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Printable Handouts
Navigable Slide Index
- Introduction
- The history of recombinant antibodies
- The first approved _x000B_therapeutic antibody
- Rodent, chimeric and humanized antibodies
- The first chimeric antibody
- The first chimeric full length antibody
- The first humanized antibody
- The first fully human antibody
- The road to fully human antibodies
- Antibody nomenclature
- Human antibodies take the lead
- Approved antibodies (10/2018)
- Antibody phage display - technology
- The idea of antibody phage display
- Filamentous phage
- Replication cycle of M13 phage
- Antibody structure
- Antibody phage display
- Antibody phage display - scFv
- Antibody phage display - Fab
- Phagemid vectors
- Antibody gene libraries
- Antibody library generation
- Naive vs. (semi-) synthetic libraries
- Naive libraries vs. transgenic mice
- Germinality index
- Antibody selection (panning)
- Polyvalent display
- Antibody phage display - case studies
- Antibodies to soluble protein antigens
- Antibodies to soluble protein antigens (graph)
- Human/mouse cross-reactivity
- Antibody optimization by shuffling
- Cross-reactivity (2 step approach)
- Cross reactivity (2 step approach example)
- Antibody optimization by shuffling (example)
- Antibody phage display - difficult targets
- Cell panning on stably transfected cells
- Panning on stably transfected cells (workflow)
- Panning on stably transfected cells (details)
- Cell panning on transiently transfected cells
- Transiently transfected cells (workflow)
- Transiently transfected cells (workflow & data)
- Phage display discovery pipeline
Topics Covered
- The history of recombinant antibody development
- Road to fully human antibodies
- Antibody phage display technology
- Phage display libraries and generation
- Antibody discovery by phage display
- Antibody optimization by light chain shuffling
- Antibody discovery to difficult targets
- Introduction of a full phage display discovery pipeline
Links
Categories:
Therapeutic Areas:
Talk Citation
Frenzel, A. (2019, May 30). Phage display for generating monoclonal antibodies [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/DIAU2832.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. André Frenzel is an empolyee of Yumab GmbH, a provider of Phage Display Technologies
A selection of talks on Methods
Transcript
Please wait while the transcript is being prepared...
0:00
I am Andre Frenzel, currently CSO of
YUMAB GMBH which deals with Phage Display Technology,
and this is also the topic of the talk of today,
which is Phage Display for the Generation of Monoclonal Antibodies,
better human antibody discovery and development by in vitro selection.
0:18
The history of recombinant antibodies began in 1975,
when Kohler and Milstein published their groundbreaking work about Hybridoma technology.
They were awarded in 1984 with the
Nobel Prize in Physiology and Medicine for
their work on the immune system and the production of monoclonal antibodies.
The Nobel Prize has also been awarded to Jerne,
who's very often forgotten in this respect,
but he also had a quite impact about topics of the immune system;
you already recognized that the immune system
contained antibodies prior to the antigen contact,
yet had some nice ideas about self-tolerance and
also found out that there is a communication between B and T cells.
So, there's really groundbreaking work in the immunology field.
1:02
The first therapeutic antibody competed on the market in 1985,
OKT3 (Muronomab) marketed by Jannsen-Cilag.
This is, of course, an Hybridoma-derived antibody against CD3,
for the therapy of acute with the different resistance-
a rejection of allogenic renal heart and liver transplants.
The mode of action is that upon binding of Muronomab to the cell surface receptor,
ADCC and CDC occurs that leads to T-cell depletion,
but it has also be mentioned that OKT3 has
also very severe side effects such as T-cell activation,
which might lead to a cytokine storm.
OKT3 led to an anti-mouse response of
38-83 percent in patients who were treated with this antibody,
and therefore, OKT3 was discontinued in 2010.