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Viral Immunology

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Title: Viral Immunology


1
Viral Immunology
  • Innate Immunity
  • Type I interferons
  • NK Cells
  • Specific Immunity
  • B cell- and T cell-mediated

2
1 2 3 4 5 6
7 8 9 10 11 12

Days after viral infection
3
(No Transcript)
4
Action of IFN-?/?
  • Activated by viral double-stranded RNA
  • Binds to TOLL receptors on cells (TLR-3)
  • State of resistance to viral replication in all
    cells
  • Induce synthesis and expression of MHC class I
    molecules
  • NK cell cytotoxicity is activated whenever the
    IFN-?/? cytokines are induced
  • Increase expression of IL-12 receptors
  • Stimulates the development of TH1 cells

5
NK Cells
  • Phylogenetically like primitive CTLs that lack
    TCR for antigen recognition
  • Develop in the bone marrow from the common
    lymphoid progenitor cell and circulate in the
    blood
  • Antiviral Functions of NK cells
  • Cytotoxicity activated by
  • Arenaviruses (lymphocytic choriomeningitis
    virus),
  • Herpesviruses (herpes simplex virus)
  • Orthomyxoviruses (influenza virus)
  • Picornaviruses (coxsackie virus)
  • Protozoan parasite Leishmania
  • Bacterium Listeria moncytogenes

6
NK activity to viruses in Humans
  • Striking correlation between poor or no NK cell
    function and susceptibility to viruses
  • Absence of NK cells associated with papilloma
    viral infections in a female patient
  • Important in early defense
  • Shown by using mice lacking T cells- Low NK cell
    cytotoxic activity increased sensitivity
    to murine cytomegalovirus

7
NK Cell Activity
  • Develop in the bone marrow from the CLP
  • Have cytoplasmic granules
  • Can kill certain tumor cell lines in vitro
  • Mechanism of killing same as that used by
    cytotoxic T cells

8
Cytotoxicity
  • NK cells are activated by recognition of three
    types of targets
  • 1. Antibody-coated cells (antibody-dependent
    cellular cytotoxicity, or ADCC)
  • 2. Cells infected by viruses
  • 3. Cells lacking MHC class I molecules (altered
    self)

9
Activating ReceptorsActivating receptors trigger
killing by NK cell.
  • 1. Fc Receptor-Fc?RIII (CD16)
  • 2. Several classes of receptor- members of the
    Ig-like and C-type lectin family of proteins.
  • Integrate signals from two types of surface
    receptors

10
Cell Surface Receptors that Inhibit NK killing
activity
  • Fall into two families
  • C-type lectins--gt NK Receptor complex
  • Ig-like domains Killer cell Immunoglobulin-like
    receptors or KIRS
  • Mice lack KIR cluster

11
NK receptors, contd
  • Activating and inhibitory receptors fall into two
    broad structural types
  • 1. NK cell lectin-like receptor complex (NKG)
  • Killer cell-immunoglobulin-like receptors (KIR
    or NKp)
  • Most receptors are expressed by subpopulations of
    NK cells. Individual NK cells express different
    combinations of receptors providing a
    heterogeneous response to pathogens

12
Figure 8-29
13
NK receptors, contd
  • Same families contain both activating and
    inhibitory receptors

Human chromosomes
14
Activating Receptors
  • 1. Fc Receptor-Fc?RIII (CD16)
  • infected cells can express viral proteins on
    surface of infected cells-recognized by
    Antibodies (Ab)
  • Recognizes IgG1 and IgG3 Abs

15
Antibody-dependent cell mediated cytotoxicity
(ADCC)
16
Activation of NK cells through Fc?RIII
ITAM- containing ????????????????
17
Activation of NK cells through Fc?RIII
ITAM- containing ????????????????
PLC?
IP3
JNK
p38
ERK
18
Cell Surface Receptors that Activate NK killing
  • In mice
  • Ly49H interacts with MCMV encoded MHC-like
    protein m157
  • In humans
  • NKp46 interacts with sialic acid-binding
    influenza and parainfluenza viral receptors
  • 2B4, cell surface receptor of the CD2 family

19
B-EBV
CD48
NKp46-L
Lysis
NKp46
2B4
P


Ligand for 2B4 is CD48, a GPI-linked protein
whose expression is upregulated on
EBV-transformed B cells.

Activation
NK cell
20
Activating receptors of NK cells
21
Inhibitory receptors of NK cells
Inhibitory receptor engaged
NK cell not activated
22
Ligands for NK-cell receptors
  • Cell surface proteins, expression is altered in
    response to infection
  • Many MHC class I or MHC class I-like molecules
  • NKG2D binds to MIC-A and MIC-B, class I-like
    molecules that do not bind ?2-microglobulin

23
Ligands for NK-cell receptors
  • MIC-A and MIC-B expressed at high levels when an
    epithelial cell becomes infected, damaged, or
    cancerous
  • Lead to release of cytotoxic granules and
    cytokines

24
Inhibitory receptors of NK cells
Inhibitory receptor engaged
NK cell not activated
25
Function of Inhibitory Receptors
Inhibitory receptor (Kir/CD94/Ly49)
Activating receptor (NKp46)
Activated tyrosine Kinases
SHIP-1
Tyrosine phosphorylated substrates
Activation
Killing
26
Figure 8-30
27
KIR family of inhibitory and stimulatory NK-cell
receptors
  • All allotypes of HLA-C are KIR ligands.
  • Not all allotypes of HLA-A and HLA-B are KIR
    ligands.
  • Suggests that HLA-C particularly evolved towards
    control of the NK-cell response

28
Figure 8-32
29
Figure 8-33 part 2 of 2
30
Cytokines and NK cell function
  • Activated NK cells produce IFN-? to a subset of
    viruses including MCMV (murine cytomegalovirus)
    and influenza virus
  • Produce TNF-?
  • Function regulated by other cytokines including
  • IFN-???, IL-12, IL-1?, IL1?, IL-6, IL-10, TGF-?,
    IL-15 and IL-18

31
IL-12
  • Induces NK cell IFN-? production
  • Macrophage activation--gtkilling of microbes
  • Contributes to preferential development of T
    helper type I cells (IFN-?-producing cells)
  • Enhances the cytolytic functions of activated T
    lymphocytes (CTLs).

32
Antibody Response
  • Immunological Discrimination B cells
  • Neutralizing antibody responses against viruses
    prevent re-infection against the most important
    acute cytopathic human viruses, polio, measles,
    mumps
  • In several model infections, the absence of B
    cells or CD4 T helper cells (or both) results in
    impaired virus clearance and death
  • Vesicular stomatitis virus (VSV) in mice

33
Mucosal Immunity
  • MALT
  • Collection of lymphocytes and accessory cells
  • Organized into discrete lymphoid follicles
  • Host defense at mucosal membranes
  • 2-3X more IgA-secreting cells in mucosa than in
    systemic lymphoid tissue

34
Ways that IgA neutralizes viruses
  • Inhibit attachment and uptake
  • Bulky Ab can hinder adhesion
  • Bind to flagella or to the toxin
  • Agglutinate viruses

35
IgA Antibodies
  • Largely secreted as dimers by plasma cells that
    underlie the mucosal epithelium

J-chain
36
(No Transcript)
37
1 2 3 4 5 6
7 8 9 10 11 12

Days after viral infection
38
T cell-mediated response to viruses
  • Central tolerance. Not all self-encoded antigens
    expressed in thymus
  • Peripheral tolerance, anergy, vetoing,
    suppression and deletion, 2 signal model

39
T cell-mediated response to viruses
Principal mediator is the CTL or the activated
CD8 T cell
TCR/CD3 CD8
CTL
IFN-? and TNF-?
MHC-peptide
Viral infected Epithelial cell
40
Rules for the induction of mature T cells
  • After burst, antigens are taken up by mobile APC
  • Or APC are infected
  • Full differentiation of CD8 CTLs requires
    cytokines produced by CD4 helper cells (Th1
    cells)
  • CTL detected in infected tissue 5-7 days after
    exposure

41
Mechanisms of CTL-mediated lysis
  • CTLs target cells by programming them to undergo
    apoptosis

42
Mechanisms of CTL-mediated lysis
  • CTL killing is antigen-specific. MHC-specific
  • Requires cell contact. Kill only those cells to
    which they attach and bystander cells are not
    injured
  • CTLs are not injured during lysis of target cells
  • Each CTL is capable of sequentially killing
    multiple target cells
  • Lysis of infection cells
  • Stimulation of intracellular enzymes that degrade
    viral genomes

43
CTL-mediated lysis
  • Step 1. Recognition of antigen and conjugate
    formation, TCR,CD8, CD2, and LFA-1 on T cells
  • Molecules on target cells
  • Class I MHC
  • LFA-3 (ligand for CD2)
  • ICAM-1 or ICAM-2 (ligands for LFA-1)

44
Activation of the CTL
  • Step 2. Cross-linking or clustering of TCRCD3
    complexes on CTLs
  • Step 3. Delivery of a lethal hit by the
    activated CTL

45
Killing of target cell
  • Ca-dependent release of lytic granules
  • Contain perforin, Granzymes, Granulysin
  • Perforin makes holes through which granzymes can
    move
  • Is a protease that cleaves and activates Caspase 3

46
Lethal Hit
Perforin creates osmotic defects
Ca2 H2O
Granule exocytosis a perforin-mediated lysis
Lysis of targets
CD8 CTL
47
Granzyme-mediated killing
Granule exocytosis entry of granzymes activation
of caspases apoptosis of target
Granzymes enter through perforin holes activation
of caspases
Apoptosis and oxmotic lysis of cell
CD8 CTL
48
Fas-mediated killing
FasL-Fas-mediated target cell apoptosis
Apoptosis of target
Fas-L
Fas
CD8 CTL
49
4. Release of the CTL
  • Decrease in the affinity of accessory molecules
    for their ligands

50
Non-cytolytic viruses
  • CTLs may be responsible for tissue injury
  • i.e. LCMV infection in mice
  • During some generalized infections with
    non-cytopathic viruses (LCMV) in mice and
    Hepatitis B or C in humans, all antigen-specific
    T cells may be deleted

51
Bystander and CTLs are not killed
52
Role of TH cells in viral clearance
CD4 helper T cell
cytokines
CD40L
CD8 T cell
MHC Class II
CD40
Activation
MHC Class I
53
Contribution of cytokines in viral clearance
  • Secretion of cytokines IFN-? and TNF-?
  • CTLs are not likely to eradicate infections that
    affect large numbers of cells
  • IFN-? and TNF-? can purge the virus from
    thousands of additional infected cells
    noncytopathically

54
Mechanism for degrading viral RNA
IFN-?/TNF-?
AAAAAAAAAAAAA
Pre-formed HBV RNA
endonuclease
55
Immunological Memory
  • Poorly understood
  • Mediated by increased antibody levels
  • Necessary, but also sufficient, to provide
    protection against cytopathic virus infections
  • Transfer of memory antibodies from mother to
    offspring

56
  • CTL Memory
  • Lack of transfer of T cell memory from mother to
    child, T cell receptor expression requires a
    learning process
  • CTLs are induced and disappear rapidly
  • CD8 T cell frequencies are low in a normal host

57
Evasion of Immune Mechanisms
  • Viruses capable of great antigenic variation
  • Infect cells of the immune system, impairing
    their function
  • Mimic cellular genes
  • EBV protein BCRF1-an analog of cellular IL-10,
    similar to that of human IL-10
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