2 Immune Cells And Organs

Question 1

*Q: What is the process of lymphocyte production called?

Answer 1

A: LYMPHOPOIESIS

Question 2

*Q: What are lymphoid organs? What are they the site of?

Answer 2

A: Tissue in which lymphocytes interact with non-lymphoid cells.

Sites of initiation and maturation of adaptive immune response

Question 3

*Q: What are the primary lymphoid organs where T and B lymphocytes develop? What are the precursors for B and T cells?

Answer 3

A: Thymus - T cell maturation
Bone Marrow - B cell maturation

haematopoietic stem cells in the bone marrow

Question 4

*Q: 3 secondary lymphoid organs.

Answer 4

A: Lymph nodes
Spleen (white pulp)
Mucosa-Associated Lymphoid Tissue (MALT)

Question 5

Q: Are defects in primary and secondary lymphoid organs dangerous? What can treat them?

Answer 5

A: A defect in the primary lymphoid organs is very serious because you won’t produce your own lymphocytes. This can only be treated with stem cell transplant.

We can manage without some of our secondary lymphoid organs

Question 6

Q: Anatomically, where is the thymus?

Answer 6

A: below the thyroid gland

Question 7

Q: What does the microscopic analysis of a stained section of thymus show?

Answer 7

A: shows lobules within the lobes which are packed with lymphocytes

Medulla (middle) - NOT very stained
Cortex (periphery) - VERY stained

Question 8

*Q: What is the thymus structure? Diagram.

Answer 8

A: bi lobed

lobules within the lobes which are packed with lymphocytes

There are septa dividing the lobe into lobules-> each lobule is histologically defined regions of cortex and medulla

cortex contains immature thymocytes-> some are selected to become mature thymocytes in medulla

It has a capsule

In human’s you get whirls of fibroblasts called HASSALL’S CORPUSCLES= where regulatory T lymphocytes develop

REFER

Question 9

Q: What is the role of regulatory T lymphocytes?

Answer 9

A: important role in helping regulate our immune responses.

Question 10

*Q: How does the thymus appearance change after stimulation by an antigen (infection)?

Answer 10

A: no obvious changes

Question 11

Q: How does thymic output change with age? What happens? ->(7)

Answer 11

A: reduced output of new T cells

The total number stays the same

LESS DIVERSE repertoire of T cells

More memory cells

They become OLIGOCLONAL - less diverse

more fatty tissue in the thymus - size of the thymus DECREASES

Question 12

Q: What happens to T cells in the thymus?

Answer 12

A: T-cells are ‘educated’ - learn how to recognise cells presenting the antigen in the thymus

Question 13

*Q: How do lymphocytes and APCs recirculate?

Answer 13

A: Lymphocytes and antigen-presenting cells recirculate through lymphatic vessels: FROM tissues VIA lymph nodes and the spleen INTO the blood

Question 14

Q: What does the lymphatic system allow? (2)

Answer 14

A: Allows all fluid to be drained through the lymph nodes where it is filtered to identify any pathogens before it goes back into the blood.

Allows you to find out whether there is an infection in the body and where the infection is.

Question 15

*Q: What is the structure of a lymph node? Diagram.

Answer 15

A: Blood supply-
Afferent - IN = several vessels
Efferent - OUT = one (at hilus)

B cell areas tend to be on the outside- aggregate into FOLLICLES

REFER

round/kidney shape and have indentation at hilus where blood vessels enter and leave node

medulla surrounded by paracortex (T cell area) and cortex around that (B cell area)

Question 16

*Q: How does the structure of a lymph node change upon infection? (3)

Answer 16

A: PROLIFERATION of B lymphocytes - GERMINAL CENTER forms

Germinal Center - lymphocytes are rapidly proliferating to produce antibodies against the pathogen which caused the infection.

This makes your lymph nodes swell

Question 17

Q: How do lymphocytes enter the lymph nodes?

Answer 17

A: come in the circulation and leave via high endothelial venules and enter the lymph nodes.

They are directed by CHEMOKINE gradients via chemokinesis to their correct position.

Question 18

Q: How is an immune response triggered in a lymph node?

Answer 18

A: Dendritic cells migrate through the lymph and into the lymph nodes where it presents antigens to recirculating lymphocytes to trigger an immune response

Question 19

Q: What is the role of the spleen?

Answer 19

A: Filter for antigens IN THE BLOOD

Question 20

*Q: What is the structure of the spleen? Diagram.

Answer 20

A: White pulp immediately surrounds the blood vessels in the spleen

WHITE PULP - where the lymphocytes are

RED PULP - the rest of the spleen is red because this is the site of turnover of red blood cells

Splenic Artery brings the blood in and is surrounded by lymphocytes.

The area absolutely adjacent to/around the central arteriole is the periarterial lymphatic sheath (PALS) - mainly a T cell area

Adjacent to PALS is the B cell area= follicles either primary or secondary and around those is marginal zone= seems to be primary site of entry of T and B lymphocytes into white pulp

REFER

Question 21

*Q: How does the structure of the spleen change upon infection?

Answer 21

A: If there is an ongoing immune response you can get germinal centers in the spleen.

Question 22

Q: What are people without spleens more susceptible to?

Answer 22

A: INFECTIONS WITH ENCAPSULATED BACTERIA- Encapsulated = encapsulated with polysaccharide

Question 23

*Q: What is MALT? Where is it found? 3 examples.

Answer 23

A: mucosal associated lymphoid tissue = aggregates of lymphoid tissue which do not have a tough outer capsule

lamina propria and sub-mucosal areas of the gastrointenstinal, respiratory and genitp-urinary tracts

tonsils and appendix and peyers patches

Question 24

Q: What structures are near likely sites of infection? (2)

Answer 24

A: some lymphoid tissue

MALT (mucosa-associated lymphoid tissue) and the cutaneous immune system are at these places

Question 25

Q: What is an example of gut associated lymphoid tissue?

Answer 25

A: PEYER’S PATCH - large aggregates of lymphocytes

Question 26

Q: How is the peyer’s patch organised? (5)

Answer 26

A: Organised into B and T cell areas

Follicles can be seen here

Villi contain draining lymph vessels

There are lots of intraepithelial lymphocytes

include M cells

Question 27

Q: What do M cells do? What structure are they related to?

Answer 27

A: M Cells (microfold) - samples antigens from the gut and deliver antigens to the lymphocytes in the Peyer’s patch

to do with function of MALT

Question 28

Q: How does the structure of the peyer’s patch change upon infection?

Answer 28

A: Contain germinal centers during immune responses

Predominantly B lymphocytes found here

Question 29

Q: Which cells are present in the cutaneous immune system? (7)

Answer 29

A: LANGERHANS CELLS - dendritic cells of the skin and mucosa -> Capture antigens in their local environment // Migrate via lymphatic vessels to draining lymph nodes

Lymphocytes

Keratinocytes- detect damage in skin and secrete signalling molecules to communicate this knowledge of damage

Dermis - you get tissue-resident macrophages

T lymphocytes circulate and can migrate to the skin if necessary

There is a dense network of immune cells in the skin (mainly langerhans cells and intraepidermal lymphocytes)

Question 30

*Q: Why is a mechanism for recirculation of lymphocytes required? (3)

Answer 30

A: Problem: There are large numbers of T cells and B cells with different specificities
There is a very small amount of antigen
There is need for a mechanism allowing the correct lymphocyte to come into contact with the antigen.

Question 31

Q: Describe the mechanism that allows circulating lymphocytes to know when they have reached the high endothelial venules HEV. (5) Why is this important?

Answer 31

A: good as they need to know when it is time for them to leave the circulation and enter the tissue

1. Rolling
2. L selectin from the lymphocyte binds to CD34. Weak bond

There are special chemokines that are bound to the HEV - let lymphocyte know that they’ve reached the right place to enter the tissue.

3. binding of lymphocyte to chemokine on HEV

surface receptor on the lymphocytes: Integrin: They have a low affinity and a high affinity binding form.

4. binding of chemokine leads to activation of integrin in that it becomes its high affinity binding form (activation of the integrin to the high affinity binding form which leads to tight binding and immobilisation of the lymphocyte)
5. Integrin can then bind to its ligand - ICAM-1 (Intracellular adhesion molecule 1) = adhesion
6. The lymphocyte then becomes immobilised and can move into the tissue = transendothelial migration

Question 32

*Q: Explain the use of CD (Cluster of Differentiation) markers for discrimination between lymphocytes.

Answer 32

A: All lymphocytes look the same under a microscope - large nucleus + small cytoplasm

Can be divided into B and T lymphocytes if we know where they’ve come from but they cannot be distinguished under the microscope.

EXPERIMENT: when people learnt to make monoclonal antibodies, they made monoclonal antibodies against the cell surface proteins of lymphocytes -> found that one particular cluster recognises one particular receptor and a different cluster recognises a different receptor.

It’s clusters of antibodies recognising cell surface proteins.

Question 33

Q: Describe T cell receptors.

Answer 33

A: ALL EXPRESS CD3 - an integral part of the antigen specific receptor

There are two groups of TCR:
alpha beta - 90% in blood
gamma delta - 10% in blood

Out of alpha beta TCR:
CD4 - 2/3
CD8 - 1/3

Question 34

Q: What are the 2 T cell subsets? Examples. What does each subset do?

Answer 34

A: CD4+ = T Helper Cells, Regulatory T Cells - these secrete cytokines

CD8+ = Cytotoxic T Cells - lyse infected cells, secrete cytokines

Question 35

Q: What type of antigen do T cells recognise? How?

Answer 35

A: Only recognise PROCESSED ANTIGENS

Recognised by the TCR

Antigens must be presented by an Antigen-Presenting Cell on their cell surface by an Major Histocompatibility Complex (MHC) molecule

Question 36

Q: Describe B cell markers. What do they express? What can they present antigens to?

Answer 36

A: They don’t have any T cell markers

All Express CD19 and CD20

Express MHC Class II

Can present antigens to Helper T Cells

Question 37

Q: What type of antigen do B cells recognise?

Answer 37

A: Recognise INTACT ANTIGENS- DO NOT have to be processed and presented.

Question 38

Q: What is the BCR? Specificity?

Answer 38

A: membrane anchored form of the antibody that they produce when activated.

The BCR has the same specificity as the antibody they produce when activated

Question 39

Q: What do APC do? How?

Answer 39

A: present processed antigens to T lymphocytes

The cells capture antigens from the outside - process the antigens - present peptides on the cell surface via MHC - triggers an immune response

Question 40

*Q: What are the 3 types of APC? Location? What is a 4th type? What makes it different? What do they present to: B or T?

Answer 40

A: Dendritic Cells- widely spread eg skin and mucosal tissue - presented at sites of likely infection-> T

B cells- lymphoid tissue-> T

Activated macrophages (activated)- lymphoid tissue->T

Follicular dendritic cells- present to B cells- found in follicles in lymph nodes which trap antigens to help B cell responses in germinal centers

Question 41

*Q: Difference between primary and secondary lymphoid organs in terms of role? (1,2)

Answer 41

A: primary generate lymphocytes from immature progenitor cells

secondary maintain mature naive lymphocytes and initiate an adaptive immune response

Question 42

*Q: What happens during passage of lymph through node?

Answer 42

A: removal of particular antigens by phagocytic cells -> transported to lymphoid regions of node

Question 43

*Q: What are Peyers patches? Found? Structure?

Answer 43

A: regions of lymphoid tissue found in gut wall

REFER

Question 44

Q: What are High Endothelial Venules (HEV)?

Answer 44

A: a specialised endothelium with a number of molecules involved in arresting the lymphocyte

HEVs enable lymphocytes circulating in the blood to directly enter a lymph node (by crossing through the HEV)

Question 45

Q: What’s the site of haematopoiesis? How does production change with infection?

Answer 45

A: bone marrow

Increased white cell production during infection

Question 46

Q: Where are blood cells made in foetus vs adult? Describe adult.

Answer 46

A: Foetus - these cells are also produced in the liver and spleen

Adults - mainly the ends of the long bones where you find most of the marrow - the marrow becomes less cellular with more fat droplets