Innate Myeloid and Lymphoid Cells

Question 1

What are the two types of macrophages?

Answer 1

There are two types of these - tissue resident macrophages and recruitment macrophages

Question 2

What do tissue resident macrophages do?

Answer 2

• They capture and destroy pathgoenic intruders and are found in every tissue of the body.
• They also recruit other innate effector cells through chemokines and are essential for wound healing and tissue remodelling.
• They are also needed for development e.g. making fingers.
• They also maintain tissue homeostatis by removing apoptitic cells and maintain tissue resident T cells.

Question 3

What growth factor do macrophages rely on?

Answer 3

Colony stimulating factor 1 or Il-34 or GM-CSF

Question 4

In health what do macrophages do?

Answer 4

They mainly remove apoptosed cells

Question 5

What are recruited macrophages?

Answer 5

They are derived from classical blood monocytes and recruited in response to inflammation. They are short lived

Question 6

What do recruited macrophages do?

Answer 6

They are highly phagocytic and bactericidal and produce pro-inflammatory cytokines and chemokines

They also present T cells with any antigens on MHC class 2

Question 7

What is dysregulation of macrophages a feature of?

Answer 7

Severe covid19 - this is because recruitment of monocytes with an aggressive inflammatory phenotype are disregulated in the lungs

Question 8

What do macrophages do when activated?

Answer 8

They are activated by DAMPS and can become different macrophages and respond to specific infections. Monocytes come into the cell via chemokine receptors which are highly pro-inflammatory.

Question 9

What are neutrophils?

Answer 9

They are polymorphonuclear phagocytes that are short lived in the blood.

Question 10

What do neutrophils rely on for development?

Answer 10

GM-CSF and G-CSF

Question 11

How are neutrophils recruited to the infection site early?

Answer 11

With chemokines CXCL1, CXCL2, IL-8 or fMLP, leutrienes

Question 12

Do neutrophils die at the site of infection?

Answer 12

Yes and are cleared up by tissue resident macrophages

Question 13

How do neutrophils kill?

Answer 13

Phagocytosis
Degranulation (these can be released to kill - are toxic)
NETS

Question 14

How do neutrophils kill via phagocytosis?

Answer 14

Pathogens are coated in antibodies and complement and neutrophils take up these particles into vesicles where they are broken down by things such as toxic nitrogen products, toxic-oxygen derived products, anti-microbial peptides, emzymes or via competition e.g. starving the pathogens of iron

Question 15

What are the different kinds of granules that neutrophils can release?

Answer 15

Primary
Secondary
Tertiary

Antimicrobial but can help them navigate through tissue

Question 16

What do NETS do?

Answer 16

Release of histone proteins and anti-microbial peptides to catch the microbes and destroy them

Question 17

What is chronic granulomatous disease?

Answer 17

A disease which occurs when you have issues with neutrophils because of defects in NADPH.

You become infected with opportunistic pathogens which causes accummulation of chronically infected phagosytes and formation of granulomas.

Question 18

What are eosinophils?

Answer 18

These circulate in low numbers in the blood and are short lived. You can find them via staining with acidophilic dyes.

Question 19

What is needed for eosinophil development?

Answer 19

IL-5 and IL-3 and CSF2

Question 20

How are eosinophils recruited?

Answer 20

Recruited via the CCR3 in response to chemokines CCL11, CCL24, CCL26

Question 21

What type of receptors do eosinophils have?

Answer 21

Cytokine, lipid mediators, Fc, PRRs

Question 22

What do eosinophil granules rapidly release?

Answer 22

Major basic protein (MBP)
Eosinophil cationic protin (ECP)
Eosinophil peroxidase
Eosinophil derived neurotoxin (EDN)

Question 23

What do eosinophils direcly target?

Answer 23

Anti-parasite action, tissue repair and remodelling

Question 24

What do eosinophils cause?

Answer 24

Type 2 immune response encourages macrophages to site of infection.

Question 25

When disregulated what do eosinophils cause?

Answer 25

Allergies etc.

Question 26

What are mast cells and what groups can they be split into?

Answer 26

Tissue resident cells and can be split into mucosal mast cells and connective tissue mast cells. These are relatively long lived.

Question 27

What do mast cells depend on for development?

Answer 27

Stem cell factor and IL3

Question 28

What do basophils depend on and what do they do?

Answer 28

Depend on IL3 and TSLP and are short lived molecules which circle in the blood

Question 29

What do mast cells and basophils have?

Answer 29

Receptors and granules which can be released when infection occur.

Question 30

What is found in mast cell and basophil granules?

Answer 30

Histamine, serotonin, heparin, leukotrienes, prostaglandins, several proteases and degranulation induced by IgE or IgG.

Question 31

What do mast cells and basophils cause?

Answer 31

These cause vasodilation, vascular permeability, smooth muscle contraction, remodel connective tissue and leukocyte migration.

Triggers weep and sweep response to get rid of helminths.

Question 32

What happens in mast cell disfunction?

Answer 32

Goblet cell hyperplasia and also hypersensitivity such as allergies.

Question 33

What do Dendritic cells do?

Answer 33

They phagoctye and preserve antigens to show to T cells (they are APC)

Question 34

Where are dendritic cells from and what do they rely on?

Answer 34

From pre-DC progenitors in BM and rely on growth factors FIt3L and CSF2

Question 35

How are dendritic cells activated and what do they do then?

Answer 35

Danger via PRR, they then pick up the antigen and migrate to lymph node following CCR7.

Question 36

In the lymph nodes what happens to T-cells?

Answer 36

The T cells notice the presented Ag and are primed. They then clonally expand and specilise into subsets best suited to deal with pathogen.

Question 37

How do T-cells then know how to get to where the dendritic cell found the infection?

Answer 37

Chemokine receptors

Question 38

Do dendritic cells show T-cells all antigens even harmless ones?

Answer 38

Yes but you shouldn’t respond and this leads you to have tolerance.

Question 39

What happens if the dendritic cells fail at tolerance?

Answer 39

Autoimmunity, chronic autoinflammatory diseases, allergy

Question 40

What happens if dendritic cells fail at causing protective immunity?

Answer 40

Chronic or overwhelming infection

Question 41

What are the three steps of Dendritic Cell interacting with a T cell?

Answer 41

1 - presentation of peptides on MHC class 1 or 2. MHC 1 presents to CD8+ T cells (mainly cytostolic antigens) and MHC2 presents to CD4+ T cells (mainly exogenous antigens).

2 - costimulatroy molecule expression - CD40, CD80, CD86 by DC must bind to CD28, CTLA by T cells which gives an activation signal if there or an inhibitory signal if not there.

3 - cytokine produced by DC directs the nature of the T cell either Th1, Th2, Th17, Treg (you only want this if the antigen picked up is something from the microbiota) or CTL

Question 42

How do we know DC are needed in tolerance?

Answer 42

Delete the cytokine FIt3L in mice leading to reduce Treg and autoimmunity

Knockout CCR7 leads to mice failing to develop oral tolerance

If you delete MHC2 on DC in mice this prevents Treg from priming

If you delete integrins and molecules needed for migration back to site of infection you do not get tolerance.

If you delete Tregs after they have been produced you dont get oral tolerance.

Question 43

How do we know DC’s are needed in protective immunity?

Answer 43

If you knockout FIt3L mice fail to induce effector T cell response to pathogen

Lymphocyte deficient mice are highly immunocompromised e.g. SCID

Mice unable to generate specific effector T cells are susceptible to distinct pathogen

Question 44

In humans what leads to abnormal monocyte and DC development?

Answer 44

IRF8 deficiency

Question 45

What are Innate lymphoid cells (ILC’s)?

Answer 45

These are similar to T cells but have a dedicated ILC progenitor in BM and their role is to be present in tissue, detect things early and ellicit a response.

Question 46

How are ILC’s different from T-cells?

Answer 46

1 - lymphoid morphology
2 - no myeloid markers
3 - No Rag-dependent rearranged AgRs
4 - relatively rare in lymphoid tissue (high numbers in lymphoid cells)

Question 47

What roles do ILC’s play in health and disease?

Answer 47

Inflammtion due to cytokine release

Question 48

Do ILC subsets perform distinct functions?

Answer 48

Yes, there is at least 3 which lines up with their T cells.

Question 49

What do group 1 ILC’s do?

Answer 49

These include NK cells and are characterised by needing IL-15, IL-7 and IL-15 and produce cytokines IFN gamma and TNF

Question 50

What do group 2 ILC’s do?

Answer 50

These are like Th2 cells and rely on IL-7 for development. They release IL-4 (in humans), IL-5, Il-13 and AREG

Question 51

What do group 3 ILCs?

Answer 51

These are developed from IL-7 and release IL-17A, IL-17 and IL-22

Question 52

How are ILC’s good?

Answer 52

They are early respondants to infection and release cytokines to help control the invasion

Question 53

Why can ILC’s be bad?

Answer 53

They can react innapropriately and increase the amount of proinflammatory cytokines in the body leading to diseases such as IBD and allergic asthma