T. Gray
• 41 min
  6. The host response: adaptive immune response to viral vector delivery

  • Prof. Roland W. Herzog
• 46 min
  7. Gene therapy and virotherapy in the treatment of cancer

  • Prof. Leonard Seymour
• 66 min
  8. Gene therapy for the muscular dystrophies

  • Prof. Jeff Chamberlain
• Major gene transfer platforms and gene therapy strategies
• 44 min
  9. Gammaretroviral vectors: biology, design and applications

  • Prof. Axel Schambach
• 58 min
  10. Lentiviral vectors: design, biological properties, milestones and current major applications, hazards 1

  • Prof. Luigi Naldini
• 38 min
  11. Lentiviral vectors: design, biological properties, milestones and current major applications, hazards 2

  • Prof. Luigi Naldini
• 50 min
  12. Gene therapy and gene transfer: vector integration preferences and integration site analysis

  • Prof. Frederic Bushman
• 29 min
  13. Surface-mediated targeting of lentiviral vectors

  • Prof. Dr. Christian Buchholz
• 58 min
  14. Gene transfer and gene therapy

  • Dr. David A. Williams
• 35 min
  15. Tracking vector insertion sites to explore the biology of transduced cells in vivo

  • Prof. Dr. Christof Von Kalle
• 22 min
  16. Advances in gene therapy for respiratory diseases 1

  • Prof. John F. Engelhardt
• 41 min
  17. Advances in gene therapy for respiratory diseases 2

  • Prof. John F. Engelhardt
• 37 min
  18. Hematopoietic stem cell gene therapy for the treatment of metachromatic leukodystrophy

  • Dr. Alessandra Biffi
• 59 min
  19. Turning genomic junk into treasure: genetic engineering with the Sleeping Beauty transposon system

  • Dr. Zoltan Ivics
• 56 min
  20. Gene therapy for hemophilia

  • Prof. Katherine High
• New technologies for sequence-specific editing of gene expression
• 57 min
  21. Helper-dependent adenoviral vectors for gene therapy

  • Prof. Nicola Brunetti-Pierri
• 38 min
  22. HSV vectors: approaches to the treatment of chronic pain

  • Prof. Joseph C. Glorioso
• Archived Lectures *These may not cover the latest advances in the field
• 48 min
  23. RNAi for neurological diseases

  • Prof. Beverly L. Davidson
• 52 min
  24. Directed evolution of novel adeno-associated viral vectors for gene therapy

  • Prof. David Schaffer

Printable Handouts

PDF

Navigable Slide Index

1. Introduction
2. Natural virus life cycle
3. Production of injectable viral vectors
4. Production of viral vectors for ex vivo transduction
5. Engineering vector producer cells
6. Stable vector producer cells
7. Transient vector producer cells
8. Summary of terminology
9. Design strategies for engineering helper cassettes
10. The basic biology of the virus
11. Idealized vector production system
12. Organization of a vector system
13. Goals for the design of a production system
14. Individual vector production systems
15. Adenoviral vectors
16. First generation adenovirus vector production
17. Minimally deleted adenovirus vectors
18. Helper dependent adenovirus vector production (1)
19. Helper dependent adenovirus vector production (2)
20. Retroviral vectors
21. Moloney Murine Leukemia Virus
22. Stable cell lines
23. Self-inactivating retroviral vector genomes
24. SIN retroviral vector production
25. HIV based lentiviral vectors
26. HIV based lentiviral vector systems
27. Lentiviral vector production
28. Lentiviral stable cell lines
29. AAV vector & helper components
30. Adenovirus genome - 35,935 bp
31. Plasmid-based AAV vector production
32. Dedicated AAV producer cells
33. Baculovirus-based AAV vector production
34. Pseudoreplication
35. Downstream processing (1)
36. Downstream processing (2)
37. Cleanroom management
38. Product testing (1)
39. Product testing (2)
40. Example release testing for AAV vector product
41. Final remarks

Topics Covered

• Manufacturing of Viral Gene Therapy Vectors
• Different types of vector production systems
• Concepts for the design of viral vector production cells
• Specific viral vector production systems for adenovirus, adeno-associated virus, gamma-retrovirus, and lentivirus
• Downstream processing
• Regulatory considerations

Links

Series:

• Gene Transfer and Gene Therapy

Categories:

• Genetics & Epigenetics

Talk Citation

Publication History

• Published on August 5, 2014

Financial Disclosures

• Prof. John T. Gray has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.