Lecture 20 - E. Coli

Question 1

Ways to subtype E coli
1)
2)
3)
4)
5)

Answer 1

1) Serogroup/serotype
2) Multilocus sequence typing
3) Phage type
4) Pulsotype
5) Pathotype

Question 2

What is the difference between serogroup and serotype?

Answer 2

Serogroup refers to O antigen

Serotype refers to H antigen

Question 3

What gives the pulsotype?

Answer 3

RFLP of E coli genome

Question 4

What is slowly replacing serotyping?

Answer 4

Multilocus sequence typing.

Question 5

Multilocus sequence typing
1)
2)

Answer 5

1) Core genome clasification, not based on virulence factors

2) Sequence genes found in all E coli, compare them

Question 6

Problem with serotyping

Answer 6

O, H antisera are required. These are expensive, produced in rabbits, so not completely accurate

Question 7

What is phage typing used for?

Answer 7

Further defining serotypes of interest

Question 8

What is pathotype based on?

Answer 8

Accessory genome

Question 9

What can’t be pathotyped?

Answer 9

Opportunistic pathogens

Question 10

Types of E coli causing intestinal infections

Answer 10

Primary pathogens

Question 11

Types of E coli causing extra-intestinal infections

Answer 11

Opportunistic pathogens

Question 12

Examples of extra-intestinal infections caused by E coli
1)
2)
3)
4)
5)
6)

Answer 12

1) Urinary tract infection
2) Neonatal meningitis
3) Septicaemia
4) Wound infection
5) Peritonitis
6) Pneumonia

Question 13

Most common G- cause of septicaemia

Answer 13

E coli

Question 14

Most common G+ cause of septiicaemia

Answer 14

Staph aureus

Question 15

Pilus that aids E coli in infecting the bladder

Answer 15

Type 1 pili

Question 16

What do type 1 pili help E coli with?

Answer 16

Bladder colonisation

Question 17

Type of pili that help E coli colonise the kidneys

Answer 17

Pap pili

Question 18

What do pap pili help E coli with?

Answer 18

Colonisation of the kidneys

Question 19

Which virulence determinant helps E coli survive in the blood?

Answer 19

Capsule (K type)

Question 20

Most important K type

Answer 20

K1

Identical to capsule of Neisseria meningitidis type B (sialic acid)

Question 21

Proportion of E coli causing septicaemia and meningitis with K1

Answer 21

80%

Question 22

Intestinal diseases caused by E coli
1)
2)
3)
4)
5)
6)

Answer 22

1) Non-specific infant diarrhoea
2) Traveller’s diarrhoea
3) Profuse watery diarrhoea
4) Dysentery
5) Haemorrhagic colitis
6) Diarrhoea-associated HUS

Question 23

Haemolytic uremic syndrome symptoms
1)
2)
3)

Answer 23

1) Increased urea in blood
2) Erythrocyte lysis
3) Thrombocytopenia (low platelet count)

Question 24

What is a neonate?

Answer 24

1st 28 days of life

Question 25

MIcrobiological definition of an infant

Answer 25

Under 2 years of age

Some agents cause diarrhoea up until ~2 years

Question 26

Subtypes of diarrhoeogenic E coli 
1)
2)
3)
4)
5)

Answer 26

1) Enterotoxogenic E coli
2) Enteropathogenic E coli
3) Enterohaemorrhagic E coli
4) Enteroinvasive E coli
5) Enteroaggregative E coli

Question 27

Another name for enteroinvasive E coli

Answer 27

Shigella

Question 28

ETEC symptoms

Answer 28

Watery diarrhoea

Question 29

EPEC symptoms

Answer 29

Non-specific diarrhoea in children

Question 30

EHEC symptoms

Answer 30

Bloody diarrhoea, HUS

Question 31

EIEC symptoms

Answer 31

Dysentery

Question 32

EAEC symptoms

Answer 32

Watery diarrhoea

Question 33

ETEC virulence factors
1)
2)
3)

Answer 33

1) Colonising factor antigen (CFA1)
2) Heat labile toxin
3) Heat stable toxin

Question 34

Requirements for ETEC to cause illness

Answer 34

Needs both CFA and a toxin gene (either LT or ST or both)

Question 35

Proportion of ETEC strains that only make ST

Answer 35

~1/3

Question 36

Proportion of ETEC strain that make both ST and LT

Answer 36

~1/2

Question 37

ETEC virulence factor in pigs

Answer 37

K88

Question 38

Proven ETEC human colonisation factors

Answer 38

CFA/1, CFA/2, CFA/4

Question 39

CFA/2 makeup

Answer 39

All have CS1 + either CS2 or CS3

Question 40

CFA/4 makeup

Answer 40

All have CS4 + either CS5 or CS6

Question 41

Putative ETEC human colonisation factors
1)
2)
3)
4)
5)
6)

Answer 41

1) CS7
2) CS8
3) CS12
4) CS14
5) CS17
6) PCFO148

Question 42

What does CS3 attach to?

Answer 42

Microvili in the small intestine

Doesn’t cause damage or inflammation

Question 43

Which part of shigatoxin is an enzyme?

Answer 43

A1 subunit

Question 44

Heat labile toxin size

Answer 44

~86kD

Question 45

Heat stable toxin size

Answer 45

~2kD

Question 46

Heat labile toxin immunogenicity

Answer 46

High

Question 47

Why is heat stable toxin immunogenicity low?

Answer 47

Because it is too small a peptide to elicit a lymphocyte response

Question 48

Heat labile enterotoxin structure

Answer 48

AB5
Same structure as choleratoxin
A1 subunit is enzymatic

Question 49

Why is heat stable enterotoxin so stable?

Answer 49

It has 3 disulphide links in the space of quite a short primary structure

Question 50

Which hormone has the same mode of action as heat-stable enterotoxin?

Answer 50

Guanylin

Question 51

What is guanylin?

Answer 51

Hormone

Same action as heat-stable enterotoxin

Question 52

Why doesn’t guanylin cause pathology?

Answer 52

It only has two disulphide bonds, so it can be broken down by the body when not needed

Question 53

What does heat labile enterotoxin act via?

Answer 53

Cyclic AMP

Question 54

What does heat stable enterotoxin act via?

Answer 54

Cyclic GMP

Question 55

Which enterotoxin acts via cyclic GMP?

Answer 55

Heat stable

Question 56

Which enterotoxin acts via cyclic AMP

Answer 56

Heat labile

Question 57

Effect of heat stable and heat labile enterotoxins on gut

Answer 57

Increase Cl- secretion from crypts

Decrease NaCl absorption by vili

Question 58

Two-stage model of EPEC adherence
1)
2)

Answer 58

1) Plasmid-mediated. Bfp binds microvili

2) Chromosomal. Tir/intimin, attaching/effacing lesion

Question 59

EPEC pathogenicity island

Answer 59

LEE

Locus for enterocyte effacement pathogenicity island

Question 60

Locus for enterocyte effacement pathogenicity island contents

Answer 60

T3SS (EG: EspA)
Tir
Intimin
Effector proteins (EG: EspB, EspD)

Question 61

EHEC virulence determinants
1)
2)
3)
4)
5)
6)
7)

Answer 61

1) Stx1
2) Stx2
3) Intimin
4) Efa
5) Secreted proteins (EspB)
6) Haemolysin
7) Serine protease (EspP)

Question 62

What encodes Stx1 in EHEC?

Answer 62

Phage

Question 63

What encodes Stx2 in EHEC?

Answer 63

Phage

Question 64

Can Stx2 be neutralised by anti-Stx1?

Answer 64

No

Question 65

Stx2 homology with Stx1

Answer 65

~60%

Question 66

Shigatoxin processing
1)
2)
3)
4)
5)

Answer 66

1) Binds Gb3
2) Internalised into cell
3) In Golgi, broken into A and B subunits
4) In ER, broken into A1 and A2 subunits
5) A1 subunit binds 28S of 60S ribosomal subunit. Acts as a glycosidase.

Question 67

Broader category of pathogenic E coli that EHEC fits into

Answer 67

STEC (shigatoxin-producing E coli)

Question 68

Efa

Answer 68

EHEC factor for adhesion

Question 69

Difference between STEC and EHEC

Answer 69

STEC is an E coli that produces shigatoxin

EHEC is an STEC with additional virulence determinants, that can cause haemolytic uremic syndrome or haemolytic colitis

Question 70

Large E coli outbreak in Europe in 2011

Answer 70

E coli O104:H4

Enteroaggregative E coli

Question 71

Death toll from 2011 enteroaggregative E coli outbreak

Answer 71

50

Question 72

EHEC pathogenesis
1)
2)
3)
4)
5)
6)

Answer 72

1) Bacteria ingested in food or water (faecal contamination)
2) Attach to intestinal mucosa
3) Produce shigatoxin
4) Toxins absorbed
5) Damage to small blood vessels supplying gut, kidney, pancreas, heart, brain
6) HUS occurs when there is intravascular thrombosis and haemolysis

Question 73

Why does shigatoxin damage small blood vessels?
1)
2)
3)
4)
5)

Answer 73

1) Shigatoxin is absorbed into the bloodstream through gut wall
2) Toxin damages endothelial cells, which leads to clotting cascade
3) This causes an intravascular thrombosis
4) Red blood cells are shorn on firbin in clot, leading to haemolysis
5) This interferes with blood supply to gut, other organs

Question 74

How can kidneys be damaged by shigatoxin?

Answer 74

Kidney vasculature, nephrons have Gb3 receptors

Question 75

How can EHEC infection cause diabetes?

Answer 75

Pancreas has Gb3 receptors in it.

Shigatoxin can lead to pancreatic damage

Question 76

Is fragmented blood cells a symptom of many diseases?

Answer 76

No. Very uncommon.

Present in EHEC infections

Question 77

Which shigatoxin is thought to be more toxic?

Answer 77

Stx2