1 Cytotoxic T Lymphocytes (CTLs) and NK Cells After activation, naïve T cells differentiate into effector and memory T cells After activation, T cells remain in lymph nodes for 5-6 days Effector T cells Cell Function Released Effector Molecules Membrane Effector Molecules Th1 Cytokines to activate CTLs and macrophages IL-2, IFN TNF , GM-CSF TNF Th2 Activate B cells IL-4, IL-10, CD40L CTL Kill Target cells Perforin, Granzymes Fas Ligand CTLs do not require costimulation to kill infected targets Chromium Release Assay Experiments demonstrating CTL killing of target cells are usually done with a chromium ( 51 Cr) release assay, which measures target cell lysis in 4-8 hours. Infect mouse with virus to generate CTLs specific for virus infected targets. Wait until mouse has generated immune response. Use Spleen as source of CTLs. Incubate with syngeneic targets infected with virus that are radioactively labeled with 51 Cr that will be released when cell is lysed. Chromium attaches to proteins in the cytoplasm of target cells
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Cytotoxic T Lymphocytes(CTLs) and NK Cells
After activation, naïve T cells differentiateinto effector and memory T cells
After activation, T cells remain in lymph nodes for 5-6 days Effector T cells
Cell Function Released Effector Molecules
Membrane Effector Molecules
Th1 Cytokines to activate CTLs and macrophages
IL-2, IFN TNF , GM-CSF
TNF
Th2 Activate B cells IL-4, IL-10, CD40L
CTL Kill Target cells Perforin, Granzymes
Fas Ligand
CTLs do not require costimulation to kill infected targets Chromium Release AssayExperiments demonstrating CTL killing of target cells are usually done with achromium (51Cr) release assay, which measures target cell lysis in 4-8 hours.
Infect mouse with virus to generate CTLs specific
for virus infected targets.
Wait until mouse has generated immune response.
Use Spleen as source of CTLs.
Incubate with syngeneic targetsinfected with virus that are radioactively labeled with51Cr that will be released
when cell is lysed.
Chromium attaches toproteins in the cytoplasmof target cells
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Chromium Release CTL Assay
•Target cells mixed with
effector cells at various ratios.
•Measure release of 51Cr into media.
•Express as percentage lysis
relative to non-specific effector cell.
Perforin/Granzyme BPathway
Directional release ofgranules (in red).
How do CTL kill target cells? CTL Killing Perforin
• Contained in CTL granules• Pore forming protein.• Pokes holes in target cell membrane.• Homologous to C9.
Perforin forms polymers thatpoke holes in membranes to allowenzymes inside cell.
CTL Killing CTL Killing Granzymes
• A family of proteases which are involved ininduction of apoptosis in target cells after entrythrough perforin pores.
• Granzyme = granule enzyme
• Granzyme B is most active granzyme.
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CTL Killing Perforin/Granzyme pathway
Antigen specific killing of infected target cells allows for reduced bystander killing of uninfected cells.
CTL Killing Selective (antigen specific) killing happens in minutes.
CTLs can be serial killers (repeatedly killing).
Why don't CTLS kill themselves?
Cathepsin B-- a proteasewhich cleaves perforin!!!
control
Anti-cathepsinB
Wildtype Perforin KO
Virus Virus
51Cr labeled targetsHarvest splenocytes
Harvest splenocytes
Perforin deficient mice can still killvirally-infected target cells. How?
Specific killing ofvirally infected targets
Specific killing ofvirally infected targets
Fas/Fas Ligand Pathway
CTLs express Fas ligand interact with Fasexpressed on the target cell surface.
Fas Induced Apoptosis Cascade of Caspases
Proteases that cut at C-terminal side of anaspartate.
Pro-enzyme form becomes active throughcleavage into subunits.
Proteolytic cascade must be activated for eventualDNA fragmentation.
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Fas Induced Apoptosis Bcl-2 Proteins Control ApoptosisPro-apoptosis and anti-apoptosis proteins
Bcl-2 proteins can inhibit or activate apoptosis.
Proteolytic cascade must be activated and notinhibited by anti-apototic bcl-2 proteins.
(Target cell has to want to commit suicide).
CTLPathways ofCytotoxicity
Summary
Naïve CD8 T cells are activated in secondary lymphoidorgans and differentiate into CTL effector cells.
CTLs can kill targets independently of costimulation.
Once a CTL encounters a target cell it releases cytotoxicgranules containing perforin and granzymes.
Perforin forms pores in the membrane of the target cellallowing granzymes to enter the cell.
Granzymes induce apoptosis in the target cell by cleavingcaspases.
CTL also express FasL and can kill targets via Fas expressedon target cells.
But CTLS are not enough…..Viruses are tricky!
Class I MHC inhibition by viruses•Virus Protein Effect on class I•Adenovirus E3-k19 Retain in ER•HSV-1,2 ICP47 Blocks TAP•EBV EBNA1 Block peptides•CMV US2 ER to cytosol•CMV US3 Retain in ER•CMV US6 Blocks TAP
NK Cells Detect "Missing Self"Protection Against Viruses
N on-in fec ted
anti-c lass I
C MV in fected
anti-c la ss IcIg
CMV infection down-regulated MHC class I on human fibroblasts
Immune evasion mechanism of viruses to decrease Class I MHC.
NK cells preferentially kill cells that have lost expression of MHC class I.
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NK Cells Detect "Missing Self"Immune surveillance for Tumors
Tumor cells often have decreased expression of Class I MHC to escape T cell recognition.
NK cells kill tumor cells.
NK cells
Distinct lineage of lymphocytes.Do not rearrange α,β,γ or δ TCR.CD3-,CD56+ in humans.CD3-,NKR-P1+ (NK1.1) in rodentsEffector functions include cell-mediated
cytotoxicity & cytokine secretion.
CD3+
Stem Cell T / NK Prog enitor Pre-T Pre-T Mature T
Thymus
CD34++ CD34+
CD16+, CD56+
Mature NKPre-NK
CD4+ or CD8+
CD3+ CD3+
CD3+
TCRRearrange ment
CD3- CD4+, CD8+
NK and T cell Development
Bone MarrowStromaIL-2, IL-7, stem cell factor (SCF) CD3-, CD4-, CD8-
Thymus not requiredfor development.
Normal NK cells inscid mice and micewithout RAG1 orRAG2
NK Cells - Distribution
~5-20% peripheral blood lymphocytes~5% lymphocytes in spleenRare in uninfected lymph nodes>90% of lymphocytes in placenta
NK Cells - Effector Functions
Cell mediated-cytotoxicity– Perforin granzyme pathway– Secreted or membrane TNF-α
Antibody-dependent cellular cytotoxicity(ADCC)
Cytokine secretion– Early γ-interferon production– Secretion of TNF-α, LT-α, GM-CSF, IL-5, M-
CSF, IL-3, IL-10, IL-13.
Antibody-dependent cellularcytotoxicity (ADCC)
Cells that performADCC must haveFC receptors to bind Ig moleculesand trigger killing of target cell.
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Cytokine secretion of NK cellsRole for IFN-γ
VirusesVaricella zoster virus & CMV are life-threatening in humans lacking NK cells.
BacteriaNK cells protect against intracellular bacteria
which tend to infect macrophages. (e.g.Listeria Toxoplasma, Leishmania)
Natural Killer (NK) CellsPart of Early Immune Response
NK are lymphocytes without traditional antigen receptors
How do they get activated?
• NK cells express both activating and inhibitory receptors• Inhibitory receptors recognize MHC class I (self) on target cells• Activating receptors recognize ligands upregulated on infected
cells or tumor cells
+–
NK cell Activating ReceptorsHave ITAMs
Intracellular signal oflymphocyte receptorsthrough ITAMs.