Immunology Week 1

Question 1

What is an Immunogen?

Answer 1

an antigen that induces an immune response

Question 2

What is an Antigen?

Answer 2

A molecule that binds to (is recognized) by antibody or T cells

Question 3

What factors will DECREASE immunogeicty?Regarding:SizeDoseRouteCompositionForm (2)Similarity to self proteinAdjuvants (2)Interaction with host MHC

Answer 3

Size: Small (MW <2500)Dose: High or LowRoute: intravenous or intergastricComposition: SimpleForm: Soluble and NativeSimilarity to self protein: Few differencesAdjuvants (2): Rapid Release and No BacteriaInteraction with host MHC: Ineffective

Question 4

What factors will INCREASE immunogeicty?Regarding:SizeDoseRouteCompositionForm (2)Similarity to self proteinAdjuvants (2)Interaction with host MHC

Answer 4

Size: LargeDose: IntermediateRoute: Subcutaneous Composition: ComplexForm: Particulate and DenaturedSimilarity to self protein: Multiple differencesAdjuvants (2): Slow release and BacteriaInteraction with host MHC: Effective

Question 5

What mutation results in Chrones Disease?

Answer 5

A mutation in Nod-like receptors that cause over-activation of immune system

Question 6

Which cells come from the common myeloid progenitor? (6)

Answer 6

Erythrocytes, Platelets, Basophils, Eosinophils, Neutrophils, Monocytes

Question 7

Which cells come from the Common Lymphoid Progentior? (3)

Answer 7

B lymphocytes, T lymphocytes, NK Cells

Question 8

What are the physical characteristics of a monocyte? (2)

Answer 8

Large cellLots of cytoplasm

Question 9

What are the physical characteristics of a lymphocyte?

Answer 9

Little cytoplasm

Question 10

What are the physical characteristics of a neutrophil?

Answer 10

Awkwardly shaped, multi-lobed nucleus and small granulesMost abundant immune cell in circulation

Question 11

What are the physical characteristics of a Eosinophil?

Answer 11

Purple nucleus with a ton of red granuals

Question 12

What are the defining physical characteristics of Basophils?

Answer 12

Purple dots

Question 13

What are the defining physical characteristics of Mast Cells?

Answer 13

Purple dots

Question 14

What do Basophils release?

Answer 14

IL4

Question 15

What do Mast Cells release? (2)

Answer 15

Heparin and Histamine

Question 16

What is the primary role of Dendritic Cells?

Answer 16

Dendritic cells are Antigen Presenting Cells - primary role is to transport and present microbial antigens to T lymphocytes in peripheral lymphoid tissues

Question 17

What do Natural Killer Cells secret? (2)

Answer 17

The cytotoxins perforin and granzyme

Question 18

What activates Natural Killer Cells? (4)

Answer 18

IFN-a, IFN-b, IFN-y, IL-12

Question 19

What are the Primary (generative) Lymphoidal Tissues? (2)

Answer 19

Bone Marrow and Thymus

Question 20

What are the Secondary (Peripheral) Lymphoid Tissues? (3)

Answer 20

Lymph Nodes, Spleen, and Mucosal or Skin-associated lymphatic tissue (MALT/SALT)

Question 21

What is the role of Bone Marrow? (2)

Answer 21

Generation of hematopoietic progenitorsB lymphocyte maturation

Question 22

What is the role of the thymus?

Answer 22

T Cell maturation

Question 23

What is the structure of the thymus? (2)

Answer 23

There is a Cortex on the outer edges and the Medulla in the middle

Question 24

What is contained in the periarteriolar lymphoid sheath (PALS) and where is this?

Answer 24

T Cells in the Spleen

Question 25

What is contained in the follicle and where is this?

Answer 25

B Cells in the Spleen

Question 26

How can you differentiate between the T Cell zone and the B cell zone in an H&E stain?

Answer 26

The B cell zone (follicles) will be light blue, while the T Cell Zone (PALS) will be dark blue.

Question 27

What color do T Cell Zones and B Cell Zones stain respectively?

Answer 27

T Cell Zone: redB Cell Zone: green

Question 28

What is a Peyer’s patch?

Answer 28

Specialized lymphatic tissue in the Ilium

Question 29

What do all innate immune defenses have in common? (3)

Answer 29

1) They rely on mechanisms that exist before infection2) They are capable of responding rapidly to microbes3) They react in the same way to repeat infections

Question 30

What is the role of epilthelia in the immune system? (2)

Answer 30

1) Physical barrier to infection2) Killing of microbes by locally produced antibiotics (AMPS)

Question 31

What is an AMP and what is its mechanism? (antimicrobial peptide)

Answer 31

AMPs are peptides created by epithelial cells that are targeted towards microbe-containing environments (ex. GI lumen), they act alone to kill bacteria, fungi and virus by forming pores in their membranes.

Question 32

What is the AMP that is specific to humans called?

Answer 32

defensins

Question 33

What is Tamm-Horsfall protein (THP)

Answer 33

A part of epithilia defense. Inhibits uropathogenic E. coli from binding to epithelia along the urinary tract

Question 34

What is Lactoferrin?

Answer 34

A part of epithilia defense. A glycoprotein that sequesters free iron, which is essential for bacteria. Also oxidizes and breaks bacteria cell walls.

Question 35

What is the role of Mucus in the immune system?

Answer 35

A part of epithelial defense. A glycocalyx that prevents microbes from reaching the epithelial surface.

Question 36

What is the purpose of commensals? (4)

Answer 36

1) compete for resources with more virulent organisms2) produce their own AMPs3) keep innate immune cells in an “attentive” state4) lower vaginal pH

Question 37

What are examples of resident macrophages?

Answer 37

1) Microglial cells (CNS)2) Kupffer cells (liver)3) Alveolar macrophages (lung)4) Osteoclasts (bone)

Question 38

What is the difference between an activated and unactivated DC cell?

Answer 38

unactivated: serve as sentinel cells in nearly every tissueactivated: moves to draining lymph nodes, where they stimulate adaptive immunity

Question 39

What is Chronic Granulomatous Disease?

Answer 39

Deficiency in PMN function, associated with chronic and severe bacterial/fungal infections

Question 40

Upon ingestion, what methods to phagocytes use to kill microbes? (4)

Answer 40

1) Phago-Lysosome fusion: lysosome fuses with phagosome and releases enzymes2) Myeloperoxidase (MPO): produces HOCL from H2O2 and Cl-3) NADPH oxidase: produces superoxide4) iNOS: produces nitric oxide from arginine

Question 41

What enzymes do lysosomes contain to kill microbes? (5)

Answer 41

Lysozyme, Defensins, Lactoferrin, Hydrolases, MPO

Question 42

What is puss made up of? (3)

Answer 42

1) The accumulation of live and dead PMNs2) Material destroyed by the PMNs3) enzymes

Question 43

What are the characteristics of an activated macrophage? (3)

Answer 43

1) enhanced phagocytosis due to increased transcription and translation of phagocytosis associated enzymes2) secrete pro-inflmmatory cytokines3) couple phagocytosis to antigen presentation on MHC class II molecules

Question 44

How do DC cells differ from macrophages? (3)

Answer 44

DC cells:1) are more efficient at processing phagocytosed microbes into antigens2) “dentrites” extend from cell body3) better at moving to lymph

Question 45

What is the purpose of Granulocytes in the immune system?

Answer 45

defense against helminth parasites

Question 46

What are the granulocyte cells? (3)

Answer 46

Eosinophils, Basophils, Mast cells

Question 47

How do granulocytes kill parasites?

Answer 47

A receptor binds to the helminth parasite and the granulocyte releases its granules into the EC space (termed “degranulation”)

Question 48

What activates phagocytes?

Answer 48

PAMPS and DAMPS

Question 49

What activates granulocytes?

Answer 49

Ag-bound IgE binding cell surface FcRI

Question 50

What are the contents of granules? (5)

Answer 50

1) vaso-active amines (histamine): cause smooth muscle contraction/parasite expulsion from gut2) Proteases: disrupts parasite tegument3) Prostaglandins4) Leukotriens5) Cytokines

Question 51

Why are NK cells considered part of the innate immune system? (2)

Answer 51

1) Dependent on activating receptors that are germline-encoded (as oppose to through recombination)2) Response not dependent on previous antigen exposure

Question 52

What are the functions of NK cells? (3)

Answer 52

1) Kill virus infected cells by lysis 2) Kill tumors by lysis3) Kill phagocytosed microbes

Question 53

How do NK cells kill phagocytosed microbes? (3)

Answer 53

1) Macrophages that have engulfed a microbe release interluekin-12 (IL-12). 2) NK Cells respond to IL-12 by releasing interferon gamma (IFN-y)3) IFN-y activates macrophages to kill phagocytosed microbes

Question 54

What is the relative abundence of NK cells?

Answer 54

Low abundance, less than 10% of lymphocytes

Question 55

What markers do NK Cells express? (3)

Answer 55

CD16, CD56, CD2

Question 56

What markers do Nuetrophils express?

Answer 56

CD16

Question 57

What markers do Monocytes and macrophages express?

Answer 57

CD16

Question 58

What markers do T helper and Cytotoxic cells express?

Answer 58

CD56

Question 59

How are NK cells activated to kill a cell?

Answer 59

NK cells have an inhibitory receptor and an activating receptor. The inhibitory receptor will bind to a self class I MHC molecule. The activating receptor will bind to an activating ligand. NK cells will be activated when the inhibitory receptor is not engaged by MHC class I molecules AND when the activating receptor is engaged by activating ligands.

Question 60

How are NK cells inactivated?

Answer 60

NK cells have an inhibitory receptor and an activating receptor. The inhibitory receptor will bind to a self class I MHC molecule. The activating receptor will bind to an activating ligand. NK cells will be inactivated when the inhibitory receptor is engaged regardless of whether the activating receptor is engaged or not.

Question 61

How do NK cells compliment the role of T cells?

Answer 61

Many viruses will down-regulate MHC in order to evade the adaptive immune system. While successful, down regulating MHC will then allow NK cells. and thus the innate immune system, to kill the infected cell because it’s inhibitory receptor will not be bound.

Question 62

How is NK cell lysis of infected or tumor cells carried about? (5 steps) Include the roles of three important molecules involved in the granule.

Answer 62

1) NK cell forms tight junctions with target cell2) releases Granzyme and Perforin in a complex with Serglycine3) Granule enters the cell via endocytosis4) Granzme is released via perforin dependent process5) Granzyme induces apoptosis

Question 63

What is anti-body dependent cellular cytotoxicity (ADCC?)

Answer 63

Anti-bodies of certain IgG subclasses bind to infected cells. The NK cell’s Fcy receptor recognizes these antibodies and is activated, killing the infected cell.

Question 64

What is the source of peptides that load onto Class I MHC molecules?

Answer 64

Inside (Cytoplasm)

Question 65

What is the source of peptides that load onto Class II MHC molecules?

Answer 65

Outside (Extra-Cellular)

Question 66

How are proteins tagged for degradation?

Answer 66

Ubiquitin chain added to lysine residues

Question 67

What are the similarities between peptides that bind to Class I MHC molecules? (3)

Answer 67

1) 9 residues long2) hydrophobic amino acid at the 9 position3) An anchoring region at positions 2 and/or 3 (Glycine and Proline at the 2 and 3 position in one example, tyrosine at the 2 position in another example)

Question 68

How does a virus infected cell create more peptides suitable for binding to Class I MHC molecules? (3 steps)

Answer 68

1) IFN-y induces expression of 3 replacement proteosome subunits called LMP2) these subunits up-regulate chymotrypsin3) chymotrypsin is a protease that cleaves peptides before hydrophobic amino acids

Question 69

What is an immunoproteosome?

Answer 69

A proteosome that has incorporated the 3 beta-protesome subunits (LPMs)

Question 70

What has to happen to a protein in order to get into a proteosome? (2)

Answer 70

1) ubiqutin cap needs to be removed2) protein needs to be unfolded/stretched out

Question 71

What does the proteosome’s 19s cap do?

Answer 71

Removes the ubiqutin cap so the protein can enter proteosome

Question 72

What does the TAP molecule do?

Answer 72

Transports peptides into the ER

Question 73

How long are peptides after being degraded by the proteosome?

Answer 73

4-20 amino acid residues

Question 74

What is the structure of the TAP transporter?Membrane spanning domains?Substrate?Types of peptides?Size of peptides?

Answer 74

Membrane spanning domains: 12Substrate: only peptidesTypes of peptides: Peptides ending in hydrophogic aa (Leucine, Isoleucine, valine or methionine)Size of peptides: 6-15 aa

Question 75

What is the structure of Class I MHC molecule?Subunits?Substrate Size Range?

Answer 75

Subunits: light chain (beta-2 microglobulin) and a heavy chainSubstrate Size Range: 8-10 aaNote* the peptide itself can be considered a subunit because it is needed to keep the molecule together

Question 76

What is tapasin?

Answer 76

Tapasin tethers newly synthesized class I MHC molecules to TAP so it is in close proximity for peptides to bind

Question 77

How does a T cell know whether it is seeing self or foreign peptide? (4 steps)

Answer 77

1) in the newborn, T cells have the capacity to recognize everything2) T cells that tightly bind to self-peptide + self-MHC molecule die3) T cells that don’t bind to anything die4) the only T cells that are left DON’T bind tightly to self-peptide + self-MHC molecules

Question 78

When does a T cell kill a cell?

Answer 78

T cells kill cells when they tightly bind to the peptide + MHC molecule

Question 79

What is alloreactivity?

Answer 79

When a T cell binds tightly to someone elses peptide + MHC complex, thus killing that cell (graft rejection)

Question 80

What is the light chain of a Class I MHC molecule called?

Answer 80

beta-2 microglobulin

Question 81

What is the structure of a Class II MHC molecule?Subunits?Substrate Size Range?

Answer 81

Subunits: alpha heavy chain, beta heavy chainSubstrate size range: 10-16 (can be 30 or longer)Note* the peptide itself can be considered a subunit because it is needed to keep the molecule together

Question 82

What makes up the peptide-binding cleft for a Class I MHC molecule? Which domains? (2)

Answer 82

Heavy Chain - alpha1 and alpha2 domains

Question 83

What makes up the peptide-binding cleft for a Class II MHC molecule? Which domains? (2)

Answer 83

Alpha heavy chain and beta heavy chain - alpha1 and beta1 domains

Question 84

What mediates the proteolysis of antigen into peptides for Class II MHC molecules?

Answer 84

lysosomes

Question 85

What types of cells do Class I MHC molecules display their peptides to?

Answer 85

CD8 T cells

Question 86

What types of cells do Class II MHC molecules display their peptides to?

Answer 86

CD4 T cells

Question 87

What are cathepsins?

Answer 87

lysosomal protease

Question 88

What is the optimal p.H. for cathepsins?

Answer 88

p.H. of 5

Question 89

What is the MIIC?

Answer 89

the lysosome that makes up the MHC Class II compartment

Question 90

What is the role of invarient chain in the ER? (3)

Answer 90

1) Scaffold and stablizer for Class II MHC molecule2) provides a barrier to peptides while the MHC molecule is in the ER3) Molecular zip code for MHC to go to MIIC lysosome

Question 91

What is the role of invarient chain in MIIC?

Answer 91

1) Invarient chain is cleaved by lysosomal enzymes so that it only fills the peptide binding site (last piece called CLIP)2) HLA-DM de-stabilizes peptides bound in the cleft3) Peptides continue to bind until DM can not dislodge it

Question 92

What is the structure of the invarient chain bound to the Class II MHC molecules?

Answer 92

3 Invarient chains bind to 3 class II molecules to form a trimer

Question 93

What is CLIP?

Answer 93

The piece of inviarient chain left bound to the peptide binding site in the lysosome

Question 94

What is HLA-DM?

Answer 94

An enzyme that de-stablizes peptides bound in the peptide binding cleft of MHC Class II.

Question 95

How can self peptides be presented by class II MHC molecules?

Answer 95

Macrophages can engulf dead cells and brought to the lysosome

Question 96

What is cross-presentation and which cells do it?

Answer 96

Cross-presentation is the process that allows dendritic cells to present peptides on class I MHC molecules along with Class II MHC molecules despite engulfing the virus or bacteria without being infected.

Question 97

What is CD1?What does it bind?Similarity to Class I MHC?Similarity to Class II MHC?Which cell types have CD1?Which cell types recognize complex?

Answer 97

Bind: CD1 is an antigen presentation molecule that binds lipids. Like Class I MHC: lipid binds to b2m in cleftLIke Class II MHC: travels with invarient chain to lysosomeWhich cell is it in: Only present in antigen presenting cellsWhat cell type recognizes CD1: NK T cells recognize lipids with CD1

Question 98

Which cells are antigen presenting cells? (3)

Answer 98

B Cells, Dendritic cells, Macrophages

Question 99

Which cells contain MHC Class II

Answer 99

Only antigen presenting cells

Question 100

Why does cross-presentation need to happen?

Answer 100

Both CD4 and CD8 T cells are needed to eradicate an infection, so both microbial peptides need to be presented by both MHC Class I and MHC Class II molecules.

Question 101

If a dendridic cell engulfs a bacteria, which class MHC cell will present bacteria peptides?

Answer 101

Both Class I and Class II (because of cross-presentation

Question 102

What is passive immunity? How long does it last?

Answer 102

Transferring anti-bodies specific to a certain antigen to another host in order to impart immunity. Half life of a anti-body is only about 30 days so needs to give them the anti-body very couple months.

Question 103

What is MHC restriction?

Answer 103

T cell receptors bind to MHC molecules based on both the antigen and self-MHC molecule, so even if a T cell receptor is specific for an antigen, it won’t work unless it see’s the self MHC molecule as well.

Question 104

What genes are encoded by the Major Histocompatibility Complex Locus? (12)

Answer 104

Complex I: 3 genes: HLA-A, HLA-B, HLA-C (3 domains of the heavy chain)Complex II: 6 genes: HLA-DR, HLA-DQ, HLA-DP (alpha and beta for each)Related Proteins: HLA-DM, TAP, LMP

Question 105

What chromosome is MHC gene on?

Answer 105

6

Question 106

Genetically, how can T cells see such a wide verity of antigens? (3)

Answer 106

polygenic: 3 genes code for MHC I, 6 genes code for MHC IICo-dominent: alleles from each parent will contribute to phenotype, so you will have 6 different alleles for Class I MHC contributing to structure.Polymorphic: most polymorphic genes in body. Huge number of allel’s in the population, providing a large variety of possible phenotypes

Question 107

What are the chances that 2 siblings share the same ten MHC gene products? Why is it so high?

Answer 107

25% - because the genes are inherited as a chunk (they are linked) unless there is recombination between the genes theselves (rare)

Question 108

Which domains of MHC Class I and Class II molecules show the greatest polymorphism? Why?

Answer 108

Class I: alpha1 and alpha2Class II: beta1These domains are membrane distal, these domains have a direct effect on which peptides bind.

Question 109

How do MHC molecules each individual has bind to such a verity of antigens?

Answer 109

1) the loose constraints that limit what type of peptide can bind allows for up to 1000 different types2) each allelic version binds a different set of peptides

Question 110

What are the benefits of MHC polymorphism?

Answer 110

A virus may escape notice by one individual’s MHC molecules, but not an entire populations.

Question 111

What consistent characteristic do non-responders to the Hepatitis B vaccine share? Why does this cause non-responsiveness?

Answer 111

They have the alleles HLA-DR7 and HLA-DR3Causes vaccine not to work because T-Cells are defective in recognizing the antigen

Question 112

What is Ankylosing Spondylitis and how is it linked to the immune system? What is a possible reason?

Answer 112

It’s an inflammatory disease of vertebral joints.93% of those who have it also have HLA-B27Hypothesis: B27 might be good at presenting a similar peptide to a bacteria peptide, so when T-Cells respond to the bacteria peptide, they also respond to their own cells.