Infection and immunology of the gut

Question 1

Why are there so many bacteria in the gut?

Answer 1

Massive antigen load:

• external pathogens
• dietary antigens

Question 2

What state is the gut immune system in?

Answer 2

The gut immune system is in a restrained state - tolerance vs active immunity

Question 3

What are the most prevalent bacteria in the gut, especially the colon?

Answer 3

bacteroidetes

Question 4

What are the functions of the microbiota?

Answer 4

• oral tolerance
• enzyme alteration
• motility alteration
• alteration of cell turnover

Question 5

What are some features of the microbiome?

Answer 5

• 10,000 different types of organisms
• diverse types between humans
• diet, host genetics and early microbial exposure affect repertoire
• different body site have unique communities
• at particular sites microbe have similar genes/functions

Question 6

Describe the distribution of microbiota in GI tract

Answer 6

• Loads in the mouth is because we put lots of dirty things into it, including food, fluid, cutlery, air etc.
• Into the stomach, the low pH kills lots of bacterial populations so near 0 (except H. pylori)
• The number is kept low in the duodenum, jejunum and proximal ileum because of paneth cells and Peyer’s patches
• Beyond the ileocaecal valve the number of microorganisms increases markedly

Question 7

Helicobacter pylori: what is it , what does it cause and treatment?

Answer 7

• gram negative, rod
• in response to H.Pylori excess acid production which causes the damage
• in chronic cases, atrophy of stomach wall and malignant growths
• causes: gastritis, gastric or duodenal ulcers, gastric carcinoma
• investigations include blood antibodies, stool antigen, urea test, breath test
• treatment is 1 week with proton pump inhibitor and amoxicillin

Question 8

Traveller’s diarrhoea

Answer 8

Bacterial, viral and ameobic

• bacteria: E.coli, shigella, salmonella and cholera
• viral: rotavirus, norovirus (most common are viruses)
• ameobic: giardia

Question 9

Norovirus, incubation period and length of infectiousness

Answer 9

causes acute gastroenteritis in less than 3 days, in 24-48 hrs incubation and infectious for up to 2 weeks

Question 10

What are the types of diarrhoea caused by different E.coli types?

Answer 10

enterotoxigenic E. coli (watery)
enterohaemorrhagic
enteropathogenic
enteroevasive (bloody)e

Question 11

Clostridium difficile

Answer 11

• antibiotics kill commensals and this is able to produce toxins causing mucosal injury
• then neutrophils and RBC leak into the gut
• Produces toxins A and B
• results in pseudomembranous colitis
• treatment include isolating, stopping AB, vanocmycin, faecomicrobiota transplantation

Question 12

Mucosal defence - 3 types?

Answer 12

• physical (anatomical: epithelial layer, peristalsis and chemical: pH, enzymes)
• commensal bacteria
• immunological (MALT, GALT)

Question 13

The structure and function of the epithelial barrier

Answer 13

• mucus secreted by goblet cells, maintained by glycocalyx
• monolayer has tight junctions, antimicrobial peptides and IgA
• paneth cells in crypts secrete lysozymes and defensins

Question 14

Organisation of GALT

Answer 14

seperated into organised and non organised:

Organised: cryptopatches, peyer’s patches (SI), isolated lymphoid follicles (colon), mesenteric lymph nodes

Non organised: floats randomly in sub epithelial e.g. intra epithelial lymphocytes and lamina propria lymphocytes

Question 15

What is the function of GALT?

Answer 15

generate lymphoid cells and antibodies and cell mediated immunity

Question 16

GALT - Peyer's patch
where is it
when does it develop
what does it consist of
what is present and not

Answer 16

• found in distal ileum
• develops throughout life into teens
• has B cell and T cells areas
• covered by follicle associated epithelium
• has no goblet cells, IgA, microvilli
• infiltrated by T/B cells, macrophages and dendritic cells
• antigen taken up by M cell on epithelium
• similar found in colon

Question 17

What do mature naive B cells express in PP?

Answer 17

IgM and class switch to IgA
They populate lamina propria

Question 18

IgA antibody

Answer 18

• upto 90% of gut B cells make this
• dimeric at mucosa
• prevents invasion, adherence and does not activate complement or Tc cells

Question 19

T cells adaptive response - 3 signals

Answer 19

Determined by 3 signals:

• presentation of antigen MHC by DC
• costimulatory signal from DC
• secretion of cytokines by DC

Question 20

Give examples of some types of T cells

Answer 20

th1 - cellular, automimmunity
th2 - humoural e.g asthma
th17 - inflammation, autoimmunity
iTreg

Question 21

Pathway of lymphocytes after activation

Answer 21

proliferate in mesenteric lymph node -> thoracic duct -> circulation -> go to sites similar to where they were activated

Question 22

What regulates T cell homing (know where they are from and can return)

Answer 22

• T cells exhibits alpha4beta7 intergin
• gut epithelium exhibits MAdCAM -1
• Interaction between the two means t cells specific to gut

Question 23

What may loss of tolerance cause?

Answer 23

• inflammatory bowel disease
• coeliac disease
• food allergies

Question 24

Coeliac disease histology

Answer 24

• villus atrophy so less absorption

- large infiltrate of intra epithelial lymphocytes

Question 25

Pathogenesis of coeliac disease

Answer 25

• MHC has two hit model of mutation in DQ2 or DQ8
• grains like gluten stimulate AP cells to activate CD4 t cells and macrophages with IL-15 which causes epithelial remodelling and atrophy

Question 26

Presentation of coeliac disease and treatment

Answer 26

• anaemia
• malnourished
• diarrhoea
• bloating
• scurvy/osteoporosis
• steatorrhoea

treatment:
diet restriction (gluten free)

Question 27

Inflammatory bowel disease- Chron’s and ulcerative colitis, what is it?

Answer 27

• inappropriate chronic immune response against gut microbes

Question 28

Incidence and trends in ulcerative colitis and Chron’s

Answer 28

• UC has higher incidence but Chron’s incidence is increasing more
• Incidence increasing in young and non western countries

Question 29

Which 4 factors contribute to the effects of IBD?

Answer 29

• smoking (smoking cessation worsens UC and smoking worsens Chron’s)
• stress
• diet
• vitamin D

Question 30

What are some changes occurring in Chron’s disease?

Answer 30

• dysbiosis - reduction in diversity, anterobacteriacea and reminococcus gnavus rise and drop in clostridium types
• rise in fusobacteriacea which can progress to colorectal cancer
• rise in pastuerellacaea, veillonellaceae and pathogenic E coli

Question 31

What are some changes occurring in UC?

Answer 31

decreases in faecalibacacterium praunsnitzii and reseburai hominus

Question 32

What are the overall changes in the microbiome in IBD (not organisms)?

Answer 32

• change in oxidative stress pathways
• decreased carbohydrate metabolism
• decreased amino acid synthesis
• in ilieal Chron’s increase in virulence and secretion pathways

Question 33

Virome in IBD?

Answer 33

Expansion of caudovirales and bacteriophages

Question 34

Fungal microbiota in IBD?

Answer 34

there is some

Question 35

Treatment for IBD

Answer 35

immune targets

• CAM inhibitors
• TNF alpha inhibitos
• JaK3 inhibitors

Question 36

What is the function and importance of M cells?

Answer 36

• FAE contains specialized enterocytes or M cells
• The main function of M cells is to perform transcytosis of luminal bacteria, antigens and proteins
• M cells express IgA receptors, facilitating transfer of IgA-bacteria compex into the peyer’s patches
• Antigen uptake is a combined effort by specialised M-cells and dendritic cells

Question 37

IgA dimer secretion

Answer 37

• SIgA is a dimeric form of IgA - In the plasma cell, two IgA molecules are bound together by a J-chain, and secreted into the interstitial space.
• The dimer binds to a special receptor on the external basolateral surface of enterocytes
• This receptor becomes the secretory component and binds to the length of the IgA dimer, becoming SIgA
• SIgA is then endocytosed into the epithelial cell and actively transported within a vesicle to the apical membrane, where it is exocytosed into the gut lumen.
• The secretory component protects the antibody dimer from enzymatic and acidic degradation

Question 38

How do lymphocytes exit circulation?

Answer 38

• L-selectin is expressed on the surface of lymphocytes and mediates the low adhesive interactions that enable leukocytes to roll in postcapillary venules and HEVs
• In HEVs, L-selectin binds to (MAdCAM-1)
• In addition to the HEVs of Peyer’s patches and mesenteric lymph nodes, MAdCAM-1 is expressed on the endothelial cells localised in the lamina propria of the small and large intestine and enables lymphocyte recruitment

Question 39

Where can MAdCAM-1 be found?

Answer 39

HEVs of Peyer’s patches and mesenteric lymph nodes

On endothelial cells localised in the lamina propria of the small and large intestine

Question 40

What are some symptoms of irritable bowel syndrome?

Answer 40

• Recurrent abdominal pain
• Abnormal bowel motility
• Constipation and/or diarrhea

Question 41

What are the treatments for IBS?

Answer 41

Diet modification - Avoiding certain foods such as apples, beans, cauliflowers

Treatment of constipation - soluble fiber, stool softeners and osmotic laxatives

Treatment of spasms and pain - anti-diarrheals, anti-muscarinic

Management of stress, anxiety, depression

Question 42

What are some triggers for IBS?

Answer 42

Acute gastreoenteritis, stress

Question 43

What causes pain in IBS and diarrhoea?

Answer 43

Short chain carbohydrates trigger symptoms - maybe unabsorbed ones act as solutes leading to diarrhoea. They are metabolised by bacteria causing gas.

Question 44

Mechanism behind coeliac disease

Answer 44

• Gliadin (component of gluten) is not broken down in the stomach, reaches the small intestine, and binds to the secretory IgA in the mucosal membrane.
• Gliadin-secretory IgA complex binds to the Transferrin receptor (TFR) and are transferred to the lamina propria.
• Enzyme tissue transglutaminase (tTG) cuts off amide group from the protein.
• Deamidated gliadin is phagocytosed by the macrophages, and presented by MHC II molecules.
• This leads to activation of immune system causing destruction of epithelial cells.

Question 45

How is coeliac disease diagnosed?

Answer 45

• Antibody blood tests (anti-gliadin, anti-tTg, anti-endomysial)
• Biopsy test of duodenum

Question 46

What is thought to be responsible for chron’s disease?

Answer 46

Frame-shift mutation in NOD2 gene

Immune-related disorder - triggered by pathogens such as mycobacterium paratuberculosis, pseudomonas, and listeria

Unregulated immune response causing the destruction of cells in the GI tract.

Question 47

Treatment for Chron’s

Answer 47

• anti inflammatory drugs, antibiotics
• immunosuppressants
• remove tissue
• liquid diet
• food intolerance tests

Question 48

Mechanism of UC?

Answer 48

Autoimmune disorder - T cells destroy the cells lining the walls of large intestine
Secondary cause - Diet and stress

Question 49

Treatment for UC?

Answer 49

• anti inflammatory drugs
• immunosuppressant
• colectomy
• diet changes
• pre/probiotcs
• drink fluids and nutritional drinks for diarrhoea

Question 50

Cholera: symptoms, mechanism, diagnosis and treatment

Answer 50

symptoms:

• vomiting
• abdominal pain
• diarrhoea

mechanism:

• The bacteria reaches the small intestine from the stomach, where the flagellum propels it towards the epithelial cell.
• On making close contact it releases cholera toxin.
• Cholera toxin on entering the epithelial cell, starts a series of biochemical reactions resulting in exit of ions such as Na+, K+, Cl- and water from the epithelial cell.

diagnosis:
stool test

treatment:

• Drink a lot of fluids.
• Antibiotics?
• Vaccination for cholera is also available.