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- Principles and general themes
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1. Oncolytic viruses: strategies, applications and challenges
- Dr. Stephen J. Russell
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2. Directed evolution of AAV delivery systems for clinical gene therapy
- Prof. David Schaffer
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6. The host response: adaptive immune response to viral vector delivery
- Prof. Roland W. Herzog
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7. Gene therapy and virotherapy in the treatment of cancer
- Prof. Leonard Seymour
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8. Gene therapy for the muscular dystrophies
- Prof. Jeff Chamberlain
- Major gene transfer platforms and gene therapy strategies
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9. Gammaretroviral vectors: biology, design and applications
- Prof. Axel Schambach
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13. Surface-mediated targeting of lentiviral vectors
- Prof. Dr. Christian Buchholz
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14. Gene transfer and gene therapy
- Dr. David A. Williams
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15. Tracking vector insertion sites to explore the biology of transduced cells in vivo
- Prof. Dr. Christof Von Kalle
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16. Advances in gene therapy for respiratory diseases 1
- Prof. John F. Engelhardt
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17. Advances in gene therapy for respiratory diseases 2
- Prof. John F. Engelhardt
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20. Gene therapy for hemophilia
- Prof. Katherine High
- New technologies for sequence-specific editing of gene expression
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21. Helper-dependent adenoviral vectors for gene therapy
- Prof. Nicola Brunetti-Pierri
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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
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23. RNAi for neurological diseases
- Prof. Beverly L. Davidson
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24. Directed evolution of novel adeno-associated viral vectors for gene therapy
- Prof. David Schaffer
Printable Handouts
Navigable Slide Index
- Introduction
- Gene therapy
- Key elements in gene transfer
- Viral infection - cell entry
- Viral infection - viral replication
- Creating a viral vector
- Therapeutic activity
- Therapeutic activity after cell division
- Clinical gene therapy: ex vivo milestones
- Clinical gene therapy: in vivo milestones
- Advancing gene therapy: the challenges
- Limitations of expression cassette
- Properties & limitations of transfer vector (1)
- Properties & limitations of transfer vector (2)
Topics Covered
- Gene therapy
- Key elements in gene transfer
- Viral infection
- Cell entry
- Viral replication
- Creating a viral vector
- Therapeutic activity
- Therapeutic activity after cell division
- Clinical gene therapy: ex vivo and in vivo milestones
- Advancing gene therapy: the challenges
- Limitations of expression cassette
- Properties & limitations of transfer vector
Talk Citation
Naldini, L. (2014, August 5). Gene transfer strategies: principles, state-of-the-art and the major barriers that need to be overcome 1 [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/EMQR8196.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Luigi Naldini has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Gene transfer strategies: principles, state-of-the-art and the major barriers that need to be overcome 1
Published on August 5, 2014
47 min
A selection of talks on Genetics & Epigenetics
Transcript
Please wait while the transcript is being prepared...
0:00
So hello, everybody.
This so the first recording in
this series of gene therapy.
I am in the Luigi Naldini.
I am the director of the
San Raffaele-Telethon
Institute for Gene
Therapy in Milan, Italy.
And I will be discussing,
in this first lecture,
general features of gene
therapy and vectors.
0:22
In the first slide, we are
mentioning the key strategies
in gene transfer and gene therapy.
Gene addition, which
is the insertion
of new genetic information in a cell
to replace a malfunctioning gene
and replacing its function, or
to instruct a novel function
to that cell-- for
instance, to make that cell
resistant to an infectious
agent or to help
that cell better fight the cancer.
These are the most common strategies
in gene transfer and therapy today.
There are, however,
additional strategies, which
are gene subtraction--
in which case,
we aim to disrupt or inhibit an
endogenous gene to essentially
prevent its expression, again, to
enable maybe resistance to a virus
or to fight a dominant
oncogenic mutation.
And gene editing, which
is a more advanced
of gene therapy in which, rather
than adding or subtracting genes,
we are actually rewriting the
genetic sequencing in the cell,
most often to correct directly in situ, a genetic inherited
mutation, or to insert novel
sequence at this specific site.
And gene editing can be performed
at the RNA level, in which case
we would modify RNA transcript,
either by, for instance,
forcing axon skipping
or trans-splicing.
Or in a more stable at the DNA
level by either disrupting genes
or forcing homologous
recombination through the use
of artificial nucleuses.
And all of these strategies
will be, of course,
discussed in detail
in selected talks.
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