lecture 7: signaling through lymphocyte...
TRANSCRIPT
Lecture 7: Signaling Through Lymphocyte Receptors
Questions to Consider
After recognition of its cognate MHC:peptide, how does the T cell receptor activate immune response genes?
What are the structural motifs used by signal transduction molecules that permit specific interaction and activation of effector proteins?
How do genes know what is going on in the outside environment requiring them to make their proteins at the appropriate time?
General Signal Transduction
Concepts
Recognition of MHC:Peptide Complex by TCR Initiates Signaling Cascade in the T cell
Some Cellular Receptors Have Their Own Transduction Molecules Activated by Dimerization
Other Cellular Receptors Are Transduction Molecule-challenged
Signal Transduction Pathways Amplify the Initial Signal
Signal Transduction Pathways Must Have the Capacity to be Turned Off
Adapter Proteins Recruit Target Molecules From the Cytoplasm to Membrane-Associated Kinases
Src-family Kinases Are Regulated Tyrosine Kinases and Also Function as Adapter Proteins
Ada
pter
Ada
pter
Ada
pter
Kin
ase
Binds toCD4/CD8
orTCR/CD3
Binds toPI3-kinase(proline-
richmotif)
Binds toP120/130
PI3-kinase(pYEEI motif)
PTKPhosphorylation of
specific tyrosineresidues withinTCRz/CD3, CD5
P120/130
Regulates PTK activity (dephosphorylation by
CD45 upregulates activity:Phosphorylation by
p50csk downregulates
Scaffolding Proteins Permit Assembly of Signaling Complexes
Overview of T Cell Signal Transduction
The T Cell Receptor Complex Consists of Eight Proteins With Unique Functions
Ligand binding heterodimer
or
binds peptide + MHC
CD3 Complex
and
Nonpolymorphic chains present as
or
dimers
Intracellular
- present as dimers present as a homodimer
Interaction Between MHC Class II:Peptide and TCR Recruits the CD4 Molecule
TCR-associated Proteins: src-family Kinases
lck binds to CD4 and CD8 fyn binds to non-phosphorylated ITAMsSH3/SH2 domains inactive when bound to
phosphorylated C-terminus activated by dephosphorylation by phosphatase such
as CD45
Regulation of Src-family Kinases by Phosphorylation and Dephosphorylation of Activation and Inhibitory Tyrosine Sites
MHC:Peptide Interaction Recruits the CD45 Tyrosine Phosphatase Which Dephosphorylates and
Activates Src-kinases: Fyn and Lck
Phosphorylation of Receptors Permits Them to Recruit Adapter Proteins That Bind Phosphotyrosine Residues
Role of Immunoreceptor Tyrosine- based Activation Motifs (ITAMs)
Tyrosine residues on ITAMs are phosphorylated and thereby bind proteins containing SH2 domains
Total of 10 ITAMs/T cell receptor complex
1 ITAM/CD3
or
chain = 4 ITAMs
3 ITAMs/CD3
chain = 6 ITAMs
Why So Many ITAMs?
Required for amplification of signal transduced by few TCR molecules
Different transduction molecules bind to different ITAMs
Required for association of TCR complex with actin cytoskeleton
Phosphorylated ITAMs Recruit ZAP70 Permitting Lck to Phosphorylate and Activate ZAP70
ZAP-70 Phosphorylates Scaffold Proteins LAT and SLP-76 to Activate Phospholipase C-
Phospholipase C- Activates
Protein Kinase C and Ras-GEF (RasGRP)
ZAP-70 Initiates Cascade Activating Guanine-nucleotide Exchange (GEF) Factors That Activate Ras
Transduction of the Signal Into the Nucleus Activates Genes
There are multiple pathways that transduce the signal from the cytoplasm into the nucleus
Different transcription factors activate different groups of genes
MAP Kinase Cascade Transduces a Signal Into the Nucleus
Ras activates MAP kinase kinase kinase (Raf).
Raf phosphorylates serine/threonine on MAP kinase kinase (Mek) and activates it.
MAP kinase kinase (Mek) phosphorylates threonine and tyrosine on MAP kinase (Erk) thereby activating it.
MAP kinase (Erk) activates the Elk transcription factor which stimulates Fos gene transcription.
Calcium Induces the Translocation of the Transcription Factor NFAT Into the Nucleus
Phosphorylation of IB Releases the Transcription Factor NFB Thereby
Enabling It to Translocate Into the Nucleus
T Cell and B Cell Activation Requires Two Signals
Co-stimulatory Signal Activates a Parallel MAPK Path That Activates Complementary Genes
Ras activates MAP kinase kinase kinase (Raf).
Raf phosphorylates serine/threonine on MAP kinase kinase (Mek) and activates it.
MAP kinase kinase (Mek) phosphorylates threonine and tyrosine on MAP kinase (Erk) thereby activating it.
MAP kinase (Erk) activates the Elk transcription factor which stimulates Fos gene transcription.
Stimulatory Signal Pathways Integrated by Production of Fos and Jun- Components of the
Heterodimer AP-1 Transcription Factor
Broad Range of Nuclear Factors Are Activated in TCR Signal Transduction Cascade
Active enzymes
Transcriptionfactors
Initiation ofTCR-mediated
signals
Biochemicalintermediates
Abbas- Cellular and Molecular Immunology
Activation of Transcription Factors To Turn on Genes by Activation of Kinases and Phosphatases
Abbas- Cellular and Molecular Immunology
Cyclosporin and Tacrolimus Block Calcineurin Signaling and Thereby Suppress T Cell Activation
In 1984, Fujisawa scientists discovered tacrolimus in a soil sample taken from Mt. Tsukuba in Japan. Not long after, scientists realized that some of the properties of tacrolimus may help treat certain conditions and diseases. Eventually, they saw that this drug could be used to safely treat patients with moderate to severe eczema—thus, pioneering the use of topical immunomodulators (TIMs). Protopic was the first of this new class of nonsteroid drugs approved for the treatment of moderate to severe eczema—giving doctors the first prescription alternative for the treatment of moderate to severe eczema in 40 years.
Cross-linking Surface Immunoglobulin Activates B Cells
Cross-linking Surface Immunoglobulin Activates ITAMs
Questions to Consider
After recognition of its cognate MHC:peptide, how does the T cell receptor activate immune response genes?
What are the structural motifs used by signal transduction molecules that permit specific interaction and activation of effector proteins?
How do genes know what is going on in the outside environment requiring them to make their proteins at the appropriate time?