E.coli

Question 1

E.coli organism

Answer 1

-rod-shaped, non spore-forming gram-negative, facultative anaerobe
- belongs to the family enterobacteriaceae
- serotyped using: O antigens of LPS, H antigens of flagellin protein
- Produces pilli - the smaller surface projections
And produces peritricus flagella

Question 2

why is E.coli a model organism

Answer 2

-Can be easily genetically manipulated
- it grows quickly on range of media
- genetic systems well developed
- metabolically versatile

Question 3

dual aspect of E.coli

Answer 3

E.coli has a dual aspect of being both a commensal organism and a pathogen

Question 4

e.coli - commensal organism

Answer 4

• colonises GI tract a few hours after birth
• most abundant facultative anaerobe of human intestinal microflora

Question 5

E.coli - pathogen

Answer 5

– UTI
- Diarrhoea
- haemolytic uraemic syndrome
- septicaemia, pneumonia, meningitis

Question 6

pathotypes of E.coli

Answer 6

pathotypes - groups of strains from within a single species that cause a specific disease using a common set of virulence factors

• extra-intestinal E.coli
• diarrheagenic pathotypes

Question 7

• extra-intestinal E.coli

Answer 7

• neonatal meningitis
• uropathogenic
• avian pathogenic

Question 8

diarrheagenic pathotypes

Answer 8

• enteropathogenic (EPEC)
  -enterohaemorrhagic (EHEC)
  -enterotoxigenic (ETEC)
  -enteroaggregative (EAEC)
  -enteroinvasive (EIEC)

Question 9

site of pathogenic E. coli colonisation

Answer 9

These pathotypes cause different diseases through colonising different sites on the body

• brain: NMEC
  -bloodstream: UPEC and NMEC
• large bowel: EHEC, EIEC, and EAEC
  -kidney: UPEC
• small bowel: EPEC, ETEC, DAEC, and EAEC
• bladder: UPEC

Question 10

site of diaarhoeagenic E.coli colonisation - large intestine

Answer 10

The role of the 7 metre long intestine is to both absorb nutrients but also to form a barrier to toxic substance and bacteria entering the human body: has undulating ridges and villi to increase SA
- Diaryogenic bacteria must colonise this environment, often directly interacting with these polarised epithelial cells

Question 11

enteropathogenic E.coli

Answer 11

-important cause of infant diarrhoea in developing countries
diarrhoea results from multiple mechanisms:
- active ion secretion
- increased intestinal permeability
- increased inflammation
- a loss of absorptive microvilli

The most characteristic function of EPEC infection is the intimate interaction it can set up with host cells termed the ‘attaching and effacing’ phenotype

Question 12

pathogenic mechanisms of enteropathogenic E.coli

Answer 12

-EPEC is an ectracellular pathogen initially binding to the host cell surface using bundle forming pili
-following binding EPEC injects a variety of effector proteins into the host cell using a type 3 secretion system - these hijack the cells for the benefit of the bacterium
- the most prominent change in cell structure is the formation of attaching and effacing structures on epithelial cells

Question 13

what is effacement

Answer 13

effacement is the destruction of the microvilli with production of the pedestal by T3SS effector protein mediated cytoskeletal changes involving acrin polymerisation

Question 14

enterohaemorrhagic E.coli

Answer 14

EHEC causes: - non bloody or bloody diarrhoea, haemolytic uraemic syndrome

-similar attaching and effacing activity to EPEC
- importantly produces shiga toxin (Stx)
- outbreaks - particularly associated with beef/beef products and farm visits by children
- serotype 0157:H7 most important in US/UK

Question 15

EHEC Stx as a virulence factor

Answer 15

• an A1B5 type toxin - Stx or veryoctyotoxin
• EHEC Stx is closely related to Shiga toxin produced by shigella species responsible for dysentery
• receptor for B subunit of toxin is glycolipid globotriaosylceramide
• intracellular target of toxin A subunit is ribosomal RNA that is cleaved leading to cessation of protein synthesis

Question 16

EHEC STX toxin mechanism of action

Answer 16

-Stx A subunit contains the active site glutamic acid at position 167/293 of the AI subunit
- cleavage at trypsin-sensitive region results in an A1 subunit and A2 peptide linked via a disulphide bond
- the b pentamer allows the toxin to bind to cells that express Gb3 glycolipid on their surface
- toxin is taken up by endocytosis, transported in a retrogade manner through the Golgi/ ER and the AI domain released into the cytoplasm
- toxin cleaves 28srNA component of the ribosome halting protein synthesis

Question 17

EHEC symptoms

Answer 17

in the colon, Stx can cause bloody diarrhoea, hemorrhagic colitis, necrosis and intestinal perforation
- however, Stx can travel in the bloodstream to the kidney
- receptor is found on kidney cells and toxin binding leads to inflammation and potentially HUS with symptoms:
- haemolytic anaemia
- thrombocytopenia
- ultimately acute renal failure

Question 18

EHEC causing Haemolytic uraemic syndrome (HUS)

Answer 18

• EHEC is the most common cause of HUS
• classic symptoms of HUS present within 2-12 days following onset of diarrhoea in approximately 15% of cases of EHEC - associated gastroentiritis
• children under 5 and the elderly are more likely to progress to HUS

Question 19

epidemiology of EHEC in the UK in 2018

Answer 19

in 2018, 607 confirmed cases of EHEC O157 were reported in england and wales
- almost 1/3 of cases were hospitalised
- 612 non- O157 EHEC cases
- four EHEC outbreaks reported, involving 55 cases

Question 20

EPEC/N EHEC pathogenicity island

Answer 20

• Contains 41 genes
  This locus is necessary and sufficient for the production of the attaching and effacing phenotype by an ecoli strain
• Thus the EPEC lee can be transferred to an ecoli K-12 lab strain and this will now interact with host cells in exactly the same way
  ○ To remove microvilli and produce the predestal structure
  -The 41 lee genes are arranged into 7 transcripitonal units or operons containing mulitple co regulated genes
  
  • LEE1 through to LEE7
    There are also 4 genes that have their own individual promoters

Question 21

locus of enterocyte effacement - secreted translocator proteins

Answer 21

Form the needle and translocon at the Tip of the machinery, interacting with the host
cell

Question 22

locus of enterocyte effacement - chaperones

Answer 22

Ensure the appropriate effector Proteins are secreted

Question 23

locus of enterocyte effacement - transcriptional regulators

Answer 23

Ensuring that this machinery is only produced in the appropriate environment

Question 24

locus of enterocyte effacement - intimin

Answer 24

Present on the bacterial cell surface and acts as an adhesin binding to one of the
Secreted effector proteins Tir

EPEC injects the receptor TIR, into the host cell, that then localises to the cell membrane whilst EPEC also produces the adhesin intimin, which specifically binds to this receptor

Question 25

ETEC clinical features

Answer 25

• watery diarrhoea sometimes with vomiting and fever
• mild to severe profuse cholera-like illness

Question 26

ETEC epidemiology

Answer 26

• food and very commonly water-borne infection via faecal-oral route
• a common cause of diarrhoea in low income countries and is often a child’s first symptomatic enteric illness
• repeated rounds of infection are common in the first 2 years o life eventually leading to protective immunity
• infection can be fatal in infants and young chilfdren
  estimated 200 million cases of ETEC diarrhoeal disease each year with 50,000 deaths

Question 27

ETEC adhesins - fimbrial

Answer 27

• over 20 antigenically distinct fimbriae produced
• referred to as colonisation factor antigen (CFA) or coli surface antigen pili
• the majority of ETEC strains isolated from humans express either CFA/I, CFA/II, or CFA/IV
• belong to the chaperone usher family of pili
• critial for virulence
• many of these are uncharacterised
• genes for fimbrial adhesins often on high. molecular weight plasmids that also contain genes for LT/ST toxins

Question 28

ETEC adhesins - afimbrial - Tia

Answer 28

• 25 kDa outer membrane protein
• mediates attachment to intestinal epithelial cells as well as their invasion
• binds heparin sulphate proteoglycans promoting adherence and invasion of host epithelial cells

Question 29

ETEC adhesins - afimbrial - toxigenic invasion locus B

Answer 29

• a member of the self-associating autotransporter family
• outer membrane located 104 kDa glycoprotein
• glycosylation required for oligomerisation and adhesion to host cells

Question 30

ETEC adhesins - afimbrial - ETEC two-partner secretion protein A protein

Answer 30

• transiently located at the tip of ETEC flagella
• bridges across the flagella tip with host cell receptors
• mediates ETEC attachment to epithelial cells

Question 31

ETEC toxins - heat labile toxins

Answer 31

• plasmid-encoded heterohexameric holotoxin (closely related to cholera toxin)
• single A subunit with 2 domains(A1/A2) linked by disulfide bridges:
  - A1: active toxin molecule
  - A2: helical anchor to B pentamer
• intact A subunit not enzymatically active until nicked to A1, A2
  - A1 subunit released by reduction of disulfide bond
• pentameric B subunit
  
  • binds to GM1 gangliosides on host cell surface
  • triggers endocytosis of holotoxon

Question 32

ETEC toxins - heat stable toxin

Answer 32

• retains activity following 95 degrees for 60 minutes
• family of small peptide toxins:
  
  • STa and STb families with differing structure and mechanism of action
  • STa associated with human disease
• receptor for STa is host cell guanylate cyclase - regulates intracellular cyclic gmp LEVELS
• STa structural mimic of endogenous human peptide suanylin endogenous ligand for guanylate cyclase
• ST produced as a precursor of approx 72 amino acids
• cysteine rich - intramolecular disulphide bonds important part of structure

Question 33

pathogenic mechanisms of enterotoxigenic E.coli

Answer 33

Sta toxin upregulates guanylyl cyclase which upregulates cyclic GMP levels and that directly upregulates CFTR

A bacteria can adhere through fimbrae on the cell surface and then it produces toxins which is why we get disease
- That has implications because then we get uptake and release of the A subunit
- Then we get this process where we get increased activity of adenyl cyclase and upregulation of cyclic AMP which affects protein kinase, which affects the acitivity of the CFTR transporter - so chloride secretion
- And that causes fluid loss and the watery type diarrhea

Question 34

enteroaggregative E.coli

Answer 34

• often cause a persistent diarrhoea in children
• binds intestinal cells with no resultant histological changes
• bacterial aggregation key feature of infection
• secrete array of enterotoxins and cytotoxins

Question 35

Enteroinvasive E.coli

Answer 35

an intracellular pathogen
- related to shigella species
- generally watery diarrhoea can get invasive inflammatory colitis even dysentry
- host cell invasion but dissemination beyond submucosa rare
- virulence associated with plasmid pINV-borne type III secretion system
- VirG protein localises to single pole of cell recruiting and activating N-WASP and Arp2/3 complex for actin polymerisation
- mediates intercellular spread