Lecture 6 - Enterics

Question 1

What are enterics?

Answer 1

Facultative Gram negative, rod-shaped bacteria common to or occurring as pathogens in the intestinal tract

Question 2

Other name for enterics?

Answer 2

Enteric bacilli

Question 3

Gaseous requirement of enterics?

Answer 3

Facultative anaerobe

Question 4

What are 12 medically important (esp. in nosocomial infections) genera of the family enterobacteriaceae?

Answer 4

1. Escherichia
2. Salmonella
3. Shigella
4. Yersinia
5. Proteus
6. Providencia
7. Morganella
8. Citrobacter
9. Enterobacter
10. Pantoea
11. Serratia
12. Klebsiella

Question 5

What body sites can enterobacteriaceae infect?

Answer 5

ANY

Question 6

What are some infections that enterobacteriaceae cause?

Answer 6

1. Common community acquired infections:
   - Enteritis/colitis
   - Cystitis/pyelonephritis
2. Nocosomial infections (all categories)

Question 7

What body site does Escherichia infect?

Answer 7

CNS

Question 8

What body site does Salmonella infect?

Answer 8

GIT

Question 9

What body site does Shigella infect?

Answer 9

GIT

Question 10

What 2 enterobacteriaceae infect the CNS?

Answer 10

1. Escherichia

2. Citrobacter

Question 11

What 3 enterobacteriaceae infect the lower respiratory tract?

Answer 11

1. Klebsiella
2. Enterobacter
3. Escherichia

Question 12

What 3 enterobacteriaceae infect the bloodstream?

Answer 12

1. Klebsiella
2. Enterobacter
3. Escherichia

Question 13

What 4 enterobacteriaceae infect the GIT?

Answer 13

1. Salmonella
2. Shigella
3. Escherichia
4. Yersinia

Question 14

What 4 enterobacteriaceae infect the urinary tract?

Answer 14

1. Escherichia
2. Proteus
3. Klebsiella
4. Morganella

Question 15

What enterobacteriaceae is responsible for 90% of UTIs acquired in community conditions?

Answer 15

Escherichia

Question 16

What are the 2 physical features of enterobacteriaceae?

Answer 16

1. Gram negative rods (0.5 x 2 microns)

2. Motility: when motile by peritrichous flagella (Klebsiella and Shigella are the only non-motile)

Question 17

What are peritrichous flagella?

Answer 17

Multiple flagella emanating from all aspects of the cell periphery (in contrast to polar flagella localized to one end of the cell)

Question 18

What are the 3 biochemical/metabolic features of enterobacteriaceae?

Answer 18

1. Facultative anaerobes
2. Ferment glucose
3. Oxidase negative

Question 19

What is an oxidase test?

Answer 19

Test that distinguishes Enterobacteriaceae from other important enteric pathogens, Vibrios and Campylobacter, which are oxidase positive

Question 20

What are the media for selective isolation and differentiation of enterobacteriaceae?

Answer 20

Many of them (do not need to know names) that use bile salts or dyes that inhibit other organisms (typically gram + bacteria) and contains a differentiating compound that some species can use and others cannot (e.g. lactose)

Question 21

What is the difference between Lac positive and Lac negative enterobacteriaceae?

Answer 21

1. Lac positive: cells that can ferment lactose

2. Lac negative: cells that cannot ferment lactose

Question 22

What are 4 prominent Lac negative enterics?

Answer 22

1. Salmonella
2. Shigella
3. Yersinia
4. Proteus

Question 23

What are fecal coliforms?

Answer 23

Lac positive enterics, primarily E. coli indicative of fecal contamination

Question 24

What is speciation of enterobacteriaceae based on?

Answer 24

Based on metabolic/biochemical reactions during which enterobacteriaceae react with different compounds to produce different color compounds, gases, etc.

Question 25

Purpose of API strips?

Answer 25

Speciation of enterobacteriaceae

Question 26

What test is done once an enterobacteriaceae is speciated?

Answer 26

Subtyping based on serotyping with the:

1. O-antigen: LPS
2. H-antigen: flagellum
3. K-antigen: capsule

Question 27

What is the K-antigen called in Salmonella?

Answer 27

Vi-antigen

Question 28

What is the most abundant facultative anaeroble in the gut?

Answer 28

E. coli

Question 29

What vitamin does E. coli produce?

Answer 29

Vitamin K2

Question 30

What are disease associated subtypes of E. coli? Other name for them?

Answer 30

Subtypes of E. coli that have acquired virulence genes through horizontal gene transfer

= pathovars

Question 31

Important E. coli pathovars to know?

Answer 31

1. Uropathogenic
2. Neonatal meningitis
3. Large collection that produces GIT diseases

Question 32

What is the clinical significance of E. coli pathovars?

Answer 32

1. Pathovars have distinct pathogenic mechanisms and, consequently, can have variable clinical presentations
2. Future physicians will be treating, and should be alert to the appearance of, new and/or atypical enteric infections

Question 33

What is the most common E. coli pathovar? What does it cause?

Answer 33

Enterohemorrhagic E. coli causing hemorrhagic colitis

Question 34

3 symptoms of hemorrhagic colitis?

Answer 34

1. Watery, progressing to grossly bloody diarrhea (after 3 days)
2. Abdominal cramping
3. Fever rare/low grade

Question 35

What is life-threatening sequela of hemorrhagic colitis? How often does this happen?

Answer 35

HUS = hemolytic uremic syndrome, resulting in kidney failure and death

Happens in 15% of children below 10 yo with enterohemorrhagic E. coli infection

Question 36

Incubation period of enterohemorrhagic E. coli infection?

Answer 36

3 days

Question 37

Which patients are most at risk for HUS?

Answer 37

Children and the elderly

Question 38

Where in the world are enterohemorrhagic E. coli infections more common? Why?

Answer 38

Developed nations

Due to ways cattle is raised

Question 39

What subtype of enterohemorrhagic E. coli infection is the most common?

Answer 39

O157:H7

Question 40

Reservoir of enterohemorrhagic E. coli?

Answer 40

Cattle and other ruminants

Question 41

Does enterohemorrhagic E. coli cause disease in animals?

Answer 41

NOPE

Question 42

Transmission route of enterohemorrhagic E. coli infections?

Answer 42

Fecal-oral

Question 43

Transmission vehicles of enterohemorrhagic E. coli infections?

Answer 43

1. Ground beef
2. Spinach
3. Unpasteurized milk
4. Lettuce
5. Apple cider
6. Radish sprouts
7. Water: municipal, swimming
8. Animal contact: farms, petting zoos
9. Person to person (rare)

Question 44

Infectious dose of enterohemorrhagic E. coli?

Answer 44

10-100 bacteria (low)

Question 45

What determines the infectious dose of a particular bacteria?

Answer 45

Stomach acid provides a strong barrier to intestinal infection so acid resistant intestinal pathogens have lower infectious doses and reduced stomach acidity increases susceptibility to infection

Question 46

Describe the pathogenesis of hemorrhagic colitis.

Answer 46

1. Bacteria directly subvert columnar epithelial cells by injecting effector proteins through a syringe-like assembly known as a type III secretion system => causing attaching and effacing (A and E) lesions => reduced absorptive surface and tight junction disruption => diarrhea
2. Bacteria produce the shiga toxin (Stx) encoded by bacteriophage: AB toxin that binds the Gb3 receptor and deadenylates 60S rRNA (with N-glycosidase) => shuts down protein synthesis => cell and organ damage (primarily endothelial cells due to Gb3 expression) => bloody diarrhea, renal failure, and CNS manifestations

Question 47

Other name for shiga toxin produced by enterohemorrhagic E. coli? Where does the name come from?

Answer 47

Verotoxin

Resembles a toxin produced by Shigella bacteria, but in Shigella the toxin is part of the genome so treating with antibiotics does not have the risk of amplification

Question 48

2 types of shiga toxins? Which is more potent? What to note?

Answer 48

Stx 1 and 2***

NOTE: bacteria produce either or both

Question 49

What are shiga toxins encoded by?

Answer 49

λ phage in EHEC, temperate phage that lysogenize until they receive a particular signal

Question 50

3 clinical features of HUS?

Answer 50

1. Microangiopathic hemolytic anemia
2. Thrombocytopenia
3. Glomerular thrombotic microangiopathy

Question 51

Treatments for enterohemorrhagic E. coli infections?

Answer 51

1. Self-resolving 5-8 days
2. Supportive therapy, particularly for HUS
3. Antibiotic use controversial because it can make the situation worse due to the release of greater levels of toxins
4. Experimental strategies: Gb3 receptor analogs and immunization against Stx

Question 52

3 microbiological features of the genus Shigella?

Answer 52

1. Oxidase negative
2. Lactose negative
3. Nonmotile

Question 53

How do Shigella and E. coli relate to each other?

Answer 53

Shigella is a pathovar of E. coli

Question 54

What are 4 Shigella species?

Answer 54

1. S. dysenteriae
2. S. flexneri
3. S. boydii
4. S. sonnei

Question 55

What disease do Shigella infections cause? 2 names

Answer 55

Shigellosis = (bacillary) dysentery

Question 56

4 clinical symptoms of shigellosis? What to note?

Answer 56

1. Initial watery diarrhea
2. Subsequent abdominal cramping
3. Fever
4. Bloody, mucoid discharge with prominent fecal leukocytes

NOTE: symptoms can be mild to severe depending on species: sonnei < flexneri < dysenteriae

Question 57

Fatality rate of shigellosis due to S. dysenteriae? What causes death?

Answer 57

5-15%

Due to hemorrhaging and ulceration of the colon

Question 58

Definition of dysentery?

Answer 58

Triad of symptoms:

1. Abdominal cramps
2. Tenesmus
3. Frequent, small-volume bloody, mucoid discharge

Question 59

What is the significance of fecal leukocytes?

Answer 59

Invasive enteric pathogens, like Shigella, Salmonella, Yersinia, and Campylobacter, provoke a inflammatory response resulting in high fecal leukocyte count

Question 60

Primary reservoir of Shigella?

Answer 60

Humans

Question 61

Infectious dose of Shigella infections?

Answer 61

< 200 bacteria (low)

Question 62

What species are most Shigella infections in the US due to?

Answer 62

S. sonnei

Question 63

What populations are most at risk of Shigella infections?

Answer 63

1. Children < 15 yo due to outbreaks in daycares and institutional settings
2. Traverler’s diarrhea

Question 64

What are secondary attacks? What infections have a high rate of these?

Answer 64

High chance of additional cases after one focus case in a household

Shigella infections

Question 65

Are Shigella infections more common in the US or the rest of the world?

Answer 65

Rest of the world: 15,000 vs 150 million cases/year

Question 66

What species are most Shigella infections in the world due to?

Answer 66

S. flexneri

Question 67

Describe the pathogenesis of Shigella infections.

Answer 67

Bacteria is phagocytosed by microfold cells of the GIT lumen and transcytosed to the basal aspect of the cells and are either phagocytosed by activated macrophages or interact with the basal surface to induce their own phagocytosis by the epithelial cells => they replicate in the epithelial cells => use the actin cytoskeleton of the cell to push themselves from one cell to the next => intracellular infection spreads throughout the epithelial layer of the colon => epithelial cells eventually killed => bloody, mucoid discharge

Question 68

Which only Shigella species produces a toxin? What is it? Effects?

Answer 68

S. dysenteriae Type I produces shiga toxin => bloody diarrhea and renal failure

Question 69

Treatment for Shigella infections?

Answer 69

Antibiotics

Question 70

Transmission vehicles of Salmonella infections? Most common?

Answer 70

1. Tomatoes
2. Jalapenos
3. Cilantro
4. Papaya juice
5. Chicken eggs and poultry***
6. Peppers
7. Peanuts
8. Cereal
9. Water

Question 71

Why are there so many transmission vehicles of Salmonella?

Answer 71

Because they are universally present in the environment: human and animal GITs, water, soil, etc.

Question 72

4 microbiological features of the Salmonella genus?

Answer 72

1. Oxidase negative
2. Lactose negative (99%)
3. Motile (phase variable)
4. H2S producer (hydrogen sulfide)

Question 73

What are the 2 taxonomic nomenclatures for the genus Salmonella?

Answer 73

1. Traditional: based on O and H antigens => ~2,500 species organized into serogroups A to I = Kauffman-White scheme
2. Current: 2 species => S. enterica (with 6 subspecies) and S. bongori

Question 74

Host range and diseases of Salmonella infections?

Answer 74

Depends on Salmonella serotype:

1. Some have a broad host range, e.g. S. Typhimurium, S. Enteritidis, infect diverse animal species, and typically cause gastroenteritis in humans
2. Some have a narrow host range, are specifically adapted to a preferred host and rarely manifest as gastroenteritis (e.g. S. choleraesuis in pigs and S. Typhi and Paratypihi ONLY in humans)

Question 75

Disease caused by S. Typhi and Paratypihi? Which causes more severe cases?

Answer 75

Typhoid fever

S. Typhi causes more severe cases

Question 76

What is salmonellosis? Transmission? Clinical manifestation?

Answer 76

Infection with a member of the genus Salmonella typically transmitted through fecal contaminated food or water

Clinical manifestations vary with serotype

Question 77

2 possible clinical manifestations of non-typhoid salmonellosis?

Answer 77

1. Gastroenteritis: watery diarrhea often with fever, nausea and vomiting
2. Bacteremia

Question 78

Incubation period and duration of gastroenteritis due to salmonellosis?

Answer 78

6-48 h incubation period

2-7 day duration and self-resolving

Question 79

What % of patients with non-typhoidal salmonellosis have bacteremia?

Answer 79

8%

Question 80

What patients are at high risk of having bacteremia due to non-typhoidal salmonellosis? What is this called?

Answer 80

AIDS patients at high risk (recurrent bacteremia AIDS defining)

Question 81

Incidence of non-typhoidal salmonella serotypes in the US? What to note?

Answer 81

~40-50K cases/year

Actual: 1-1.5 M, but most cases do not get reported AND seasonal pattern with most cases in late summer/early fall

Question 82

Populations at higher risk of non-typhoidal Salmonella infections?

Answer 82

1. Children < 5 yo

2. Elderly

Question 83

7 clinical symptoms of typhoid strains of Salmonell infections?

Answer 83

Enteric (typhoid) fever: severe systemic illness that spreads through the bloodstream

1. Protracted fever for 3-4 wks
2. Insidious onset
3. Headache
4. Anorexia
5. Myalgia 10-14 days post-exposure
6. GIT symptoms 1 week later
7. “Rose spots” = maculopapular rash on trunk

Question 84

Transmission of typhoid strains of Salmonella?

Answer 84

1. Person to person with some individuals being asymptomatic chronic carriers (gallbladder is infected) that pass the bacteria in their feces for over a year and transmit it in areas where there is not proper sanitation (1-4% of untreated patients) => low infectious dose
2. Food and water

Question 85

Mortality rate of typhoid fever? What causes death?

Answer 85

10-15% mortality in untreated cases due to ileal perforation & hemorrhaging

Question 86

Incidence of typhoid salmonella infections in the US? What to note?

Answer 86

400-500 cases/year

NOTE: traveler’s disease in 75% of cases

Question 87

Incidence of typhoid salmonella infections in the world? What to note?

Answer 87

26 M cases/year

NOTE: mostly in South Asia, 80% due to S. Typhi and 200-600K deaths/year

Question 88

Reservoir of typhoid Salmonella?

Answer 88

Humans

Question 89

Describe the pathogenesis of Salmonella gastroenteritis.

Answer 89

Bacteria transgresses GIT epithelial layer through the microfold cells => inflammatory response with macrophages and PMNs secreting leukocytes => inflammatory diarrhea

Question 90

Describe the pathogenesis of Typhoid fever.

Answer 90

Bacteria transgresses GIT epithelial layer through the microfold cells => inflammatory response with macrophages => bacteria survives the macrophages and grows in them, so macrophages serve as a vehicle for dissemination through the mesenteric lymph nodes => blood => liver and spleen => gallbladder => back to GIT

Question 91

Why does the fever in typhoid fever take 10-14 days to appear?

Answer 91

Doesn’t appear until the macrophages start to lyse and release the bacteria in the bloodstream => bacteremia

Question 92

Why is the genus campylobacter important?

Answer 92

Causes almost as many infections as Salmonella

Question 93

8 microbiological features of the genus Campylobacter?

Answer 93

1. Gram negative
2. Curved/helical rod
3. Single polar flagellum
4. Microaerophilic (5-10% O2)
5. Oxidative metabolism (do not utilize carbohydrates)
6. Optimal growth at 42 C (some species)
7. Oxidase positive
8. Polysaccharide capsule

Question 94

4 primary species of clinical importance in the genus Campylobacter? Most important one?

Answer 94

1. C. jejuni***
2. C. coli
3. C. upsaliensis
4. C. fetus

Question 95

Why was the genus Campylobacter not recognized for a while?

Answer 95

1. Because it only needs 5-10% O2 and need 42 degrees so wouldn’t survive under typical culture conditions
2. Very small and can pass through a sterilization filter

Question 96

Where are Campylobacters found?

Answer 96

GIT of animals and birds

Question 97

Transmission vehicles of Campylobacter? Most common?

Answer 97

1. Undercooked poultry*** (50-70% of sporadic cases)
2. Raw milk
3. Surface waters
4. Beef
5. Clams
6. Cheese
7. Direct contact with infected animals and pets

Question 98

US incidence of Campylobacter infections? What to note?

Answer 98

> 2 million/yr (not reportable)

NOTE: seasonal, summer to early fall and higher in rural communities

Question 99

In what population is a Campylobacter infection symptomatic?

Answer 99

Symptomatic infection in children and asymptomatic in adults

Question 100

Pathogenesis of Campylobacter infection? What is it similar to?

Answer 100

Invasive organism that provokes a strong inflammatory response

Similar to Salmonella infection

Question 101

Sequella of Campylobacter infection? How does this work?

Answer 101

Guillain-Barre syndrome = flaccid peripheral neuropathy due to inflammatory demyelination

Campylobacter sialic acid containing LOS (lipooligosaccharide: similar to LPS, but lacking outer O antigen repeats) induce cross-reactive antibodies to GM1, GM2, GD1a = “molecular mimicry”

Question 102

How often does a Campylobacter infection develop into GBS?

Answer 102

Approx. 1 in 2000 C. jejuni infections and 30-66% of GBS cases have antecedent C. jejuni infection

Question 103

3 most common infections in US?

Answer 103

1. Salmonella
2. Campylobacter
3. Shigella