1b Immunology of the Gut

Question 1

Describe the antigen load in the gut?

Answer 1

Massive antigen load
- resident microbiota
- dietary antigens
- exposure to pathogens

Question 2

Why is the GI Tract immune system in a state of ‘restrained activation’?

Answer 2

It balances tolerance of food antigens and commensal bacteria vs immunoreactivity against pathogens

Question 3

What are gnotobiotic mice?

Answer 3

These are mice which have been colonized to be germ-free

They are used in experiments to derive the relationship between microbiota and immune system’s response to them

Question 4

What are the four major phyla of bacteria found in the gut microbiota?

Answer 4

Bacteroidetes, Firmicutes, Actinobacteria, Proteobacteria, as well as viruses and fungi

Question 5

What factors which the host does leads to bacterial growth?

Answer 5

Ingested nutrients
Secreted nutrients

Question 6

Which factors leads to bacterial lysis and bacterial elimination?

Answer 6

Chemical digestive factors
peristalsis, contractions and defecations

Question 7

In general, explain why bacterial content varies as you pass down the GI tract

Answer 7

The chemical digestive factors produced by the host impact viability of the bacteria to survive in different parts of the GI tract

The bacterial content increases as you pass down the GI tract because the factors produced are less hostile to bacterial growth.

Question 8

List the chemical digestive factors produced by the stomach, liver, pancreas, small intestine and colon respectively

Answer 8

Stomach - Pepsin, gastric lipase
Liver - bile salts
Pancreas - trypsin, amylase and carboxypeptidase
Small Intestine - Brush border enzymes
Colon - nothing

Question 9

What is Dysbiosis?

Answer 9

Altered microbiota composition

Question 10

What is the balance of dysbiosis between?

Answer 10

Symbionts = regulation
Commensals
Pathobionts = inflammation

Question 11

Define the term ‘Symbiont’

Answer 11

Lives with a host but no benefit/harm to either

Question 12

Define commensals?

Answer 12

Microorganisms that benefit from association with the host but doesn’t affect the host

Question 13

Define pathobiont?

Answer 13

Symbiont that doesn’t naturally produce an immune response but under certain environmental conditions can produce dysregulated inflammation/disease.

Question 14

Give 5 factors that can either contribute to the maintenance of healthy microbiota or towards dysbiosis

Answer 14

1) Infection or inflammation

2) Diet

3) Xenobiotics

4) Hygiene

5) Genetics

Question 15

Give 5 examples of metabolites and toxins which bacteria produce that can cause damage to body systems

Answer 15

TMAO

4-EPS

SCFAs

Bile acids

AHR Ligands

Question 16

What are the anatomical barriers which contribute to mucosal defense?

Answer 16

Epithelial barrier
Peristalsis

Question 17

What are the chemical barriers which contribute to mucosal defense?

Answer 17

Enzymes
Acidic pH

Question 18

What dysfunction can TMAO cause in the body?

Answer 18

TMAO = Trimethylamine N-oxide

Can cause atherosclerosis due to increased cholesterol deposition

Question 19

What has 4-EPS been associated with?

Answer 19

Increased levels of autism

Question 20

What are decreased numbers of SCFA’s associated with?

Answer 20

SCFAs = Short-chained fatty acids

Decreased numbers of SCFAs are associated with Inflammatory bowel disease

Question 21

What are increased numbers of SCFAs associated with?

Answer 21

Neuropsychiatric disorders like stress

Question 22

What are AHR ligands associated with?

Answer 22

What are AHR ligands associated with?

Question 23

What are the two immunological defense mechanisms following an invasion?

Answer 23

MALT (Mucous associated lymphoid tissue)

GALT (Gut associated lymphoid tissue)

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Question 24

Where is MALT tissue particularly rich?

Answer 24

MALT is particularly rich within the oral cavity ( the three tonsils - palatine, lingual and adenoid)

It is found in the submucosa below the epithelium as a lymphoid mass containing lymphoid follicles

Question 25

What cells make up the mucus layer?

Answer 25

Goblet cells

Question 26

What are paneth cells and how are they used in mucosal defense?

Answer 26

They are cells of the small intestine, found at the bases of the cypts of lieberkuhn and they secrete anti-microbial peptides (defensins) and lysozyme

Question 27

What is found in the epithelial monolayer?

Answer 27

Tight junctions

Question 28

Where is MALT found?

Answer 28

Found in the submucosa below the epithelium, as lymphoid mass containing lymphoid follicles

Question 29

What are the lymphoid follicles of MALT surrounded by?

Answer 29

Follicles are surrounded by HEV postcapillary venules, allowing easy passage of lymphocytes

Question 30

Which tissue is rich in MALT?

Answer 30

Oral cavity - palatine tonsils, lingual tonsils, pharyngeal tonsils

Question 31

What is GALT tissue responsible for?

Answer 31

Adaptive and innate immune responses

Question 32

What does GALT consist of?

Answer 32

Consists of B & T lymphocytes, macrophages, APC (dendritic cells), and specific epithelial & intra-epithelial lymphocytes

Question 33

What are the four organised structures of GALT?

Answer 33

Peyer’s patches (small intestine)
Caecal patches (large intestine)
Isolated lymphoid follicles
Mesenteric lymph nodes (encapsulated)

Question 34

What are the two non-organised structures of GALT?

Answer 34

Intra-epithelial lymphocytes - Make up 1/5th of intestinal epithelium, e.g. T-cells, NK cells

Lamina propria lymphocytes

Question 35

What are Peyer’s patches?

Answer 35

Aggregated lymphoid follicles covered with follicle associated epithelium ( FAE) —> Found in submucosa of small intestine eg. mainly distal ileum

Question 36

What is special about FAE?

Answer 36

No goblet cells, No secretory IgA, no microvilli - Therefore no barrier to pathogens so Peyer’s Patches can act accordingly and increase in numbers

Question 37

How does the structure of the large intestine cellular arrangement differ from the small intestine?

Answer 37

1. Large Intestine - Outer mucus layer, inner mucus layer, and shallow crypts
2. Small Intestine - Lumen, Mucus, larger crypts with microvilli

Question 38

Where are peyer’s patches found?

Answer 38

In the submucosa of the small intestine - mainly the distal ileum

Question 39

What are peyer’s patches?

Answer 39

Aggregated lymphoid follicles covered in follicle associated epithelium

Question 40

What does the development of Peyer’s Patches require?

Answer 40

Development requires exposure to bacterial microbiota

Question 41

How to Peyer’s Patches work?

Answer 41

Antigen uptake via M (microfold) cells within FAE

M cells expressIgA receptors, facilitating transfer of IgA-bacteria complexinto the Peyer’s patches.

Question 42

Describe the growth of the Peyer’s patches from fetus to teenage years

Answer 42

Peyer’s patches contain an organized collection of naïve T cells and B cells

Development of it requires previous exposure to bacterial microbiota

Therefore, it grows over time 50 in last trimester as a foetus, 250 by the time you are a teenager.

Question 43

Describe the role trans-epithelial dendritic cells play in the immunological response

Answer 43

Dendritic cells can open up tight junction proteins and send dendrites from the outside into the lumen of the intestinal tract where they directly sample bacteria

They can then bring the bacteria back and transport them into mesenteric lymph nodes

Question 44

Describe the B cell adaptive response

Answer 44

Pathogen uptake via M cell —> Excreted into pocket found on the inner surface of the enterocyte containing APCs —> APCs engulf pathogen and display on their surface using MHC II —> DCs migrate to Peyers patches —>Mature naive B-cells express IgM in these Peyers patches but on antigen presentation switches to IgA.

• T-cells and epithelial cells influence B cell maturation via cytokine production
• B cells further mature to become IgA secreting plasma cells
• Populate lamina propria

Question 45

Describe the formation of secretory IgA within the lumen

Answer 45

Enzymatic cleavage within epithelial cells converts dimeric IgA into secretory IgA which is then released into the lumen.

Question 46

What is the function of sIgA?

Answer 46

Secretory IgA binds to luminal antigen, thereby preventing its adhesion and consequent invasion

Question 47

Describe the cycle of lymphocyte homing and circulation?

Answer 47

Mesenteric lymph node -> thoracic duct -> circulation -> lamina propria of gut lumen (containing peyer’s patches where antigen presentation and activation occurs)

Question 48

Describe alpha4beta7/ MADCAM-1 adhesion

Answer 48

The lymphocyte express alpha4beta7 integrin and the High Endothelial Venule express MADCAM-1

Chemotactic stimulation of lymphocytes leads to rolling, then activation, then arrest and internalization into tissue fluid from blood

Question 49

Why do enterocytes and goblet cells of the small bowel have such a short life-span (36 hours)?

Answer 49

Enterocytes are first line of defense against GI pathogens & may be directly affected by toxic substances in diet.

Effects of agents which interfere with cell function, metabolic rate etc will be diminished.

Any lesions will be short-lived

Question 50

What is Cholera and what agents is it caused by?

Answer 50

Cholera is an acute bacterial disease caused by vibrio cholerae serogroups O1 and O139

Question 51

What happens when the bacteria reaches the small intestine?

Answer 51

Comes into contact with the epithelium and released cholera enterotoxin

Question 52

How is cholera transmitted?

Answer 52

Faecal-oral route - spreads through contaminated water and food

Question 53

What are the main symptoms of a cholera infection?

Answer 53

Severe dehydration & watery diarrhoea

Other symptoms: vomiting, nausea and abdominal pain

Question 54

How is cholera diagnosed?

Answer 54

Diagnosis: bacterial culture from stool sample on selective agar is the gold standard, rapid dipstick tests also available.

Question 55

What is the treatment for Cholera infection?

Answer 55

oral-rehydration is the main management ; up to 80% of cases can be successfully treated.

Question 56

What class of viruses are the most common cause of diarrhoea in infants and young children worldwide?

Answer 56

Rotaviruses

Question 57

Describe rotaviruses and which one is the most common in humans?

Answer 57

RNA Virus, replicates in enterocytes

5 types A-E, type A most common in human infections.

Question 58

What is the treatment for rotaviruses?

Answer 58

Oral rehydration therapy

Question 59

Rotavirus vaccine?

Answer 59

Live attenuated oral vaccine (Rotarix) against type A introduced in UK July 2013.

Question 60

What is norovirus?

Answer 60

It is an RNA virus with an incubation period (time between exposure and when symptoms apparent) of 24-48 hours

Question 61

What is the transmission of norovirus?

Answer 61

Faecal-oral transmission.
Individuals may shed infectious virus for up to 2 weeks
Outbreaks often occur in closed communities

Question 62

what are the symptoms of norovirus?

Answer 62

Acute gastroenteritis, recovery 1 – 3 days

Question 63

How is Norovirus diagnosed?

Answer 63

Sample PCR.

Question 64

What is Campylobacter?

Answer 64

Curved bateria

Question 65

What is the transmission of campylobacter?

Answer 65

Undercooked meat (especially poultry), untreated water & unpasteurised milk
Low infective dose, a few bacteria (<500) can cause illness

Question 66

What is the treatment for campylobacter?

Answer 66

Azithromycin (macrolide) is standard antibiotic
Resistance to fluoroquinolones is problematic

Question 67

What does Enterotoxigenic E.Coli ( ETEC) do?

Answer 67

Cholera like toxin which causes watery diarrhoea

Question 68

Which pathotype of E. Coli is the most harmful?

Answer 68

Enterohaemorrhagic or shiga-toxin producing E.Coli ( EHEC/STEC)

Question 69

Which E. Coli Pathotype causes Blood diarrhoea?

Answer 69

Enteroinvasive E. coli (EIEC)

Question 70

What is the management of C. Diff. infections?

Answer 70

Isolate patient
Stop current antibiotics
Give Metronidazole and Vancomycin