PSEUDOMONAS

Question 1

What’s PSEUDOMONAS aeuroginosa?

Answer 1

-gram neg bacillus rods
-found in soil and water (ubiquitous)
-motile
* via one or several flagella or polar pili (twitching)
-aerobic (this specifically)
* some strains grow anaerobically by nitrate respiration
-these colonies make water-soluble pigments that functions as anti-bacterials
* pyocyanin (blue-green)
* pyoverdin (green)
* fluorescein (yellow flurorescence)
-fruity or grape like odor to colonies ( or near wounds)
-grow very rapidly, very robust
-needs minimal nutritional requirement
*non-fermentative
~ indophenol oxidase (just like neisseria sp.)
* needs only acetate and ammonia as carbon and nitrogen sources
~ most organic compounds can provide this including petroleum and toxic wastes
-can survive in hand creams, soaps, and dilute antiseptics

Question 2

What are PSEUDOMONAS virulence factors : persistence?

Answer 2

• mucoid polysaccharide capsule (alginate) shields from immune system
• siderophores
• elastase
• exotoxin A
• phospholipase C

Question 3

What are PSEUDOMONAS virulence factors: dissemination?

Answer 3

• toxin A
• collagenase
• elastase
• exoenzyme
• flagella
• heat stable hemolysin
• tissue damage by proteases and toxins

Question 4

What are PSEUDOMONAS virulence factors: nutritional aids?

Answer 4

-siderophores (iron binding compounds):
* compete with transferrin for iron
* iron limitation causes increases production of elastase and exotoxin A
~ damages tissues or creates conditions that make iron more accessible
-phospholipase C:
* hydrolyze phospholipids (lecithin) in the eukaryotic membrane, releasing usable phosphate

Question 5

How do you encounter PSEUDOMONAS and how does it enter?

Answer 5

-encounter
* adheres to vegetables and plant matter
* in water taps, drains, wet surfaces
~ otitis externa - swimmer’s ear
* hot tubs! (folliculitis, dermatitis)
~ “hot tub rash”
~ 10^8 organisms/mL
-opportunistic pathogen:
* local or systemic breach of immune system
* immunocompromised patients
-organism doesn’t adhere well to healthy epithelium
* can enter through abrasions, cuts, etc
* usually they don’t get far unless in large numbers
-after entry, ability to spread and multiply depends on two things:
* avoiding phagocytosis
* successful adherence to a surface
-adherence to epithelia is mediated by flagella and pili
* interactions with glycolipid (cleaves sialic acid to create asiago GM1; receptor for Type 4 pili) on host cells and toll like receptors (TLR5)

Question 6

What are the hospital acquired infections?

Answer 6

• frequent cause of nosocomial infections
  
  • regional incidence (%) of pathogens isolated from patients with hospital-acquired pneumonia (HAP)
  • PSEUDOMONAS aeuroginosa is the second most HAP in USA after staphylococcus aureus

Question 7

how does PSEUDOMONAS cause damage?

Answer 7

-LPS
* adhesin
* Lipid A = endotoxin
~ interacts with host TLR4 to initiate inflammatory response
- fever, hypotension (low blood pressure), gm - sepsis
- less inflammatory than E. coli or S. typhimurium
* core oligosaccharide interacts with CFTR (an ATP binding cassette transporters; cystic fibrosis transmembrane conductance regulator)
~ bacterial internalization, initiation of immune resistance
* Long O-antigen side chains
~ responsible for resistance to human serum, antibiotics detergents
- exotoxins (cause local inflammation)
* some kill host cells (exotoxin A)
~ ADP-ribosylation of EF -2 (similar to diphtheria toxin)
* all are tightly regulated
-multifunctional enzymes (proteases)
* elastase
~ cleaves elastin and collagen - direct tissue damage
~ cleaves proteinase inhibitors
~ cleaves immune system components
- complement and immunoglobulins
* LasA
~ serine protease that works with elastase to degrade elastin
-Type III secretion system
* delivers virulence factors directly into host cells
~ transfer from bacterial cytosol to host cytoplasm
* some components are similar to flagella
*target specific proteins on host cells
*induced by host cell contact or low calcium levels

Question 8

What are some predisposing factors of PSEUDOMONAS

Answer 8

local breach of the immune system:
  - cystic fibrosis
  - trauma
  - IV drug abuse
systemic
  - neutropenia
  - diabetes
  - premature infants and neonates
both systemic and local
  - burns

Question 9

What’s cystic fibrosis?

Answer 9

• P. aeuroginosa doesn’t adhere well to normal intact epithelium
  
  • ciliated strains adhere better than non-ciliated strains
• cystic fibrosis respiratory cells bind more P. aeroginosa than those of normal cells
• thickened mucus inhibits oral ciliary clearance function

Question 10

What’s CFTR?

Answer 10

• cystic fibrosis transmembrane conductance regulator
  
  • located on human chromosome 7
• dysfunctional in CF patients
  
  • loss of Cl- transport
  • hereditary
  • F508 most common mutation
• can be rescued with normal copy of gene

Question 11

What’s cystic fibrosis?

Answer 11

• CFTR may cause decreased sialylation of surface glycolipids
  
  • P. aeruginosa binds to these asiago-glycolipds
• dehyrdation of respiratory secretions
  
  • thick mucosa produced which impairs mucociliary system
• mucoid expo polysaccharide (alginate) shields organism from immune system
  
  • however, these alginate strains produce less protease and toxins

Question 12

What’s P.aeruginoa biofilm formation?

Answer 12

• p. aeroginosa forms biofilms within the lungs
  
  • communities of bacterial cells that reside within a extracellular matrix
• bacteria within biofilms are recalcitrant to antibiotic treatments and more resistant to host defenses
• biofilm formation contributes to chronic nature of pseudomonas infections

Question 13

What’s PSEUDOMONAS and sepsis?

Answer 13

-LPS (endotoxin) mediated
* specifically lipid A moiety
* triggers production of tumor necrosis factor (TNF)
~ TNF stimulates macrophages to produced interleukin- 1beta (IL-1)

Question 14

What’s sepsis?

Answer 14

• sever systemic illness marked by hemodynamic derangements and organ malfunction brought about by the interaction of certain microbial products with host reticuloendothelial (macrophage) cells
• MODS (multi-organ dysfunction syndrome)
  
  • high cardiac output, lowered blood pressure
  • distributive shock (lack of perfusion of selected vascular beds)
• 3 requirements:
  
  • large population of infecting/colonizing organisms
  • presence of bacterial products that stimulate release of host cytokines
  • widespread dissemination of microbial products to host’s reticuloendothelial system (macrophages, monocytes)

Question 15

What are the mortality rates of PSEUDOMONAS?

Answer 15

• depends on:
  
  • nature and severity of infection
  • host defense state
  • promptness and efficacy of treatment
• neutropenic patients: 50-70% mortality
• PSEUDOMONAS endocarditis: up to 50% mortality
• sepsis that reaches shock stage: >50% mortality

Question 16

What’s the diagnosis and treatment of PSEUDOMONAS?

Answer 16

• easily cultured and identified
• antibiotic treatment depends on the geographic locale:
  
  • in some hospitals certain antibiotic-resistant strains predominate
  • resistance is due to limited permeability of outer membrane, efflux pumps, and antibiotic resistance genes
• frequently requires antibiotic synergism to treat