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Printable Handouts
Navigable Slide Index
- Introduction
- Talk outline (1)
- Host defence - an evolutionary imperative
- How does the immune system interact across cells, tissues and organisms?
- Cytokines - one solution towards dynamic immunity!
- Principles of cytokine biology (1)
- Principles of cytokine biology (2)
- Principles of cytokine biology (3)
- Principles of cytokine biology - nomenclature
- Principles of cytokine biology - receptor families
- Principles of cytokine biology - diverse functions via intracellular signalling: JAK family
- Essentials of cytokine biology - regulation of T-cell subsets defined by cytokine production
- Cytokines mediate the equilibrium of the immunity system
- Principles of cytokine biology - function in complex networks
- Talk outline (2)
- Cytokine targeting starts with rheumatoid arthritis…
- Towards pathogenesis lead interventions in immune diseases - RA as an exemplar?
- A pre-revolutionary history of arthritis management...
- TNF: pathogenesis driven intervention in the clinic
- Developing TNF inhibitors in chronic inflammatory diseases
- IL-6: broad homeostatic biological properties
- IL-6: biology of relevance to RA - a summary
- Cytokine targeting extended inside the cell via kinase inhibitors…
- Cytokine inhibitors turned out to be useful across diseases beyond the joint….
- A mention for inteleukin-17
- Lessons learned from the IL-23-IL-17b axis in immune mediated diseases?
- Benefit-risk profile of cytokine blockade?
- Pathogenetic lessons from cytokine targeting medicines?
- Pathogenetic lessons - can we extend that into pre-IMIDs?
- Cytokines and IMIDs - many more cytokines activities now described in
- Evolving models for cytokine hierarchies in IMIDs?
- Do cytokines work alone or in sophisticated networks? (1)
- Do cytokines work alone or in sophisticated networks? (2)
- Discrete cytokine patterns associate with disease state?
- Cytokine inhibitors allowing new definition of immune diseases
- Final thoughts
Topics Covered
- Principles of cytokine biology
- Cytokines family members and their receptors
- Diverse cascades and functions of cytokines
- Cytokines mediate the equilibrium of the immunity system
- The pathogenesis of cytokines and disease
- The therapeutics of cytokines and disease
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
McInnes, I. (2020, October 29). Cytokines [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/IVAM9825.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Iain McInnes has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Other Talks in the Series: The Immune System - Key Concepts and Questions
Transcript
Please wait while the transcript is being prepared...
0:00
Hello, my name is Iain McInnes,
I'm the Muirhead Professor of Medicine and the versus
arthritis Professor of Rheumatology in the University of Glasgow in Scotland.
I'm going to tell you today about the principles of cytokine biology.
I'm going to think out loud with you about the critical role that cytokines
play in this extraordinary agile and dynamic immune response.
I'm then going to tell you a little bit about their basic biology, how they're regulated,
and finally give you some examples of how they can
bring complex immune phenotypic regulation to bear.
0:34
The lecture I'm about to give you is going to fall into two parts.
They're mutually dependent, but if you feel you would
prefer take them as individual sub-segments,
there's going to be no problem with that.
In the first part of the lecture,
I'm going to tell you about the principles of cytokine biology.
I'm going to tell you what they are,
I'm going to tell you how they function in the immune system.
Then with that basis,
I'm going to tell you just a little bit about a few select cytokine moieties and
their potential role in the pathogenesis of
diseases that are common in clinical practice.
More importantly, how those cytokines and their biology have been used to derive
new therapeutics that are transforming the lives of
many people who have the so-called IMID group of disorders,
the immune-mediated inflammatory disease group.
1:31
Let us turn first of all to the reason for having an immune response at all.
It's interesting when you look back through evolution,
that even very primitive organisms,
even if you thinking about viruses,
have devoted some of
their invaluable genetic sequence and energy to the function of defense.
Even viruses actually generated genes that were involved
in the defense of the virus and the cell in which a virus might exist.
Those genes actually have come through evolution into higher organisms,
all the way through into sharks, into reptiles,
into mammals, and even into the highest evolved mammal that is yet known,
that is the Scottish football supporter.
This is an extraordinary mammal that is immune to all manner of
disappointments and terrible trials and tribulations on the sporting field,
and even Scottish football supporters have an effective immune response.
But if you just cast your eye through this figure,
you will see that there has been
a progressive acquisition of increasing modalities of immune defense.
Initially, the immune response comprised mainly proteins,
peptides, the complement system, for example.
Then came the idea that cells could contribute.
Finally, that cells could take on
some specific functions which working as a corporate whole,
could lead to an effective immune defense.
A remarkable immune defense that in higher mammals allows
not only the immediate response to a challenge,
to an injury or to an infection,
but also memory of that challenge so that when
subsequently the human being or higher mammals sees that organism,
it is able to mount an immediate and effective defense.
That is the fundamental division of the immune response into
innate and adaptive immunity that
you'll be learning about in other lectures in this series.
A good way to think about that is,
of the innate immune system being immediate,
highly effective, but amnesic.
It does the same thing all over again the next time it's exposed to that same challenge.
That's actually really quite inefficient.
Mounting an immune response takes a lot of metabolic energy,
it takes a lot of cellular material that takes
a lot of building blocks to make new cells to respond.
The acquisition of memory in higher mammals was
the ability to remember what the challenge originally was,
the context of that challenge in any given tissue and
that rapid onset of a much more efficient adaptive response.
What I'm going to tell you about is that,
within this complex network,
it is the cytokines that have a critical role in coordinating the immune response.