05a: Immunology

Question 1

(Primary/secondary) lymph nodes follicles have pale central germinal centers and are (active/dormant).

Answer 1

Secondary; active

Primary follicles are dense and dormant

Question 2

Viral infection: which part(s) of lymph node would you expect to enlarge?

Answer 2

Paracortex (T-cell zone), between follicles and medulla

Question 3

Trachea and esophagus drain to (X) lymph nodes.

Answer 3

X = mediastinal

Question 4

Which structure(s) drain to axillary lymph nodes?

Answer 4

Limbs, breast, skin above umbilicus

Question 5

Celiac nodes drain up to (X) part of GI tract. SMA drain up to (Y) part. IMA drain up to (Z) part.

Answer 5

X = upper duodenum
Y = splenic fixture (colon)
Z = upper rectum

Question 6

Lower rectum to anal canal (above pectinate line) drains to (X) lymph nodes. And anal canal below pectinate line to (Y) nodes.

Answer 6

X = Internal iliac
Y = superficial inguinal

Question 7

Vagina and cervix drain to (X) lymph nodes. Uterus drains to (Y) lymph nodes. Ovaries drain to (Z) lymph nodes.

Answer 7

X = internal iliac
Y = Z = para-aortic

Question 8

Kidneys drain to (X) lymph nodes. Bladder to (Y) lymph nodes.

Answer 8

X = para-aortic
Y = internal iliac

Question 9

Nearly all skin below umbilicus drains into (X) lymph nodes. The exception is (Y) part of leg.

Answer 9

X = superficial inguinal
Y = posterior calf and dorsolateral foot (drain into popliteal nodes)

Question 10

Prostate drains into (X) lymph nodes.

Answer 10

X = internal iliac

Question 11

T/F: R lymphatic duct only drains R side of body above diaphragm.

Answer 11

True - thoracic duct (L) drains everything else

Question 12

Why are (lymphopenia/lymphocytosis) and (thrombopenia/thrombocytosis) consequences of splenectomy?

Answer 12

Lymphocytosis and thrombocytosis - due to loss of sequestration/removal by spleen

Question 13

Periarteriolar lymphoid sheath (PAL) is found in which structure?

Answer 13

Spleen - the T cell zone

Question 14

Which structure in spleen is the site for APC capture of blood-borne antigens for lymphocyte recognition?

Answer 14

Marginal (outermost) zone of follicle

Question 15

Thymomas are associated with which two diseases?

Answer 15

1. Myasthenia Gravis

2. SVC syndrome

Question 16

In which genetic syndromes is the thymus hypoplastic?

Answer 16

1. DiGeorge

2. SCID

Question 17

MHC I protein structure: (X) number of (short/long) chains.

Answer 17

X = 2

ONE short, ONE long (for MHC ONE)

Question 18

MHC II protein structure: (X) number of (short/long) chains.

Answer 18

X = 2

TWO long/equal-length chains for MHC TWO

Question 19

MHC (I/II) is more exclusive, only present on (X) cells.

Answer 19

II
X = APCs

(MHC I on all nucleated cells)

Question 20

MHC I: (exogenous/endogenous) Ags are presented to (X) cells.

Answer 20

Endogenous (viral, cytosolic proteins)

X = CD8 T cells

Question 21

MHC II: (exogenous/endogenous) Ags are presented to (X) cells.

Answer 21

Exogenous (bacterial proteins)

X = CD4 T cells

Question 22

MHC I: antigens loaded onto receptor in (X).

Answer 22

X = RER (after delivery through transporter, TAP)

Question 23

MHC II: antigens loaded onto receptor in (X).

Answer 23

X = endosome (after acid environment releases CLIP protein that blocks MHC II binding site)

Question 24

Beta2 microglobulin is associated with MHC (I/II). And invariant chain with MCH (I/II).

Answer 24

I;

II (blocks MHC II binding site via CLIP until proper Ag present)

Question 25

Which diseases associated with HLA B27?

Answer 25

Seronegative arthropathis ("PAIR")
Psoriasis, Ankylosing spondylitis, IBD-associated arthritis, Reactive arthritis

Question 26

Which diseases associated with HLA DQ2/DQ8?

Answer 26

Celiac disease

“I 8 2 much gluten at DQ (Dairy Queen)”

Question 27

Multiple sclerosis associated with which HLA subtype?

Answer 27

DR2

Question 28

SLE associated with which HLA subtype?

Answer 28

DR2/DR3 (“2-3 for SLE”)

Question 29

DM I associated with which HLA subtype?

Answer 29

DR3/DR4

Note: so is Addison’s disease

Question 30

Hashimoto’s associated with which HLA subtype?

Answer 30

DR2/DR4

Question 31

Pernicious anemia associated with which HLA subtype?

Answer 31

DR5

Question 32

Rheumatoid arthritis associated with which HLA subtype?

Answer 32

DR4

“4 walls in a rheum”

Question 33

Candida superficial infection (ex: oral/esophageal, cutaneous, vulvovaginitis) is prevented by which members of immune system?

Answer 33

T lymphocytes (hence HIV or other low T count conditions cause superficial candidiasis)

Question 34

Candidemia or other forms of disseminated candidiasis is prevented by which members of immune system?

Answer 34

Neutrophils! (hence more likely in chemo/neutropenic patients)

Question 35

Which cytokines enhance NK cell activity?

Answer 35

IL2, IL12, IFNa, IFNb

Question 36

Target cell with (present/absent) MHC (I/II) will be killed by NK cell.

Answer 36

Absent

MHC I

Question 37

CD(X) on NK cell can activate it when binding to (Y) region of Ig.

Answer 37

X = 16
Y = Fc

Question 38

T/F: T cells responsible for both acute and chronic cell organ rejection.

Answer 38

True

Question 39

Helper T cell can become TH1 differentiated with help of (X) cytokines.

Answer 39

X = IL-12, IFN-gamma

Question 40

Helper T cell can become TH2 differentiated with help of (X) cytokines.

Answer 40

X = IL-2, IL-4

Question 41

Helper T cell can become TH17 differentiated with help of (X) cytokines.

Answer 41

X = IL-6, TGF-beta

Question 42

Helper T cell can become Treg differentiated with help of (X) cytokines.

Answer 42

X = TGF-beta

Question 43

Thymus: self-antigens found in tissues are expressed during negative selection by the action of (X). Deficiency of (X) leads to which syndrome?

Answer 43

X = AIRE (autoimmune regulator)

Autoimmune polyendocrine syndrome 1

Question 44

TH1 cell inhibits TH2 differentiation by secreting (X). And TH2 inhibits TH1 differentiation by secreting (Y).

Answer 44

X = IFN-gamma
Y = IL-4, IL-10

Question 45

Main action of TH1-differentiated T cells

Answer 45

Activate macrophages and cytotoxic T cells

Question 46

Main action of TH2-differentiated T cells

Answer 46

Recruit eosinophils (parasite defense) and IgE production by B cells

Question 47

T/F: NK cells and cytotoxic lymphocytes kill via same mechanism.

Answer 47

True - perforin and granzyme release causes cell apoptosis

Question 48

T-regulatory cells produce (X) cytokines and are identified by expression of which receptors?

Answer 48

X = anti-inflammatory (IL-10, TGF-beta)

CD3, CD4, CD25, FOXP3

Question 49

Which costimulatory signal is required for T cell activation? And for B cell activation/class switching?

Answer 49

T cell: CD28 (on helper/cytotoxic T cell) with B7 (on APC)

B cell: CD40 (on B cell) with CD40L (on helper T Cell)

Question 50

Three steps/components of generating antibody diversity (independent of antigen)

Answer 50

1. VDJ (heavy chain) and VJ (light chain) gene recombination
2. Random NT addition to DNA by TdT during recombination
3. Random heavy and light chain combinations

Question 51

Two steps/components of generating antibody specificity (dependent on antigen)

Answer 51

1. Somatic hypermutation and affinity maturation (in variable region of Ab)
2. Isotype switching (of Ab constant region)

Question 52

T/F: IgG is the isotype that is most abundant in serum and produced the most overall.

Answer 52

False - most abundant in serum, but IgA is the isotype produced most (despite low serum conc)

Question 53

If you could test for antibodies in your tears, which isotype would you expect to find?

Answer 53

IgA (released into secretions like saliva, tears, mucus, breast milk)

Question 54

The antibody receptor on B cells that recognizes antigen is which isotype?

Answer 54

IgM (monomer form)

Question 55

Vaccination: antigens (containing/lacking) (X) component often require boosters/adjuvants. Why?

Answer 55

Lacking;
X = peptide (ex: LPS on G- bac)

No protein component means can’t be presented on MHC (thymus-independent; weakly immunogenic)

Question 56

T/F: NK cells kill by cell lysis.

Answer 56

False - perforins make holes in target cell, granzymes enter and induce APOPTOSIS

Question 57

Major component of adaptive immunity against Giardia is:

Answer 57

IgA (deficiency predisposes to chronic giardiasis)

Question 58

Acute phase reactants are produced by (X) and notably induced by (Y) cytokine.

Answer 58

X = liver
Y = IL-6

Question 59

Iron (absorption/release/sequestering) is increased in state of inflammation due to action of which acute-phase reactant(s)?

Answer 59

Absorption and release are decreased (via hepcidin); sequestering into cells is increased (via ferritin)

Question 60

Hepatic synthesis of which two key proteins is down-regulated in response to inflammation?

Answer 60

1. Albumin (to conserve AA for acute-phase reactants)

2. Transferrin (to keep iron sequestered in macrophages)

Question 61

List the 3 complement pathways and the activators of each

Answer 61

1. Classic: IgG, IgM (“GM makes classic cars”); Ag-Ab complexes
2. Alternative: microbe surface molecules
3. Lectin: mannose/sugars on microbe surface

Question 62

The three complement pathways find common ground/converge on (X).

Answer 62

X = C3 (cleavage into C3a, C3b)

Question 63

Complement: C4b2b is also known as (X) and is formed from which complement pathway(s)?

Answer 63

X = C3 convertase

Lectin (C4b) plus Classic (C2b) pathways

Question 64

Complement: C3bBb is also known as (X) and is formed from which complement pathway(s)?

Answer 64

X = C3 convertase

Alternative (C3b) pathway (plus B cleavage product into Bb)

Question 65

Complement: C4b2b3b is also known as (X).

Answer 65

X = C5 convertase (can also arise from C3bBb3b product)

Question 66

MAC complex is composed of which complement factors?

Answer 66

C5b-C9

Question 67

Which complement factors are responsible for anaphylaxis?

Answer 67

C3a, C4a, C5a (“a” for “anaphylaxis”)

Question 68

Which factor deficiency is associated with severe, recurrent pyogenic sinus/resp infections as well as high susceptibility to type III HS rxns?

Answer 68

C3 deficiency (immune complexes can’t be cleared)

Question 69

Low C1 esterase inhibitor is diagnostic for (X). The pathogenesis of this disease is centered around (activation/inhibition) of (Y).

Answer 69

X = hereditary angioedema (AD inheritance)

Unregulated activation of kallikrein (high bradykinin)

Question 70

IL-1 function(s)

Answer 70

1. Fever, inflammation
2. Endothelial activation to express adhesion molecules
3. Chemokine secretion

“Hot (IL-1) T-bone stEAK”

Question 71

IL-2 function(s)

Answer 71

Stimulates growth of T cells (as well as NK cells)

“Hot T (IL-2)-bone stEAK”

Question 72

IL-3 function(s)

Answer 72

Stimulates bone marrow (growth/differentiation of stem cells; similar to GM-CSF)

“Hot T-bone (IL-3) stEAK”

Question 73

IL-4 function(s)

Answer 73

Induces TH2 differentiation and B cell growth; IgE (and IgG) class switch

“Hot T-bone stE(IL-4)AK”

Question 74

IL-5 function(s)

Answer 74

Growth/differentiation of B cells and IgA class switch; eosinophil growth/differentiation

“Hot T-bone stEA(IL-5)K”

Question 75

IL-6 function(s)

Answer 75

aKute phase reactants

“Hot T-bone stEAK(IL-6)”

Question 76

PMN phagolysosome: first key step is converting (X) to (Y) with which enzyme?

Answer 76

X = O2
Y = O2- (free radical)

NADPH oxidase (deficient in chronic granulomatous disease)

Question 77

PMN phagolysosome: second key step is converting (X) to (Y) with which enzyme?

Answer 77

X = O2- (free radical)
Y = H2O2

superoxide dismutase

Question 78

PMN phagolysosome: Bleach can be formed via which reaction/enzyme?

Answer 78

H2O2 combined with Cl (enzyme: myeloperoxidase)

Question 79

Green sputum: what gives it the color?

Answer 79

Myeloperoxidase

Question 80

(X) enzyme in neutrophil converts H2O2 to H2O by (oxidizing/reducing) glutathione. What does it require for proper function?

Answer 80

X = Glutathione peroxidase
Oxidizing

Selenium

Question 81

Glutathione reductase work by simultaneously (oxidizing/reducing) (NADP/NADPH). The reaction requires (X) for proper function.

Answer 81

Oxidizing; NADPH

X = riboflavin

Question 82

IFN-alpha and beta are secreted by (X) cells and act on (Y).

Answer 82

X = virus-infected cells ("INTERFERe with viruses")
Y = local uninfected cells ("prime them" by inducing them to decrease protein synthesis and upregulate MHC expression)

Question 83

Macrophages express CD(X) receptor for PAMPs like bacterial LPS.

Answer 83

X = 14

Question 84

T and B cells become anergic when:

Answer 84

Exposed to antigen without co-stimulatory signal

Question 85

Superantigens, such as those produced by (X) bacteria, cause massive release of cytokines by which mechanism?

Answer 85

X = S. aureus, S. pyogenes

Cross-link beta region of TCR to MHC II on APCs (can activate any CD4 T cell)

Question 86

T/F: Shock caused by N. meningitides is mediated by T-helper cells.

Answer 86

False - endotoxins/LPS directly stimulate macrophages by binding TLR (CD14); no T cells involved