Immunology

Question 1

Describe features of innate immunity

Answer 1

Non-specific
Instinctive
Does not depend on lymphocytes

Question 2

Describe features of adaptive immunity

Answer 2

Specific ‘acquired’ immunity
Requires lymphocytes
Antibodies

Question 3

What is the general purpose of immune system?

Answer 3

To distinguish from self and non-self

Question 4

What are the three types of leukocytes

Answer 4

Lymphocytes
Phagocytes
Auxillary cells

Question 5

What cell do all leukocytes originate from

Answer 5

Haematopoietic Pluripotent/Multipotent Stem Cell

Question 6

What progenitor cells are formed from haematopoietic pluripotent stem cells

Answer 6

Myeloid Progenitor

Lymphoid Progenitor

Question 7

Which two cells in blood (or tissue) derive from haematopoietic pluripotent stem cells but not a progenitor cell (from hp stem cells)

Answer 7

Eosinophil

Basophil

Question 8

What 4 cells/parts of the blood derive from Myeloid progenitors

Answer 8

Erythrocytes
Platelets
Monocytes
Neutrophils

Question 9

What cell forms platelets

Answer 9

Megakaryocyte

Question 10

What cell forms erythrocytes

Answer 10

Reticulocytes

Question 11

What do monocytes differentiate into?

Answer 11

Macrophages

Question 12

What are 2 types of cells macrophages can differentiate into

Answer 12

M1 and M2

Question 13

What chemicals allow differentiation of macrophages into M1 cells

Answer 13

LPS

INF(gamma)

Question 14

What chemicals allow differentiation of macrophages into M2 cells

Answer 14

IL-4
IL-13
TGF(beta)

Question 15

What cells are formed from lymphoid progenitor

Answer 15

B cell
T cells (regular, helper, cytotoxic)

Question 16

How is B cell formed form Haematopoietic pluripotent stem cell

Answer 16

HP stem cell > Lymphoid progenitor >Pro-B cell > Pre-B cell > B-cell

Question 17

What cell can lymphoid progenitor differentiate into which can then differentiate into T-cells

Answer 17

Thymocyte

Question 18

Where are thymocytes found

Answer 18

Thymus

Question 19

What 2 types of cells can B cells differentiate into

Answer 19

Plasma cell
Memory cell (only some)

Question 20

Where do plasma cells and T-cells drain into

Answer 20

Lymph nodes

Question 21

What cells are considered Polymorphonuclear leukocytes

Answer 21

Neutrophils
Eosinophils
Basophils

Question 22

How big are neutrophils

Answer 22

10-14 micro metres

Question 23

What is the normal lifespan of a neutrophil

Answer 23

6h to 12d

Question 24

What is the normal concentration of neutrophil in the blood and what % of cells does this make up

Answer 24

3000 to 11000 per mm^3 blood

65%

Question 25

What is CD66b

Answer 25

activation marker for human granulocytes (but full understanding on eosinophils not known)
expressed by neutrophils

Question 26

what is the role of Neutrophils in INNATE immunity

Answer 26

Phagocytosis

Question 27

What are 2 main intracellular granules of neutrophils

Answer 27

Primary lysosomes

Secondary granules

Question 28

What chemicals are found in primary lysosomes in neutrophils

Answer 28

Enzymes:
Myeloperoxidase
Muramidase
Acid hydrolyses
Proteins (Defensins)

Question 29

What is function of primary lysosomes in neutrophils

Answer 29

Combine with phagosomes containing microbes to digest them

Question 30

What chemicals are found in secondary granules in neutrophils

Answer 30

Lactoferrin

Lysozyme

Question 31

How do neutrophils kill microbes

Answer 31

By secreting toxic substances like superoxides

Question 32

Which of these is not a feature of neutrophils:

• Primary lysosomes combine with phagosomes containing microbes to digest them
• They have Fc and complement receptors
• They can kill microbes by secreting toxic substances
• Primary granules contain lactoferrin and lysozyme
• They are 10-14 micro m

Answer 32

Secondary granules contain lactoferrin and lysozyme (not primary)

Question 33

Describe monocyte

Answer 33

Mononuclear leukocyte

Question 34

What is size of monocyte

Answer 34

14-24 micro metres

Question 35

What is concentration of monocytes in blood and what is % of monocytes amongst other cells of blood

Answer 35

100-700 per mm^3 blood

5%

Question 36

What is CD14

Answer 36

Expressed by Monocytes (also dendritic cells, neutrophils (to much lesser extent) and macrophages)
Pattern Recognition receptor
for pathogenic activity and for bacterial lipopolysaccharide (LPS)

Question 37

What are roles of monocytes or macrophages in innate and adaptive immunity

Answer 37

Phagocytosis

Ag presentation

Question 38

What is main role of monocytes

Answer 38

remove any foreign or dead microbes

Question 39

How do monocytes kill microbes

Answer 39

Have lysosomes containing peroxidase that can kill microbes

Question 40

What receptors are found on monocytes

Answer 40

Fc (antibody) receptor 
Complement receptors
Pattern Recognition receptors (PRR)
Toll-like receptors
Mannose receptors

can bind to all kinds of microbes

Question 41

What cells do monocytes differentiate into

Answer 41

Macrophages

Question 42

What is general lifespan of monocyte

Answer 42

Months

Question 43

What is the main role of macrophages

Answer 43

Most often first line of non-self recognition
Remove foreign (microbes) and self (dead/tumour cells)

Question 44

What are other features of macrophages

Answer 44

Can bind to all kinds of microbes as have Fc, complement, Scavenger, Toll-like, mannose receptors
Present Ag to T-cells
Have lysosomes containing peroxidase (free radicals)

Question 45

What is general lifespan of macrophages

Answer 45

Months/years

Question 46

Where do monocytes reside and where do macrophages reside generally

Answer 46

Monocytes - blood

Macrophages - tissue

Question 47

What cells are considered mononuclear leukocytes

Answer 47

B lymphocytes
T lymphocytes
Monocytes

Question 48

What is general size of eosinophil

Answer 48

10-14 micro metres

Question 49

What is concentration of eosinophil and what is percentage in cells of blood

Answer 49

100-400 per mm^3 blood

5%

Question 50

What is lifespan of eosinophil

Answer 50

8 to 12 days

Question 51

What is CD125

Answer 51

Expressed by eosinophils

Alpha subunit of the Interleukin-5 receptor

Question 52

What dyes do eosinophil granules stain for

Answer 52

Granules satin for acidic dyes (eosin)

Question 53

What are roles of eosinophils

Answer 53

Countering Parasitic infections and allergic reactions

Question 54

How do eosinophils counter parasitic infections

Answer 54

Granules contain Major Basic Protein which is a potent toxin for helminth worms

Question 55

How do eosinophils counter allergic reactions

Answer 55

Major Basic Protein activates neutrophils.

This induces histamine release from mast cells and provokes bronchospasm.

Question 56

Size of basophils

Answer 56

10-12 micro m

Question 57

Conentration of basophils in blood and concentration in blood

Answer 57

20-50 per mm^3 blood

0.2% (lowest of cells)

Question 58

What is average lifespan of basophil

Answer 58

2 days

Question 59

Which of these statements regarding basophils is false:
Granules stain for basic dyes
Very similar to mast cells
They are generally 14-20 micro m

Answer 59

They are generally 10-12 micro m

Question 60

What are basophils or mast cells involved in

Answer 60

Immunity to parasitic infections

Allergic Reactions

Question 61

How are basophils involved in causing allergic reactions

Answer 61

Express high-affinity IgE receptors (FcεR1)

Binding of IgE to receptor causes de-granulation releasing Histamine (causes allergic reactions)

Question 62

What is size of mast cell

Answer 62

10-14 micro m

Question 63

Where are mast cells found

Answer 63

Only in tissues

Precursor in blood

Question 64

How are mast cells similar to basophils

Answer 64

Also express high-affinity IgE receptors (FcεR1)

Binding of IgE to receptor causes de-granulation releasing Histamine (causes allergic reactions)

Question 65

What is a key role of tissue macrophages and give 3 examples

Answer 65

Maintenance of tissue homeostasis through clearance of cellular debris (especially following infection or inflammation):

• Alveolar macrophages (clear microorganisms and debris encountered in air)
• Gut macrophages (bactericidal activity)
• Osteoclasts (giant multinucleate cells that resorb bone)

Question 66

What is size of T lymphocytes

Answer 66

5-12 micro m

Question 67

What is concentration of T lymphocytes in blood and % in blood

Answer 67

300 to 1500 per mm^3 blood

10%

Question 68

What is lifespan of T-lymphocytes

Answer 68

hours to years

Question 69

Where do T lymphocytes mature

Answer 69

Thymus

Question 70

What is CD3

Answer 70

T cell receptor complex

Question 71

How do T-lymphocytes play a large role in adaptive immunity

Answer 71

recognise peptide Ag displayed by Antigen Presenting Cells (APC)

Question 72

What are 4 main types of T lymphocytes

Answer 72

T helper 1 (CD4)
T helper 2 (CD4)
Cytotoxic T cell (CD8 - can kill cells directly)
T reg (Fox P3) - regulate immune response (dampens)

Question 73

Where are T lymphocytes and B-lymphocytes found

Answer 73

Blood, Lymph nodes and spleen

Question 74

What is difference between T helper 1 and T helper 2 cells

Answer 74

T helper 1 CD4 - help immune response intracellular pathogens
T helper 2 CD4 - help produce antibodies - extracellular pathogens

Question 75

What is size of B lymphocyte

What is concentration of them in blood and what % of cell content do they make up

Answer 75

5-12 micro m
300-1500 per mm^3 blood)
15%

Question 76

What is lifespan of B lymphocytes

Answer 76

Hours to Years

Question 77

How do B-lymphocytes play a large role in adaptive immunity

Answer 77

Recognise peptide Ag displayed by Antigen Presenting Cells (APC)
Express membrane bound antibody on cell surface
Differentiate into plasma cells that make antibodies

Question 78

Where do B cells mature?

Answer 78

Bone Marrow

Question 79

What CD proteins are expressed by B lymphocytes

Answer 79

CD19 and CD20

depends on maturity

Question 80

What % of lymphocytes are Natural Killer Cells?

Answer 80

15%

Question 81

What protein is expressed by Natural Killer cells

Answer 81

CD56

Question 82

Where are natural killer cells found

Answer 82

spleen/tissues

Question 83

Describe appearance of natural killer cells

Answer 83

look like ‘large granular lymphocytes’

Question 84

What is purpose of natural killer cells

Answer 84

Recognise and kill:
Virus infected cells
Tumour cells
(by apoptosis)

Question 85

Name 3 kinds of soluble factors

Answer 85

Complement Factors
Antibodies
Cytokines/Chemokines

Question 86

What are 3 main pathways of activating complement factor C’3

Answer 86

Classical - Ab bound to microbe
Alternative -Complement (C’) binds to microbe
Lectin - activated by mannose binding to lectin bound to microbe

Question 87

What are immunoglobulins (Ig’s)

Answer 87

Soluble Glycoproteins

Bound to B cells as part of B-cell antigen receptor

Question 88

What are 5 distinct classes of immunoglobulins/antibodies

Answer 88

IgG (IgG1-4)
IgA (IgA1 and 2)
IgM
IgD
IgE

Question 89

Define Antibody (Ab)

Answer 89

Protein produced in response to an antigen. It can only bind with an antigen that induced its formation (i.e. specificity)

Question 90

Define Antigen (Ag)

Answer 90

A molecule that reacts with preformed antibody and specific receptors on T and B cells.

Question 91

*Define Epitope

Answer 91

The part of the antigen that binds to the antibody/receptor binding site

Question 92

Define Affinity

Answer 92

Measure of binding strength between an epitope and an antibody binging site.
(Higher affinity = better)

Question 93

What is Fab and Fc regions of antibody

Answer 93

Imagine Y shape
Vertical bit is Fc region of only heavy chain parts (binds to Fc receptor of phagocyte)
Two diagonal bits are Fab region of Light chains and parts of heavy chains (with antigen-binding site that binds to epitope of antigen)
**see picture of basic structure of IgG1 with hinge region, variable region etc

Question 94

What is most common Ig in human serum?

Answer 94

IgG

70-75% of total Ig in serum

Question 95

Describe the shape of IgG

Answer 95

Light chains of 212 residues
Heavy chains of 450 residues
Hinge region between Fc and Fab regions
(Is like Y shape but Fc region looks circular so is like a gamma symbol)

Question 96

What % of Ig in serum does IgM make up?

Answer 96

10%

Question 97

In which antibodies or immunoglobulins would you find a J chain?

Answer 97

IgM and sIgA (secretory)

sIgA held together by J chain and secretory component

Question 98

What is shape of IgM

Answer 98

Pentamer

formation requires J chain

Question 99

Where is IgM mainly found

Answer 99

Blood as too big to cross endothelium

Question 100

Where is monomeric form of IgM (mIgM) found

Answer 100

Present as an antigen-specific receptor on B cells

Question 101

Where are IgMs mainly used?

Answer 101

Mainly primary response - initial contact with Ag

Question 102

What % of Ig in serum does IgA make up?

Answer 102

15%

Question 103

What % of serum IgA is a monomer?

Answer 103

80%

can also be a dimer, held by J chain

Question 104

Where is IgA found

Answer 104

Predominant Ig in mucous secretions such as saliva, milk, bronchiolar and genitourinary secretions
(sIgA - secretory)

Question 105

What % of Ig in serum does IgD make up?

Answer 105

1%

Question 106

What is mIgD and where is it found?

Answer 106

Transmembrane monomeric form of IgD present on mature B cells

Question 107

What % of Ig in serum does IgE make up?

Answer 107

approx 0.05% (lowest)

Question 108

What cells express IgE-specific receptors with a high affinity for IgE?

Answer 108

Basophils

Mast cells

Question 109

What is released by binding of IgE to basophils or mast cells

Answer 109

Histamine

allergic response, also IgE associated with defence against parasitic infections

Question 110

What Ig contains a central carbohydrate unit (Fc’)

Answer 110

IgE

Question 111

What are cytokines?

Answer 111

Proteins secreted by immune and non-immune cells

Question 112

Give 4 examples of cytokines

Answer 112

Interferons (IFN)
Interleukins (IL)
Colony Stimulating Factors (CSF)
Tumour Necrosis Factors (TNF alpha and beta)

Question 113

What is role of interferons (cytokine)

Answer 113

Induce a state of antiviral resistance in uninfected cells and limit the spread of viral infection

Question 114

What cells produce IFN alpha and beta (interferons)

Answer 114

Virus infected cells

Question 115

What cells produce IFN gamma

Answer 115

Released by activated Th1 cells

Question 116

What are interleukins (IL)

Answer 116

Any of a class of glycoproteins produced by leukocytes for regulating immune responses.
(produced by many cells (>30))

Question 117

What is difference between IL1 and IL-10

Answer 117

IL-1 = Pro-inflammatory interleukin
IL-10 = Anti-inflammatory interleukin

Question 118

What is role of interleukins

Answer 118

Can cause cells to divide, differentiate and to secrete factors

Question 119

What is role of colony stimulating factors

Answer 119

Involved in directing the division and differentiation on bone marrow stem cells - precursors of leukocytes

Question 120

What is role of tumour necrosis factors (alpha and beta)?

Answer 120

Mediate inflammation and cytotoxic reactions

Question 121

What are chemokines?

Answer 121

Chemotactic cytokines
Group of approx 40 proteins that direct movement of leukocytes (and other cells) from the blood stream into the tissue or lymph organs by binding to specific receptors on cells

Question 122

What is role of chemokine?

Answer 122

Attract leukocytes to sites of infection/inflammation

Question 123

Give examples of Chemokines and the leukocytes they attract

Answer 123

CXCL - mainly neutrophils (also T and B lymphocytes)
CCL - monocytes, lymphocytes, eosinophils, basophils
CX3CL - mainly T lymphocytes and NK cells
XCL - Mainly T lymphocytes

Question 124

What chemokine attracts eosinophils

Answer 124

CCL

Question 125

What chemokine mainly attracts neutrophils

Answer 125

CXCL

Question 126

Which chemokines mainly attract T-lymphocytes?

Answer 126

XCL and CX3CL (and CXCL and CCL)

Question 127

What chemokine attracts NK cells

Answer 127

CX3CL

Question 128

What cells do CCL chemokines attract?

Answer 128

Monocytes
Lymphocytes
Eosinophils
Basophils

Question 129

Give differences between Innate and Adaptive immune responses

Answer 129

Innate: Non-specific
1st line of defence
Provides barrier to antigen
Present from birth
(no long lasting memory)

Adaptive: Specifc
Response specific to antigen
Memory to specific antigen
Quicker Response

(both integrate with each other)

Question 130

Examples of innate immunity

Answer 130

Physical and Chemical Barriers (skin - dermis and epidermis, intact skin preventing prevention or growth (low pH) and sebum - skin secretions pH 3-5)
Phagocytic cells (neutrophils, macrophages)
Serum proteins (Complement, acute phase)

Question 131

Examples of Physical Barriers (Innate immunity)

Answer 131

Skin (Physical carrier, fatty acids, commensals)
Bronchi (Mucus, cilia)
Gut (acid, rapid pH change)

Also:
Lysozyme in tears and other secretions
Commensals in digestive system
Removal of particles by rapid passage of air over turbinate bones
Flushing of urinary tract
Low pH and commensals of vagina

Question 132

Examples of Mucous membranes (innate immunity)

Answer 132

Saliva
Tears
Mucous secretions
Mucous -entrapment
Cilia - elating removes microbes
Commensal colonies - attachment and nutrients

Question 133

Physiological barriers (innate immunity)

Answer 133

Temperature (pyrexia)
Fever response (inhibits micro-organism growth)
pH
Gastric acidity (Helicobacter pylori)
Oxygen tension - aerobes/anaerobes

Question 134

Define Inflammation

Answer 134

A series of reactions that brings cells and molecules of the immune system to sites of infection or damage

Question 135

What cells sense microbes in blood

Answer 135

Monocytes

Neutrophils

Question 136

What cells sense microbes in tissues

Answer 136

Macrophages

Dendritic cells

Question 137

What are PRRs and PAMPs and where are they found

Answer 137

PRR - Pattern Recognition Receptors (on cells) e.g. TLRs

PAMP - Pathogen Associated Molecular Patterns (on microbe)

Question 138

How do TLRs (toll-like receptors) sense microbes?

Answer 138

TLRs recognise Pathogen-Associated Molecular Patterns expressed by microbes

Question 139

What PAMPs (pathogen associated molecular patterns) are detected by each of these PRRs?
TLR2
TLR3
TLR4
TLR7
TLR9

Answer 139

TLR2 = Peptidoglycan

TLR3 = Double stranded RNA

TLR4 = Lipopolysaccharide (LPS)

TLR7 = Single stranded RNA

TLR9= Double stranded DNA or CpG DNA

Question 140

What PRRs are expressed by plasmacytoid dendritic cell

Answer 140

TLR7, TLR9

Question 141

Which TLRs/PRRs detect viruses

Answer 141

TLR3, TLR7, TLR9

Question 142

What pathogen is detected by TLR2?

Answer 142

Gram Positive bacteria

Question 143

What pathogen is detected by TLR4?

Answer 143

Gram Negative bacteria

Question 144

What is detected by TLR5

Answer 144

Flagellin

Question 145

What are 3 functions of complements (C’)?

Answer 145

• Lyse microbes directly via Membrane Attack Complex
• Increase chemotaxis (C3a and C5a)
• Opsonisation (C3b)

Question 146

*What is meant by opsonisation?

Answer 146

Targeting particles such as bacteria for destruction by a phagocyte

Question 147

What are 2 killing pathways present in polymorphs and macrophages?

Answer 147

O2 - dependent

O2 - independent

Question 148

Describe O2 dependent pathways of killing

Answer 148

Reactive Oxygen Intermediates (ROI):

• Superoxides (O2 ^-) converted to H2O2 then .OH (free radical)
• Nitric Oxide (NO) - vasodilation increases extravasation but also directly anti-mircobial

Question 149

Describe the O2 independent mechanism of killing

Answer 149

Enzymes
Defensins (insert into membranes), lysozyme, pH, TNF

Question 150

Give examples of accessory molecules

Answer 150

Acute phase proteins (that are present in blood and increase during infection):
C reactive protein
Mannose binding lectin (MBL)
Surfactant protein-A (SP-A)

Question 151

What is C reactive protein and what is it’s function

Answer 151

Serum protein produced by liver
Binds to some bacterial cell walls (pneumococci)
Promotes opsonisation
Binds to C1q
Activates C' (complement)

Question 152

What is function of Mannose Binding Lectin (MBL)

Answer 152

Binds to lectin on microbes
Promotes Opsonisation (via MBLR)
Activates C’

Question 153

What is the function of Surfactant Protein-A

Answer 153

Binds haemagglutinin in influenza

Reduces ability of virus to infect cells

Question 154

What is Cell-Mediated Immunity

Answer 154

Immune response that does not involve antibodies, but evolves the activation of phagocytes, antigen-specific cytotoxic T-lymphocytes an release of cytokines in response to antigen

Question 155

Do T-cells respond to soluble antigens?

Answer 155

NO

They only respond to intracellular antigens (presented antigens)

Question 156

Where are t-cells that recognise ‘self’ eliminated

Answer 156

T cells that recognise ‘self’ are killed in the foetal thymus as they mature (called T cell selection)

Question 157

Describe structure of TCR (T cell receptor)

Answer 157

Similar to Fab Ig’s

Heterodimers are 90% alpha/beta, 10% gamma/delta

Question 158

What does MHC stain for

Answer 158

Major Histocompatibility Complex

Question 159

What is function of MHC

Answer 159

Display peptides from self or non-self proteins (e.g. degraded microbial proteins) on the cell surface
Invasion alert

Question 160

What genes code for MHC 1 and 2 in humans

Answer 160

Human Leukocyte Antigen (HLA) genes
MHC I coded by HLA (A, B and C genes)
MHC II coded by HLA (DP, DQ and DR)

Question 161

What does MHC III code for

Answer 161

Secreted proteins (complement)

Question 162

*What T-cells display MHC class I

Answer 162

MHC I = all cells -> CD8 T cells

Question 163

What T-cells display MHC class II

Answer 163

MHC II = APC only -> CD4 T helper

Question 164

What antigens are detected by MHC I

Answer 164

Intrinsic/Intracellular antigens e.g. virus

Question 165

What antigens are detected by MHC II

Answer 165

Extrinsic/Extracellular antigens (phagocytosis)

Question 166

What antigens are detected by MHC II

Answer 166

Extrinsic/Extracellular antigens (phagocytosis)

Question 167

What is the function of MHC II and their APC

Answer 167

Help B cells make Abs to extracellular pathogens

Can help directly kill these pathogens

Question 168

Describe the structure of Class I and II MHCs

Answer 168

Class I:
8-10 aa peptide on receptor of 3 alpha units and a beta2m unit
Class II:
13-24 aa peptide on receptor of 2 alpha and 2 beta subunits on APC

Question 169

Upon activation, what is secreted by pDCs (plamsacytoid dendritic cell) in large quantities

Answer 169

IFN alpha

potent antiviral and pro inflammatory cytokine

Question 170

How does a mature dendritic cell activate naive T cells?

Answer 170

Mature DC provides 3 major signals:

• Presentation of the peptide fragments from the pathogen bound to surface HLA molecules
• Co-stimulation through CD80 and CD86 interacting with CD28 on T-cells
• Secretion of cytokines - e.g. IL-12
• T-cell also secretes IL-2 which binds to IL-2R on T-cells (autocrine) to activate them

Activated T-cell leads to division, differentiation, effector functions, memory

Question 171

What 2 types of T cells can naive alpha/beta T-cells differentiate into?

Answer 171

CD4 or CD8

CD8 can kill intracellular pathogens directly

Question 172

What 2 cells can CD4 cells mature into and what cytokine determines this

Answer 172

Th1 or Th2 (T-helper)
IL-12
High IL-12 leads to Th1 where as low IL-12 leads to Th2

Question 173

What cytokines are released from Th2 cells and what is the cell’s general function?

Answer 173

IL-4,5,10

Ab production

Question 174

What cytokines are released from Th1 cells?

Answer 174

IL-2

IFN gamma

Question 175

What is function of IFN gamma

Answer 175

Helps kill intracellular pathogens by activating macrophages

Question 176

What is required to form a cytotoxic t cell (CTL or Tc)

Answer 176

CD8 and MHC I and TCR (t cell receptor)

Question 177

What chemicals released from Cytotoxic T cells lead to apoptosis or pathogen killing?

Answer 177

CTL forms proteolytic granules and releases perforins (apoptosis) and granulysin (killing of pathogen)

Question 178

**Describe Th1 (CD4) activation

Answer 178

• APC presents Ag with MHC II to a naïve CD4 T cell
• Stimulation with high levels of IL-12 activate naïve cells to CD4 Th1 cells
• Th1 cells travel to secondary lymphoid tissue (spleen, lymph nodes)
• Activated CD4 Th1 cells proliferate (clonal expansion)
• Th1 cell recognises Ag on infected cells (with MHC II) via TCR (CD4)
• Th1 secretes INFγ – stop virus spread (apoptosis)

Question 179

Which of the following statements regarding B cells is false:
*B cells express membrane bound Ig (IgM or IgD
monomer)
*Each B cell can only make one Ab that will only bind
one epitope on one Antigen
*We are born with more than 10^9 immature B cells
*B cells that recognise self are killed in spleen

Answer 179

B cells that recognise self are killed in the bone marrow

We ARE born with over 10^9 immature B cells

Question 180

Where are B cells that recognise self killed?

Answer 180

Bone Marrow

Question 181

What Membrane bound Igs are expressed on B cells

Answer 181

IgM or IgD monomer

mIgM

Question 182

Describe process of B cells presenting Ag to T cells via MHC II

Answer 182

-mIgM (or mIgD) binds Ag
-Phagocytosis
-Peptide displayed on surface with MHC II
-TCR of naive Th (CD4) binds to MHC II
(Lots of other co-stimulatory molecules required)

Question 183

Describe process of forming plasma or memory cells from the APC engulfing the Ag (extrinsic) and presenting it

Answer 183

-APC eats Ag (extrinsic) and presents it to naïve CD4+ T cells (via MHC II)
-These turn into primed Th2 cells
-Th2 cells bind to B cells that are presenting Ag (via MHC II). This Ag
has been captured using the mIgR on cell surface.
-Th2 cell secretes cytokines (IL-4, IL-5, IL-10 and IL-13)
-These cause B cells to divide by CLONAL EXPANSION and differentiate into Plasma cells (AFC) and Memory B cells (Bm)

Question 184

What is an AFC?

Answer 184

Antibody Forming Cell

Question 185

What are primary lymphoid organs of body?

Answer 185

Thymus

Bone marrow

Question 186

What are secondary lymphoid organs of body?

Answer 186

Waldeyers ring (tonsils and adenoids)
Bronchus associated lymphoid tissue
Lymphoid nodules
Peyers Patch
Urogenital Lymphoid tissue

Question 187

Give examples of lymphatic vessels important

Answer 187

Thoracic Duct

Question 188

What type of antibody is generally secreted by plasma cells

Answer 188

IgM

of same specificity of plasma cells, but later these turn into IgG (still keeping same specificity)

Question 189

What is conversion of IgM to IgG called (B cell activation)

Answer 189

Class switching

Question 190

What are 3 functions of antibody

Answer 190

• Neutralise toxin by binding to it
• Increase opsonisation - phagocytosis
• Activate complement

Question 191

Very briefly describe vaccination

Answer 191

(inactive) Toxoid injected to trigger primary antibody response and produce memory B cells.
Then in natural infection secondary antibody response triggered which is much quicker and bigger and destroy toxins and invading organisms.
(Acquired immunity)

Question 192

What 3 layers are formed from centrifuging a blood sample and what is found at each of these layers?

Answer 192

Upper layer:
Plasma - straw coloured liquid
-90% water, also electrolytes, proteins, lipids, sugars etc

Middle Layer: (Thin)
Buffy Coat of White Blood cells
-leukocytes

Lower Layer: (approx 45% of blood)
-Erythrocytes, platelets (Haematocrit)

Question 193

What is serum?

Answer 193

Plasma without fibrinogen and other clotting factors

Question 194

What is source and role of cytokine IL-1

Answer 194

Source - Macrophages, Endothelial and Epithelial cells

Role - Induces inflammation, fever, activation of leukocytes

Question 195

What is source and role of cytokine IL-2

Answer 195

Source - Tcells

Role - Stimulates T, B and NK cell growth

Question 196

What is source and role of cytokine IL-4

Answer 196

Source - Th2 cells; mast cells

Role - induces IgE production; promotes Th2 differentiation (autocrine)

Question 197

What is source and role of cytokine IL-8

Answer 197

Source - macrophages, endothelium, fibroblasts, keratinocytes
Role - Induces neutrophil chemotaxis

Question 198

What is source and role of cytokine IL-10

Answer 198

Source - monocytes, Th2 cells

Role - Down-regulates Th1 cytokines, MHC II expression

Question 199

What is source and role of cytokine Interferon gamma

Answer 199

Source - Th1 cells, NK cells

Role - Activates macrophages and NK cells; increases MHC II expression

Question 200

What is source and role of cytokine Tumour Necrosis Factor - alpha (TNF - alpha)

Answer 200

Source - T cells, macrophage, NK cells

Role - Activates neutrophils, endothelial cells; induces cachexia (wasting away of muscle and body fat)

Question 201

What is cachexia

Answer 201

Loss/Wasting of muscle and body fat

Question 202

What are 3 subgroups of T helper cells and how do they differ?

Answer 202

Th1, Th2, TREG cells

Differ in the types of cytokines they make

Question 203

What cytokines are produced by Th1 cells?

Answer 203

IL-2
Interferon-gamma
TNF-beta

Question 204

What cytokines are produced by Th2 cells?

Answer 204

IL-4
IL-5
IL-6
IL-10 (also TREG cells)
IL-13

Question 205

What cytokines are produced by TREG cells?

Answer 205

IL-10
TGF-beta
(down regulates other T-cell subsets)

Question 206

What are functions of Th2 cells?

Answer 206

Activate eosinophils and mast cells
Induce B cells to make IgE - promotes release of inflammatory mediators e.g. histamine from mast cells
Releases IL-4 and IL-13 important in helminth infections and allergy

Question 207

*What are functions of Th1 cells?

Answer 207

Activate macrophages to cause inflammation
Promotes production of cytotoxic T cells
Important in intracellular infections
Induce B cells to make IgG antibodies

Question 208

How does the Fab region of antibody protect against infection?

Answer 208

Specific binding/multivalency:
Neutralise e.g. toxins (IgG, IgA)
Immobilise motile microbes (IgM)
Prevent binding to and infection of host cells
Form complexes

Question 209

How does Fc region of antibody protect against infection?

Answer 209

Enhance Innate Mechanisms:
Activate complement (IgG, IgM)
Bind Fc receptors

Question 210

What cells have Fc receptors and which antibodies are each associated to?

Answer 210

Phagocytes (IgG or IgA) - enhance phagocytosis

Mast Cells (IgE) - release inflammatory mediators

NK cells (IgG) - enhanced killing of infected cells

Question 211

Research, Diagnostics, Therapy:

What is specificity and indication for product OKT3

Answer 211

CD3

Transplant Rejection

Question 212

Research, Diagnostics, Therapy:

What is specificity and indication for product Campath

Answer 212

CD52

Chronic lymphocytic leukemia

Question 213

Research, Diagnostics, Therapy:

What is specificity and indication for product Herceptin

Answer 213

Her-2

Breast cancer

Question 214

Research, Diagnostics, Therapy:

What is specificity and indication for product Remicade

Answer 214

TNF-alpha

Crohn’s disease, rheumatoid arthritis

Question 215

Research, Diagnostics, Therapy:

What is specificity and indication for product CroFab

Answer 215

Snake venom

Rattle snake antidote

Question 216

Research, Diagnostics, Therapy:

What is specificity and indication for product Synagis

Answer 216

RSV

Respiratory syncytial virus

Question 217

What ligands are recognised by TLR 1/2

Answer 217

Gram positive lipopeptides (exogenous)

Question 218

What ligands are recognised by TLR 3

Answer 218

Double-stranded RNA (exogenous)

mRNA (endogenous)

Question 219

What ligands are recognised by TLR 4

Answer 219

LPS, pneumolysin, viral proteins (exogenous)

Heat shock proteins, HMGB1, hyaluronan, fibrinogen (endogenous)

Question 220

What ligands are recognised by TLR 5

Answer 220

Flagellin (exogenous)

Question 221

What ligands are recognised by TLR 2/6

Answer 221

Gram POSITIVE lipopeptides

Gram negative also noticed by TLR 2

Question 222

What ligands are recognised by TLR 7 or 8

Answer 222

Single-stranded RNA (exogenous)

Question 223

What ligands are recognised by TLR 9

Answer 223

CpG DNA (exogenous)
DNA, mitochondrial DNA? (endogenous)

Question 224

What are NLRs

Answer 224

Nod-Like Receptors
(Best known are NOD1, NOD2, NLRP3)
Detect intracellular microbial pathogens

Question 225

What is function of NOD2

Answer 225

Recognises MDP (muramyl dipeptide), a breakdown product of peptidoglycan.
Activates inflammatory signalling pathways.
Can also activate anti-viral signalling

Question 226

What disease can result from non-functioning NOD2 mutation?

Answer 226

Crohn’s disease

Question 227

What disease can result from a hyper-functioning NOD2 mutation?

Answer 227

Blau syndrome
(Rare; Chronic granulomatous inflammation of skin, eyes and joints)

Question 228

What are RLRs

Answer 228

PRR type
Best known are RIG-1 and MDA5 - roles to detect intracellular dsRNA and DNA - viral.
They couple effectively to activate interferon production, enabling an antiviral response.

Question 229

What are 2 groups of PRRs

Answer 229

Secreted and circulating PRRs

Cell-associated PRRs

Question 230

Give example fo secreted/circulating PRRs

Answer 230

Antimicrobial peptides secreted in lining fluids, from epithelial and phagocytes e.g. Defensins and Cathelicidin

Lectins and Collectins:
Carbohdrate-containing proteins that bind carbs or lipids in microbe walls. Activate complement and improve phagocytosis.

Pentraxins:
Can react with C protein of pneumococci, activate complement and promote phagocytosis

Question 231

Give examples of cell-associated PRRs

Answer 231

Receptors present on cell membrane or in the cytosol of cells
Recognise a broad range of molecular patterns
e.g. TLRs

Question 232

Describe importance of TLR4

and result of its activation

Answer 232

Recognises LPS (lipopolysaccharide), a component present in many Gram-negative bacteria and some Gram-positive.
Activation of TLR4 leads to intracellular signalling pathway NF-κB and inflammatory cytokine production responsible for activating the innate immune system.

Question 233

What is NF-κB?

Answer 233

Nuclear factor kappa-light-chain-enhancer of activated B cells

Protein complex that controls transcription of DNA, cytokine production and cell survival.

Involved in cellular responses to stimuli such as stress, cytokines, free radicals, UV irradiation, oxidised LDL and bacterial/viral antigens.

Key role in regulating immune response to infection. Incorrect regulation linked to cancer, autoimmunity, viral infection, septic shock and improper immune development.

Question 234

Which of the following is NOT an organ-specific auto-immune disease?
Type 1 diabetes mellitus
Ulcerative colitis
Graves disease
Hashimoto's thyroiditis
Sjorgen's syndrome

Answer 234

Ulcerative colitis

Question 235

Which of the following is a classical PAMP
Interleukin 12
Heat shock protein 70
RIG-I
Lipopolysaccharide
Toll-like receptor 2

Answer 235

Lipopolysaccharide

Question 236

Which of the following answers is NOT true? Biological therapies for autoimmune diseases…:
are usually delivered with a low dose of the cytotoxic drug methotrexate
have no risk of bacterial infection, unlike conventional treatments
include adalimumab, tocilizumab and retuximab
are immunosuppressive and are always injected
are comparatively very expensive and only prescribed in the NHS once conventional therapies have failed

Answer 236

NOT true:

Biological therapies for autoimmune diseases have no risk of bacterial infection, unlike conventional treatments

Question 237

Which of the following are features of the adaptive immune response?
Its efficiency is not affected by prior contact with the pathogen
It would not work without B and T lymphocytes
It lacks specificity
It generally distinguishes self from non-self
Its effectiveness is enhanced by complement

Answer 237

It would not work without B and T lymphocytes

Question 238

Which of the following functions of T lymphocytes is true:
T lymphocytes mature in thyroid gland
All T cells secrete cytotoxic materials
T cells respond to proteins on surface of host cells
T cells secrete IgG when they are activated

Answer 238

T cells respond to proteins on surface of host cells

Question 239

What is Hashimoto’s thyroiditis

Answer 239

Autoimmune disease in which immune system attacks body’s thyroid
aka Chronic Lymphocytic Thyroiditis

Question 240

What is Graves disease

Answer 240

Thyroid autoimmune disease

Most common cause of hyperthyroidism and often results in enlarged thyroid

Question 241

What is Sjorgen’s syndrome

Answer 241

Autoimmune disease that affects the body’s moisture-producing glands

Question 242

What are primary symptoms of Sjorgen’s syndrome

Answer 242

Dry mouth and dry eyes

Question 243

Explain the distinction/difference between Fibrin and fibrous

Answer 243

Fibrin is deposited in BVs and tissues or on surfaces (e.g. in acute inflammation) as a result of the action of thrombin on fibrinogen.
Fibrous describes the texture of non-mineralised tissue of which the principal component is collagen (e.g. scar tissue)

Question 244

Explain the distinction/difference between Monocytes, macrophages and histocytes

Answer 244

Monocytes are newly formed cells of the mononuclear phagocyte system. After a few hours in the blood, they enter tissues and undergo further differentiation into macrophages.
Some macrophages in tissues have specific features and names (e.g. Kupffer cells), others are referred to as histiocytes

Question 245

*Explain the distinction/difference between Granuloma and Granulation tissue

Answer 245

Granuloma is an aggregate of epithelioid histiocytes and feature of some specific chronic inflammatory disorders.
Granulation tissue is an important component of healing and comprises small blood vessels in a connective tissue matrix with myofibroblasts.

Question 246

Explain the distinction/difference between Exudate and Transudate

Answer 246

Exudates hae a high protein content as they result from increased vascular permeability.
Transudates have a LOW protein content as the vessels have normal permeability characteristics.

Question 247

Explain the distinction/difference between Acute and chronic inflammation

Answer 247

in inflammation, acute and chronic denote both the dynamics and character of the process.
Acute inflammation has a relatively rapid onset and (usually) resolution. Neutrophil polymorphs are also the most abundant cell.
Chronic inflammation has a relatively insidious onset, prolonged course and slow resolution. Lymphocytes, plasma cells and macrophages (sometimes with granuloma formation) are the most abundant cells.

Question 248

**Causes of acute inflammation (easy exam q)

Answer 248

• Microbial infections e.g pyogenic (pus causing) bacteria, viruses
• Hypersensitivity reactions e.g parasites, tubercle bacilli
• Physical agents e.g trauma, ionising radiation, heat, cold (frost-bite) - Chemicals e.g corrosives, acids, alkalis, reducing agents
• Bacterial toxins
• Tissue necrosis e.g. ischaemic infarction

Question 249

Essential macroscopic appearances of acute inflammation (and latin translation where appropriate)

Answer 249

• Redness - rubor
• Heat - calor
• Swelling - tumor
• Pain - dolor
• Loss of function is also characteristic

Question 250

What is fibrinolytic system

Answer 250

Generating plasmin which causes fibrin dissolution

Starts with release of plasminogen activator (t-PA) from endothelial cells. t-PA convert plasminogen to plasmin

Question 251

Define scar

Answer 251

The connective tissue forming a scar and composed chiefly of fibroblasts in recent scars and largely of dense collagenous fibres in old scars.