Immune cell and organs

Question 1

What is the function of secondary lymphoid organs?

Answer 1

Where lymphocytes can interact with antigen and with other lymphocytes, including spleen, LNs, MALT

Question 2

In an embryo where does haematopoietic occur?

Answer 2

amniotic sac

Question 3

In a fetus where does haematopoiesis occur?

Answer 3

all bones, liver + spleen

Question 4

Where does haematopoiesis occur in adults? 5 sites

Answer 4

1. Flat bones
2. Vertebrae
3. Iliac bones
4. Ribs
5. End of long limbs

Question 5

What is the broad structure of the thymus?

Answer 5

bilobed, medulla + cortex regions

Question 6

What is the role of the Hassalls’ corpuscle in the thymus?

Answer 6

secretes soluble factors + is important in regulatory T cells

Question 7

Is there a change in the thymus during the immune response to antigens?

Answer 7

no - continuous development of T cells

Question 8

What volume of lymph is returned to the blood each day + how?

Answer 8

2-3L of lymph, via superior vena cava

Question 9

What is the size + shape of lymph nodes?

Answer 9

kidney shaped, >1cm

Question 10

How does lymph enter + exit LNs?

Answer 10

• enters via afferent vessel
• exits via efferent
• lymph percolates through all lymphocytes before leaving the node

Question 11

What is meant by a lymph node being described as a summative junction?

Answer 11

there are many afferent vessels but one efferent vessel

Question 12

What is meant by a lymph node being described as a summative junction?

Answer 12

there are many afferent vessels but one efferent vessel

Question 13

How do lymphocytes enter the lymph nodes?

Answer 13

rich blood supply lets lymphocytes into the LNs via high endothelial venules

Question 14

Which part of the lymph node is the T cell area?

Answer 14

parafollicular cortex

Question 15

Which part of the lymph node is the B cell area?

Answer 15

lymphoid follicle - mostly on periphery of the lymph node

Question 16

What leads to the generation of a germinal centre in a lymph node?

Answer 16

during immune response there is massive proliferation of B cells

Question 17

What targets respective lymphocytes to their specific areas of the LN?

Answer 17

specific chemokines

Question 18

What is a function of the spleen?

Answer 18

filter for antigens in the blood

Question 19

What 2 regions is the spleen broadly split into?

Answer 19

white pulp + red pulp

Question 20

What is the white pulp of the spleen?

Answer 20

lymphoid cells around blood vessels, full of lymphocytes

Question 20

What is the white pulp of the spleen?

Answer 20

lymphoid cells around blood vessels, full of lymphocytes

Question 21

What 3 areas is the white pulp of the spleen further divided into?

Answer 21

1. Peri-arteriolar lymphatic sheath (PALS) = T cell area
2. Splenic lymphoid follicles
3. Marginal zone

Question 22

Where are the B cell lymphocytes located in the spleen?

Answer 22

follicles

Question 23

What may be contained within the follicles of the spleen?

Answer 23

germinal centres - form upon antigenic stimulation

Question 24

What is the marginal zone of the spleen?

Answer 24

interface of red pulp with PALS and follicles

Question 25

What is the function of the marginal zone of the spleen?

Answer 25

contains macrophages, screens systemic circulation for antigens + pathogens, role in antigen processing

Question 26

Where does the gut-associated lymphoid tissue drain?

Answer 26

involved in mesenteric lymphatic drainage system to mesenteric LNs, including intraepithelial lymyphocytes

Question 27

What are the 2 components fo the gut-associated lymphoid tissue?

Answer 27

1. Peyer’s patches
2. M-cells

Question 28

What are Peyer’s patches formed of?

Answer 28

non-capsulated aggregation of lymphoid tissue - predominantly B lymphocytes and contain germinal centres during immune responses

Question 29

What is the function of M cells of the gut-associated lymphoid tissue?

Answer 29

sample contents of the intestine, surveying for pathogens which they can then deliver to immune cells

Question 30

Label the following on the GALT diagram: villus, crypt, M cell, Peyer’s patch.

Answer 30

Question 31

What are 3 types of immune cells within the epidermis of the skin?

Answer 31

1. keratinocytes
2. Langerhans cells
3. Intraepidermal lymphocytes

Question 32

What are 2 types of immune cells present in the derm of the skin which heavily guard the epidermis?

Answer 32

1. Macrophages
2. T lymphocytes

Question 33

What structures exist within the dermis of the skin which assist with its immune function?

Answer 33

venules + lymphatic vessels - provides entry to the blood circulation + drainage to regional lymph node

Question 34

How does the body ensure that antigen meets lymphocyte with the specific receptor for it?

Answer 34

lymphocyte recirculation - pathogen is on mucosal surface, naive lymphocytes leave the bone marrow + thymus + enter bloodstream, reirculate through peripheral lymphoid tissue -> recognise antigen leading to massive B cell proliferation in secondary lymphoid tissue

Question 35

What happens to lymphocytes if they don’t recognise specific antigen?

Answer 35

die

Question 36

When does extravasation of naive T cells into the lymph nodes occur?

Answer 36

during the immune response

Question 37

What are 4 steps of the physical process of extravasation of a naive T cell into a lymph node?

Answer 37

1. naive T cell rolls along epithelium
2. stopped + activated by specific chemokines at a particular place on the epithelium - place it stops determined by selectins
3. integrins increase adhesion of the T cell to the epithelium, leading to arrest of the cell
4. transendothelial migration of T cell into LN occurs

Question 38

How do antigens enter lymph nodes?

Answer 38

via draining lymphatics

Question 39

What is the role of selectins in T cell extravasation into LNs?

Answer 39

stop the lymphocyte at a particular place on the epithelium

Question 40

What is the role of integrins in the extravasation of T cells into the LN?

Answer 40

increase adhesion of the T cell to the epithelium leading to cell arrest

Question 41

How many times do naive T cells circulate?

Answer 41

once per day

Question 42

How do T cell lymphocytes enter the lymph nodes?

Answer 42

high endothelial venule

Question 43

Where does the naive lymphocyte get activated by antigen?

Answer 43

within the lymph node after entering via high endothelial venule

Question 44

What happens after a lymphocyte is activated within a lymph node?

Answer 44

stops recirculating - massive proliferation of B lymphocytes - re-enter blood via SVC + target invading microbes/pathogens

Question 45

How many CD markers exist?

Answer 45

> 300

Question 46

What CD surface marker is expressed by all T lymphocytes?

Answer 46

CD3-antigen specific receptor (TCR)

Question 47

What are 2 types of TCR and their breakdown in terms of proportion of T lymphocytes in blood?

Answer 47

• γδ TCR - 10%
• αβ TCR - 90%

Question 48

What is the breakdown of αβ TCR expression cells in terms of which express CD4 and whcih CD8?

Answer 48

• CD4: 2/3
• CD8: 1/3

Question 49

What is the function of CD4+ cells?

Answer 49

T helper cells, regulatory T cells - secrete cytokines

Question 50

What is the function of CD8+ cells?

Answer 50

cytotoxic T cells - lyse infected cells, secrete cytokines

Question 51

What happens to ability to respond to new infections with age? What happens to the total number of T cells with age?

Answer 51

• reduced ability to respond to new infections, as thymic output declines with age + thymus atrophies
• total number of T cells doesn’t change - just more memory cells

Question 52

What is the only situation when T lymphocytes can recognise antigen?

Answer 52

using T cell receptor when antigen presented at surfce of another cell; antigen is presented by an MHC molecule

Question 53

What molecule is presented on a ll B lymphocytes? What is the function of this?

Answer 53

MHC class II - can present ntigen to helper T cells

Question 54

How can B lymphocytes recognise antigen?

Answer 54

intact antigen free in body fluids (so not presented by another molecule, unlike T cells)

Question 55

How can B lymphocytes recognise antigen?

Answer 55

intact antigen free in body fluids (so not presented by another molecule, unlike T cells)

Question 56

What forms the B cell receptor?

Answer 56

a membrane-anchored form of antibody linked to signalling subunits

Question 57

What are 4 types of APCs?

Answer 57

1. dendritic cells
2. B lymphocytes
3. macrophages
4. follicular dendritic cells

Question 58

Where are each of the key 4 types of APCs located?

Answer 58

1. DCs: widely spread e.g. skin + mucosal tissue
2. B cells: lymphoid tissue
3. Macrophages: lymphoid tissue
4. follicular dendritic cells: lymph node follicles

Question 59

What do each of the 4 types of APC present antigen to?

Answer 59

1. DCs: T cells
2. B cells: T cells
3. Macrophages: T cells
4. follicular dendritic cells: B cells