Model Infections: Staphylococcus aureus and Pseudomonas aeruginosa PDF

Summary

This presentation details model infections, focusing on Staphylococcus aureus and Pseudomonas aeruginosa. It covers virulence factors, host responses, diseases, and antibiotic resistance. The document is suitable for understanding infectious diseases and pathogenic mechanisms.

Full Transcript

MODEL INFECTIONS

Nigar Kirmani , M.D.
[email protected]
No Disclosures
This Session’s Microbes for the Scaffolding
Table
Aspergillus fumigatus
Cryptococcus neoformans
Cytomegalovirus (CMV)
Influenza virus
Measles virus
Pseudomonas aeruginosa
Staphylococcus aureus

GatewayC U R R I C U L U M
 OBJECTIVES
Describe the virulence factors, host response, diseases
and characteristics of Staphylococcus aureus
Describe the virulence factors, host response, diseases
and characteristics of Pseudomonas aeruginosa
Describe the virulence factors, host response, diseases
and characteristics of Cryptococcus neoformans and
Aspergillus fumigatus
Describe the characteristics, transmission and
pathogenesis of Influenza virus
Describe the characteristics, transmission and
pathogenesis of Cytomegalovirus
Describe the transmission and characteristics of Measles
virus

GatewayC U R R I C U L U M
MODEL INFECTIONS
Microbes cause disease in many ways EPICRDT

Acute bacterial infection E – Ecology,

Epidemiology
Staphylococcus aureus P –Pathogenesis,
Pseudomonas aeruginosa virulence
Chronic bacterial infection I – Immune
Mycobacterium tuberculosis response
Fungal infections C - Clinical
Cryptococcus neoformans presentation
Aspergillus fumigatus R – Risk factors
Viral infections D – Diagnosis, DD
Influenza T - Treatment
Cytomegalovirus Measles

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
Staphylococcus aureus - ETIOLOGY (the
pathogen)
Gram-positive cocci in clusters, catalase
positive and coagulase positive
Found in anterior nares in 30% of people
Most common bacterial pathogen isolated
1 million infections, 20K deaths/year in US
Transmission is via skin
Leading cause of skin, soft tissue infection
Can spread via blood stream to many
organs (heart valves, bones, joints, lungs)
Increasing infection related to IV drug use
https://bio.libretexts.org/

GatewayC U R R I C U L U M
Staphylococcus aureus - Virulence
Surface adhesins –bind to fibrinogen,
fibronectin
Invasins – help spread (leukocidin,
hyaluronidase, hemolysins)
Inhibit phagocytosis (Protein A)
Biofilm formation Todars Textbook of Bacteriology

Toxins
TSST (toxic shock toxin, a superantigen)
EFT (exfoliative toxin, scalded skin
syndrome)
SE (Staphylococcal enterotoxin - food
Staphylococcal scalded skin
poisoning; superantigen) syndrome

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
Staphylococcus aureus – IMMUNE
RESPONSE
An acute suppurative response, with
recruitment of polymorphonuclear
neutrophils (PMNs) and pus formation
Abscess formation and tissue
destruction are common
Recurrent staphylococcal infections
are seen in patients with neutrophil
defects; but also in
immunocompetent hosts with
overcrowding, prisons, day care
(Community-acquired or CA-MRSA)
Staphylococcal
abscess
https://www.cdc.gov/

GatewayC U R R I C U L U M
Staphylococcus aureus – Clinical Diseases
Localized infection
Skin and soft tissue infections
Surgical site infections
Invasive infection
Blood stream (bacteremia -never ignore!)
Heart valve (endocarditis)
Bone (osteomyelitis), joint (septic
arthritis)
Toxin mediated
Toxic shock syndrome (TSS)
Scalded skin syndrome (SSS) Robbins Pathologic Basis of Disease 10th edition

Food poisoning
GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
Staphylococcus aureus – Antibiotic resistance
Penicillin introduced in 1941, resistance by β-
lactamase production developed by 1942
Methicillin resistance in 1960 by altering the binding
site (PBP2 to PBP2 A); the era of MRSA is born
MRSA became the dominant organism in hospital-
Timeline of resistance S aureus
acquired infection (HA-MRSA); 50-80% ICU isolates https://www.semanticscholar.org/

In 1990s, another MRSA emerged in the community
with a different mobile genetic element (CA-MRSA);
CA-MRSA is sensitive to more antibiotics, seen in
overcrowding, prisons, athletes, day care
Increasing resistance to many antibiotics -
macrolides, clindamycin, aminoglycosides; even Antibiotic resistance mechanisms S

vancomycin (VRSA), although this is rare aureus https://eprints.keele.ac.uk

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
 Staphylococcus aureus – Antibiotics
(reference only)
MSSA
Antistaphylococcal penicillin (oxacillin)
First generation cephalosporin (cefazolin)
Oral – 1st generation cephalosporin
MRSA
Vancomycin
Daptomycin
Ceftaroline (fifth generation cephalosporin)
Linezolid
Oral – Trimethoprim-sulfamethoxazole

GatewayC U R R I C U L U M
KEY POINTS – Staphylococcus aureus
Gram positive cocci in clusters, coagulase positive
Colonizes anterior nares frequently
Virulence factors – adhesins, invasins, biofilms, toxins
Causes necrosis, pus, abscesses; destructive infections
Diseases – skin and soft tissue infections, invasive infections
(heart, bone, joints), toxin mediated infection (TSS, SSS)
Methicillin sensitive (MSSA, β lactamase ) or resistant (MRSA,
by altered penicillin binding protein PBP2 to PBP2A)
MSSA and MRSA are treated with different antibiotics
Community MRSA is different from hospital acquired; seen in
overcrowding, prisons, athletes; sensitive to more antibiotics

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
Gram-Negative Bacilli BJH 2017

Organism Number

Escherichia coli 7091
Enterobacter aerogenes 226
Enterobacter cloacae complex 509

Klebsiella pneumoniae 1522

Klebsiella oxytoca 293
Proteus mirabilis 969
Citrobacter freundii complex 204

Serratia marcescens 207
Pseudomonas aeruginosa 1430

GatewayC U R R I C U L U M
PSEUDOMONAS AERUGINOSA
PSEUDOMONAS AERUGINOSA – Etiology (the
pathogen)

Gram negative bacilli, aerobic; produces
green pigment
Common in the environment; found in
water, soil, in hospital sinks, showers,
respiratory therapy equipment, mops Gram negative bacilli Green pigment Pseudomonas

Does not usually colonize the skin or gut
Very common cause of hospital acquired
infection (5th), many multidrug resistant
In 2017, over 32,600 MDR healthcare
infections and 2700 deaths
By 2020, rate increased by 32% MDR Pseudomonas https://www.cdc.gov/

GatewayC U R R I C U L U M
PSEUDOMONAS AERUGINOSA - Virulence
Several virulence factors - pili, flagella,
LPS, exotoxins, biofilms
Pili allow adherence to cell surfaces
Flagella help motility and adherence
LPS – lipopolysaccharide (endotoxin) Virulence factors

promotes cell activation, inflammatory
https://www.researchgate.net

response; can lead to septic shock
Biofilms are made of viscous extracellular Mucoid colonies

polysaccharide, protect bacteria from host
defenses and antibiotics; mucoid strains in
biofilms persist in cystic fibrosis
Biofilm formation
https://www.researchgate.net

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
PSEUDOMONAS AERUGINOSA – IMMUNE
RESPONSE
Mechanical barriers – the skin is a significant
barrier to entry of microbes; surgical
incisions, burns can get infected with
Pseudomonas
Respiratory tract – mucus, cilia help get rid of
pathogens; damage to mucociliary defense
(cystic fibrosis, intubation) leads to ↑
infection; mucoid strains form biofilms
Catheters – intravenous, urinary catheters
provide direct access to blood, urinary tract
Intact immune system – infections worse in
immunocompromised, especially neutropenia
(decreased polymorphonuclear neutrophils)
GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
PSEUDOMONAS AERUGINOSA- Clinical
Diseases
Hot tub folliculitis – pustules on
skin
Burn superinfection

https://www.woundsource.com/

Catheter-associated urinary tract
infection; IV catheter bacteremia Hot tub folliculitis VAP

http://www.yogavanahill.com/ https://www.researchgate.net

Bacteremia, sepsis; common in
patients with low white blood cells
(neutropenia) especially after
chemotherapy
Hospital, ventilator acquired
pneumonia (HAP, VAP) VAP https://www.hindawi.com/

Cystic fibrosis – chronic lung
infection and inflammation Pseudomonas diseases
https://www.mdpi.com/

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
PSEUDOMONAS AERUGINOSA- ANTIBIOTIC RESISTANCE
Resistance occurs to all classes of
antibiotics with increased use
Multidrug resistant (MDR) and
extreme (XDR) is increasing
ESBL (extended spectrum beta
lactamases, cefepime)
Carbapenamase producing Pseudomonas resistance
Pseudomonas (meropenem) https://www.sciencedirect.com
Pseudomonas resistance https://www.researchgate.net

Efflux pumps (ciprofloxacin)
Porin loss of outer membrane (beta
lactams)
Aminoglycoside inactivating enzymes
(gentamicin)
↑ Pseudomonas resistance: L - low level, M -multi drug, X -
extreme
https://www.scielo.br
GatewayC U R R I C U L U M
 PSEUDOMONAS AERUGINOSA- TREATMENT
(reference only)
There are limited antibiotic choices for Pseudomonas
aeruginosa infections
Antipseudomonal penicillins (piperacillin/tazobactam)
Third and fourth generation cephalosporins (cefepime)
Carbapenems (meropenem)
Flouroquinolones (ciprofloxacin)
Aminoglycosides (gentamicin)

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
KEY POINTS: Pseudomonas aeruginosa
Gram negative bacillus
Virulent pathogen that can cause invasive infections
Many virulence factors – pili, flagella, LPS, biofilms
Diseases –skin infections (burns, hot tub folliculitis); lung
infection in cystic fibrosis, bacteremia in neutropenic patients
A leading cause of hospital acquired infection – ventilator
associated pneumonia, catheter associated UTI, bacteremia
Limited antibiotic susceptibility; increased resistance to many
classes of antibiotics by several mechanisms - beta
lactamases (ESBL), carbapenamases, efflux pumps

GatewayC U R R I C U L U M
COMMON FUNGAL PATHOGENS

Opportunistic yeasts (unicellular Endemic dimorphic fungi
organisms) (yeast at 37 C, mold at 25
C)
Histoplasma capsulatum
Candida species Blastomyces dermatitidis
Cryptococcus neoformans Coccidioides immitis
Molds
(multicellular, form
hyphae)
Aspergillus species
Zygomycetes

GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS
CRYPTOCOCCUS NEOFORMANS – Etiology (the
pathogen)
Yeast with a large polysaccharide
capsule
Reproduces by budding
Associated with pigeon guano, rotting India ink preparation CSF
vegetation, soil https://phil.cdc.gov/

Infection occurs by inhalation
Dissemination via blood to several
sites can occur
220,000 cases of cryptococcal
meningitis, 180K deaths yearly Pulmonary
cryptococcosis
https://radiopaedia.org/

GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS - Virulence
Has a large polysaccharide capsule
that inhibits phagocytosis
Strains without capsule rarely cause
disease
Melanin production – acts as
antioxidant Polysaccharide capsule, budding

https://ppdictionary.com

Can survive in intracellularly in
phagosomes in alveolar macrophages
Tropism for the central nervous
system, causes infection of meninges
and brain
Fontana mason stain Cryptococcus – stains melanin

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS
Automated blood cultures can recognize Cryptococcus
In tissues, several stains are used to identify yeast forms – H&E,
GMS, Mucicarmine
Granulomas may be seen in immunocompetent patients, rare in
immunocompromised

Hematoxylin eosin(H&E) GMS -Methenamine silver Mucicarmine

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS- Immune
response
Opportunistic fungus
Most cases are seen with T cell depletion
in immunocompromised hosts, including
HIV, transplants, biologics, chemotherapy
Granulomas seen in immunocompetent
Minimal inflammatory response in Masses of mucicarmine staining (red) Cryptococci in
brain Robbins Pathologic Basis of Disease 10 th edition
immunocompromised, leading to masses
of gelatinous organisms
Most common cause of meningitis in AIDS
when CD4 T cell counts are < 100 cells
Incidence has decreased with ART
(antiretroviral therapy) Cryptococcus in brain:
https://www.stepwards.c
om

GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS – Clinical
Disease
Meningitis – the most common
manifestation; symptoms may be chronic
and subtle (confusion, headache); leads to
increased intracranial pressure
Cryptococcoma - abscesses (brain, lung)
Lung infection – pneumonia, nodules Crypococcomas brain: https://radiopaedia.org/

Disseminated infection; skin lesions
indicate disseminated disease

Cryptococcal pulmonary nodules:
https://radiopaedia.org/

Cryptococcal skin lesions

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
CRYPTOCOCCUS NEOFORMANS – TREATMENT
(reference only)
Initially, 2 drugs are used - Amphotericin plus flucytosine
This is followed by high dose azole- fluconazole (maintenance)
Treat elevated CSF pressure aggressively (repeated LPs)
As immune system recovers, it responds to opportunistic
infection with an overwhelming inflammatory response;
patients may get worse (immune reconstitution, IRIS)
Wait before starting antiretroviral treatment for patients with
HIV (to avoid IRIS)

GatewayC U R R I C U L U M
GatewayC U R R I C U L U M
KEY POINTS CRYPTOCOCCUS
Encapsulated yeast, reproduces by budding
Large polysaccharide capsule prevents phagocytosis;
melanin is antioxidant
Mucicarmine stain (in addition to H&E, silver stains) in
tissue diagnosis
Acquired by inhalation; tropism for CNS
Disease in immunocompromised- advanced HIV, transplant
Meningitis, pulmonary, skin lesions, disseminated
infection
Most common cause of meningitis in AIDS if CD4