Lecture 23: Bacterial pathogenesis II

Question 1

What is virulence?

Answer 1

The degree of pathogenicity

Question 2

What are virulence factors?

Answer 2

Toxic or destructive substances produced by the pathogen that directly or indirectly enhance invasiveness and host damage by facilitating and promoting infection.

Question 3

Name 4 ways that virulence factors can increase the ability of a microorganism to cause disease.

Answer 3

Could improve:
1. Colonization or invasion of host
2. Ability to multiply and complete life cycles on or in host
3. Ability to evade host defenses
4. Ability to leave host and enter new host

Question 4

Name Koch’s 6 molecular postulates that define virulence factors.

Answer 4

1. Gene is present in strains of bacteria that cause the disease
2. Gene not present in avirulent strains
3. Disrupting the gene reduces virulence
4. Re-introduction of gene restores virulence
5. The gene is expressed during infection
6. Specific immune response to the gene -> protected against disease

Question 5

How are bacterial virulence factors acquired?

Answer 5

Through horizontal gene transfer

Question 6

E. coli strains that typically don’t cause disease are called…

Answer 6

Commensal E. coli

Question 7

Name 3 ways in which virulence factors can be taken up by a bacterium.

Answer 7

By bacteriophage, which injects its bacteria into it, by taking up a plasmid, or by picking up a transposon.

Question 8

The opposite of a commensal bacterium is a […]

Answer 8

Pathogenic bacterium.

Question 9

Give an example of how different pathogenic E. coli strains can have different properties.

Answer 9

One strain can cause urinary tract and kidney infection, while another can cause diarrhea, colitis, and kidney damage

Question 10

Name 5 types of virulence factors.

Answer 10

1. Adhesins
2. Nutrient acquisition systems
3. Capsule
4. Virulence-associated secretion systems
5. Toxins

Question 11

Describe the function of adhesins as virulence factors.

Answer 11

These can allow for better binding to host cells. By binding to the host cells via receptors, this can lead to invasion and colonization. This improves the ability of bacteria to colonize a particular area.

Question 12

Explain how antiviral drugs can target adhesins.

Answer 12

The interaction between adhesins and receptors on a host cell can actually be targeted by anti-viral drugs. The drugs create receptor decoys.

Question 13

Explain how nutrient acquisition systems work as virulence factors, including the specific molecules responsible for this function.

Answer 13

Pathogenic bacteria can steal iron from host cells via siderophores, which are proteins secreted by the pathogens. The siderophores bind iron more tighly than host cells.

Question 14

Describe how siderophores execute their function as nutrient acquisition systems.

Answer 14

They can destroy erythrocytes, release iron from hemoglobin, or bind directly to iron-transport proteins and hemoglobin.

Question 15

Where is the capsule located? What is it made of?

Answer 15

It is located outside the cell wall and is usually made of polysaccharides.

Question 16

What is the function of the capsule?

Answer 16

Can protect from phagocytosis by host cells.

Question 17

Describe the role of the capsule in Streptococcus pneumoniae and how it affects mice.

Answer 17

When they have the capsule, they can kill mice. When they don’t have the capsule, they do not cause disease in mice.

Question 18

Name a virulence-associated secretion system.

Answer 18

Type III secretion system (T3SS)

Question 19

Describe the structure of T3SS. It can be compared to what other structure?

Answer 19

It is shaped like a syringe and is composed of a multi-subunit protein complex. Its structure is similar to that of a gram-negative flagellum.

Question 20

How many bacterial membranes do T3SS have?

Answer 20

2

Question 21

What kind of bacteria have T3SS? Give 3 examples.

Answer 21

It is only present in gram-negative pathogens. Examples include Salmonella, Shigella, and Yersinia.

Question 22

Explain how T3SS works.

Answer 22

It injects bacterial proteins directly into host cells

Question 23

How do the T3SS synringe genes, injected proteins, and cellular effects vary between bacteria and host species?

Answer 23

Syringe genes: similar between species
Injected proteins: vary between bacteria
Cellular effects: vary between different bacteria.

Question 24

The T3SS is related to […] of the target bacteria.

Answer 24

The flagellar basal body

Question 25

Describe how the function of T3SS effectors varies between Salmonella and Yersinia.

Answer 25

For salmonella, T3SS induces its uptake into host cells, allowing it to multiply and colonize more easily. For Yersinia, T3SS blocks uptake into host cells, as it multiplies better outside of cells.

Question 26

What are toxins?

Answer 26

Toxins are poisonous substances that are produced by certain microorganisms and which cause damage to host cells.

Question 27

What are the 2 categories of toxins? Explain the difference between them.

Answer 27

Endotoxin: within the bacterial cell (i.e. lipids in the cell wall). Not voluntarily released.
Exotoxin: produced in the bacterial cell but secreted out voluntarily.

Question 28

What types of bacteria typically produce endotoxins? Explain why.

Answer 28

Only gram-negatives, as endotoxins are found in the lipid A portion of their LPS.

Question 29

How are endotoxins released?

Answer 29

They are only released either when the bacteria lyses or during bacterial multiplication.

Question 30

Does LPS cause its effects directly or indirectly? Explain how.

Answer 30

It causes its effects indirectly. It stimulates macrophages to release cytokines at high concentrations, causing a cytokine storm.

Question 31

Name the major effects on the host of endotoxin release.

Answer 31

The cytokine storm leads to sepsis, such as fever, increased heart rate, increased breathing rate, and low blood pressure.

Question 32

Are endotoxins heat stable?

Answer 32

Yes, they remain largely unaffected by heat.

Question 33

Are exotoxins heat stable?

Answer 33

No, they can easily be inactivated by heat.

Question 34

Exotoxins can be used as […]

Answer 34

Antiserum

Question 35

What are antitoxins?

Answer 35

They are antibodies produced by the body that provide immunity to exotoxins.

Question 36

What types of bacterial typically make exotoxins?

Answer 36

Gram - or gram +

Question 37

Name 3 types of exotoxins.

Answer 37

AB exotoxins, membrane-disrupting exotoxins, and superantigens.

Question 38

Exotoxins can also be categorized by […]. Give 2 examples.

Answer 38

Site of action. For example, neurotoxins affect neurons, while enterotoxins affect the intestine.

Question 39

What are superantigens?

Answer 39

They stimulate T cells and cause an exagerrated immune response.

Question 40

Describe the structure of AB toxins.

Answer 40

The A subunit has enzyme activity and is responsible for the toxic effect. The B subunit mediates cell binding/entry to the target.

Question 41

How do the following vary between different AB toxins:
a) Receptors on host cells
b) Enzymatic activity
c) Biological effects
d) Overall organization

Answer 41

a) Different
b) Different
c) Different
d) Similar

Question 42

Name the 3 steps by which AB toxins have their effect.

Answer 42

1. B binds to host receptor
2. Endocytosis
3. A-B components separate. A alters host cell function, while B is released from the host. The target cell receptor gets pushed out and reused.

Question 43

Give an example of important exotoxin.

Answer 43

Clostridium botulinum

Question 44

How big of a health risk is clostridium botulinum?

Answer 44

It is the most poisonous naturally occurring substance in the world and is one of the greatest threats for biological warfare.

Question 45

How does clostridium botulinum work as an exotoxin?

Answer 45

It cleaves a protein involved in the neurotransmission from motor neurons to muscles and/or blocks acetylcholine from binding to receptors.

Question 46

What are the major symptoms of clostridium botulinum?

Answer 46

Double vision, blurred vision, droopy eyelids, slurred speech, difficulty swallowing, muscle weakness, localized paralysis

Question 47

What are membrane-disrupting exotoxins?

Answer 47

They attack host cell membranes by forming protein channels or disrupt phospholipid portion of the membrane.

Question 48

Membrane-disrupting exotoxins destroy erythrocytes using […]

Answer 48

Hemolysins

Question 49

What are the 2 types of membrane-disrupting exotoxins?

Answer 49

Pore-forming and phospho-lipases

Question 50

How do pore-forming membrane-disrupting exotoxins work?

Answer 50

They make holes in the host cell membrane, which allows the contents of the cell to leak out and causes lysis.

Question 51

How do phospho-lipase membrane-disrupting exotoxins work?

Answer 51

They remove the hydrophillic heads from the phospholipid bilayer, causing an unstable membrane and cell lysis.

Question 52

What are intoxications? What is their cause?

Answer 52

They occur when toxins cause disease without infection. They are caused by the entry of a specific pre-formed toxin, not by microbial growth or the entry or replication of bacteria.

Question 53

What is the typical onset time for intoxication?

Answer 53

Very fast - 30 min - 6 h

Question 54

Give an example of intoxication, including the species involved and context.

Answer 54

Bacillus cereus causes improper storage and contamination of food. Their toxin is pre-formed in food, and when it is ingested it causes vomiting. People usually recover within 6-24 hours.

Question 55

What are EHEC? What is it associated with?

Answer 55

Enterohemorrhagic E. coli. It is associated with ground beef and manure-contaminated produce.

Question 56

What is the reservoir for EHEC?

Answer 56

Cattle.

Question 57

What is the infectious dose for EHEC?

Answer 57

As few as 10 E. coli bacterial cells.

Question 58

Name the 5 major symptoms of EHEC and the likelihood of each.

Answer 58

1. Diarrhea which can become bloody (hemorrhagic colitis) - 100%
2. Hemolytic uremic syndrome (HUS): hemolytic anemia, platelet deficiency, kidney failure - 0-20%
3. Chronic renal problems - 50% of HUS patients
4. Neurological symptoms such as seizures, stroke, coma - 25% of HUS patients
5. Fatality - 3-5% of HUS patients

Question 59

What does EHEC’s T3SS inject (2)? Explain how it works.

Answer 59

A TIR (Translocated intimin receptor). It gets inserted into the host cell membrane and becomes a receptor for EHEC on the host cell.

Also inserts 30 other proteins that dissociate tight junctions between intestinal epithelial cells, interfering with the host immune response.

Question 60

Where is EHEC located relative to the host cell?

Answer 60

It remains extracellular. T3SS is the main interface with the host cell.

Question 61

EHEC encodes which toxin?

Answer 61

Shiga toxin

Question 62

What type of toxin is Shiga? Describe its structure and its associated functions.

Answer 62

AB toxin. The A subunit inhibits protein synthesis in the host by modifying the 60S subunit of the ribosome. The B subunit binds specific glycolipids on host cells (G3b)

Question 63

What is repsonsible for encoding Shiga toxin?

Answer 63

It is encoded by bacteriophages that have integrated into the bacterial chromosome.

Question 64

What features of disease does the presence of Shiga toxin receptor cause in the following locations?
a) Intestinal epithelium
b) Kidney
c) Neurons
d) Absent in cow intestine

Answer 64

a) Bloody diarrhea
b) Kidney problems
c) Neurological complications
d) Asymptomatic carriers

Question 65

What is the treatment for EHEC?

Answer 65

There is no specific treatment for EHEC aside from supportive care, meaning watching and waiting for the development of complications, providing fluids, a blood transfusion, and kidney dialysis in anticipation.

Question 66

Can antibiotic therapy be used to treat EHEC? Why?

Answer 66

No, because it can increase the risk of HUS.

Question 67

Name 4 ways to prevent EHEC.

Answer 67

1. Handwashing
2. Thorough cooking of beef
3. Keep raw/cooked utensils separate
4. Pasteurization of milk, juice