1. Introduction

Question 1

Major functions of the immune system

Answer 1

Protection of our body from “parasites”

Question 2

What is Microbiota?

Answer 2

the flora that lives within our body, which consists of many different microbial communities.

Question 3

What is an „Extended self”?

Answer 3

a multicellular organ, which consumes, stores and redistributes energy derived from food.

Question 4

What is Interstitial fluid?

Answer 4

more fluid leaves the circulation on the arteriosus side of the capillary system than what is drained by the venous side

Question 5

What are the Five main features of the immune response?

Answer 5

1. Antigen specificity
2. Ag-sensitivity
3. Memory
4. Operation based on clone
5. Immune homeostatsis

Question 6

Five main features of the immune response - Antigen specificity
-> What is an antigen?

Answer 6

any molecule or cell that elicits an immune response

Question 7

Five main features of the immune response - Antigen specificity
-> What is an determinant?

Answer 7

Antigen determinant = epitope, a particular part of the antigen that is recognized by a T or B cell receptor

Question 8

Difference between B & T cells?

Answer 8

They differ in Antigen recognition

Question 9

What do T cells recognize?

Answer 9

Linear peptide sequences in the peptide binding groove of HLA (MHC) molecules

Question 10

Five main features of the immune response - Antigen sensitivity
-> What make the antigen sensitivity?

Answer 10

Exponential amplification
-> One cell has one type of Ag receptor

Question 11

Five main features of the immune response
-> What makes the feature “memory” important?

Answer 11

Efficient protection upon repeated exposure to infectious agents (T & B memory cells)

Question 12

Five main features of the immune response
-> The operation is based on clone selection
-> What does it mean?

Answer 12

Question 13

Five main features of the immune response
-> how can our body maintain immune homeostasis?

Answer 13

1. Fast reaction when in danger
2. Re-establishing homeostasis once the threat is over

Question 14

Five main features of the immune response
-> Is the immune process reversible?

Answer 14

Yes, they are

Question 15

Five main features of the immune response
-> What happen to immune homeostasis if there is an infection?

Answer 15

Question 16

Five main features of the immune response - IMMUNE HOMEOSTASIS
-> 3 examples of regulatory cells?

Answer 16

Treg, Breg, iDC

Question 17

Five main features of the immune response - IMMUNE HOMEOSTASIS
-> 4 examples of effector cells?

Answer 17

Th1, TH17, B, mDC

Question 18

2 concepts of immunity

Answer 18

Innate immunity - immediate response
Adaptive immunity - develops in 1 - 2 weeks

Question 19

How fast does innate immunity response when exposing to an infection?

Answer 19

Immediate response

Question 20

How fast does innate immunity response when exposing to an infection?

Answer 20

Immediate response

Question 21

How fast does ADAPTIVE immunity response when exposing to an infection?

Answer 21

in 1-2 weeks

Question 22

List the cells involving in innate immunity

Answer 22

Question 23

List the cells involving in adaptive immunity

Answer 23

Question 24

Barriers of innate immunity

Answer 24

skin,
mucosal membrane,
secretions

Question 25

Molecules of innate immunity

Answer 25

complement system, natural autoantibodies

Question 26

8 Cells of the innate immunity

Answer 26

Question 27

2 types of responses in adaptive immunity

Answer 27

Cellular (T)
Humoral (T)

Question 28

Cells involving in adaptive immunity

Answer 28

Question 29

Characteristics of Innate immunity
(Memory, Receptor specificity, amplification, latency, cells)

Answer 29

1. Limited memory
2. Limited receptor specificity
3. Linear amplification
4. No latency
5. Macrophages, granulocytes, mast cells, dendritc cells (DCs), innate lymphoid cells (ILCs), NK cells, complement system, natural autoantibodies

Question 30

Characteristics of ADAPTIVE immunity
(Memory, Receptor specificity, amplification, latency, cells)

Answer 30

1. memory
2. high specificity
3. exponential amplification
4. latency (1-2 weeks)
5. T & B cells, antibodies
   Adaptive immunity
   TB

Question 31

What type of immunity is lacking here (1, 2)?

Answer 31

1 - Lacking innate immunity only
2 - Lacking adaptive immunity only

Question 32

What are the 2 types of immune organs?

Answer 32

Primary (central)
Secondary (peripheral)

Question 33

What are the 2 Primary (central) immune organs?

Answer 33

1/ Thymus
2/ Bone marrow

Question 34

4 types of Secondary (peripheral) immune organs

Answer 34

1. Lymph nodes
2. Spleen
3. MALT (mucosal associated lymphatic tissue)
4. SIS (skin immune system)

Question 35

Organs involving in Adaptive immunity

Answer 35

1. Bone marrow
2. Thymus
3. Peripheral immune organs

Question 36

Where will recirculating lymphocytes organ?

Answer 36

Question 37

In the lymph node, lymphocytes are searching for their ___

Answer 37

epitopes

Question 38

If a recirculating lymphocyte encounters its antigen in a secondary immune organ…
-> What will happen?

Answer 38

it stops migrating, gets activated, proliferates and differentiates

Question 39

If a recirculating lymphocyte encounters its antigen in a secondary immune organ…
-> What will happen?

Answer 39

it stops migrating, gets activated, proliferates and differentiates

Question 40

Characteristics of primary immune response (time, amplitude, immunoglobulin)

Answer 40

1. slower (longer latency)
2. lower amplitudo
3. predominatly IgM

Question 41

Characteristics of secondary immune response (time, amplitude, immunoglobulin)

Answer 41

1. faster (shorter latency)
2. higher amplitudo
3. predominantly IgG

Question 42

What are cytokines? Their role?

Answer 42

Small, soluble proteins or glycoproteins (~5–20 kDa), which function as messengers or regulatory molecules.

Question 43

4 types of communication in the immune system

Answer 43

1. Juxtacrine
2. Paracrine
3. Autocrine
4. Endocrine

Question 44

The range of cytokine effects
-> Identify 1 & 2

Answer 44

1/ Paracrine signalling
2/ Autocrine signaling

Question 45

Shared features of the cytokines

Answer 45

• They act via membrane receptors (relatively few high affinity receptors)
• Their effects are often transient (short lived mRNA and negative feedback)

Question 46

9 pleiotropic effects of IL-6

Answer 46

Question 47

5 important types of cytokines

Answer 47

1. Organokines
2. Adipokines
3. Myokines
4. Osteokines
5. Hepatokines

Question 48

Cytokines which are Pro-inflammatory

Answer 48

Question 49

Cytokines which are Anti-inflammatory

Answer 49

Question 50

What is cytokine storm? (also cytosine release syndrome)

Answer 50

A life threatening systemic inflammatory disease with highly elevated cytokine levels and hyperactivation of immune cells. It can be triggered by several pathogens, tumors and autoimmune diseases.

Question 51

3 chemokine families

Answer 51

Question 52

What is the relationship of sleep and immunity? (adrenergic tone, adaptive immunity)

Answer 52

Question 53

Which simple method can be used to study the functions of the immune system?

Answer 53

Simple blood test (analysis of blood cells)

Question 54

What can be the consequence of the absence of particular immune organs (because of a lesion or surgical removal)?

Question 55

What happens if the bone marrow does not function?

1. Thereisnoconsequenceatall
2. There is a drop in the number of circulating blood cells (pancytopenia) with extensive and
   recurrent infections
3. The thymus compensates for the functions of the bone marrow, only the B cell number
   drops
4. The MALT compensates for the missing functions except for the red blood cell formation
5. Autoimmune diseases may develop

Answer 55

There is a drop in the number of circulating blood cells (pancytopenia) with extensive and
recurrent infections

Question 56

What happens in the thymus of an infants is removed surguvcally (e.g. during cardiac surgery)?

1. The will be no consequence at all
2. It will result in a condition that is not compatible with life
   (necessitates thymus transplantation)
3. It may influence the peripheral T cell populations and may
   result in premature immune aging
4. It may predispose for allergic diseases
5. It may predispose for overweight

Answer 56

It may influence the peripheral T cell populations and may
result in premature immune aging

Question 57

What can be the consequence of the removal of a lymph node?

1. There will be no consequence at all
2. The immune defense of the body will be reduced,
   immunodeficiency develops
3. Recurrent, severe infections
4. Lymhodema may develop because of the defective lymphatic
   drainage
5. Predisposition for allergy

Answer 57

4. Lymhodema may develop because of the defective lymphatic
   drainage

Question 58

What is a sentinel lymph node?

Answer 58

The sentinel lymph node is the primary filter in the way of the lymph drainage from a tumor. Its histological composition (after surgical removal) is an important indicator of the regional status of a tumor.

If a sentinel lymph node is metastasis-free, a formal block dissection (removal of all lymph nodes draining from the area of a given tumor) can be avoided.

Question 59

What can be the consequence of the removal of the spleen?

1. There will be no consequence at all
2. Predisposition to infections
3. Predisposition to infections by encapsulated bacteria, because of
   the lack of memory cells
4. Predisposition to infections with intracellular pathogens
5. Appendicitis may develop

Answer 59

3. Predisposition to infections by encapsulated bacteria, because of
   the lack of memory cells

Question 60

What can be the consequence of the removal of tonsils?

1. It has no immediate consequence
2. Predisposition to viral infections
3. Predisposition to infections by encapsulated bacteria
4. Predisposition to infections by intracellular pathogens
5. In the long run, predisposition for appendicitis

Answer 60

1. It has no immediate consequence

Question 61

Approximately what percentage of recirculating lymphocytes reacts with a given antigen?

a. < 0.01%
b. >1%
c. > 5%
d. ~ 0%

Answer 61

a. < 0.01%

Question 62

Which are the shared and unique features of the immune and the central nervous systems?

Answer 62

1. Their complexity is approximately the same
2. Network-based operation
3. Synapse formation
4. Memory
5. Cognitive functions

Question 63

How does the number of immune cells (~ 2×1012 ) compare to the number of other cells in the human body?

Answer 63

They are comparable to the number of cells in the liver and the brain

Question 64

Do granulocytes recirculate (similarly to lymphocytes)?

Answer 64

Yes, in average they spend 20 hours in the circulation.

However, they can only quit the circulation, they cannot reenter.

Question 65

Very few lymphocytes migrate to the skin, brain of synovial membrane. How can they still enter these sites during inflammation?

Answer 65

Transiently, postcapillary venules transform to HEVs in these sites during inflammation

Question 66

The primary immune response is followed by ___

Answer 66

a faster, stronger secondary response

Question 67

For immune homeostasis, ____ are required

Answer 67

cells and molecules of opposing functions

Question 68

The primary immune organs (BM and thymus) are the birth- and maturation places of ____ (2 types of cells), respectively

Answer 68

T and B cells