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Transcript 
TORTORA • FUNKE
• CASE
Microbiology
AN INTRODUCTION
EIGHTH EDITION
B.E Pruitt & Jane J. Stein
Eukaryotic Pathogens:
Fungi
PowerPoint® Lecture Slide Presentation prepared by Christine L. Case
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings
Eukaryotic Pathogens: Fungi
What types of eukaryotic organisms are pathogenic, and how do they differ from bacteria?
•
Fungi
• Classification
• Hyphae and multicellularity
• Cell walls: sepatate or coenocytic hyphae
• Spores: sexual or asexual
• Unicellular Yeasts
• Three-Four Major Medically Impt. Groups
• Zygomycetes: Conjugation Molds
• Ascomyctes: Sac Fungi
• Basidomycetes: Club Fungi
• Fungal Diseases: Mycoses
• Aspergillosis, histoplasmosis, candidiasis, etc
• Better Adaptation to Hostile Environments
Eukaryotic pathogens are mostly parasitic and are difficult to target selectively with drugs since their cells are so similar to human cells.
The Fungi
• Eukaryotic
• Aerobic or facultatively anaerobic
• Chemoheterotrophic
• Most are decomposers
• Mildly acidophilic, acid tolerant
• More osmotically tolerant than bacteria
• Mycology is the study of fungi
Fungi
Table 12.1
Molds
• Molds consist of hyphae; a mass of hyphae is a
mycelium.
1 hypha
Mycelium
Figure 12.2
Key Characteristics: Cell Walls, Spore Types
(Aseptate)
Sometimes hyphal cells are dikaryotic
Types of Spores: Asexual or Sexual
Zygomycota
Zygospores (sexual)
Zygomycota
Ascomycota
Ascomycota,
Basidiomycota
Conidiospores (asex.)
Ascospores (sexual)
Basidiomycota
Basidospores (sexual)
Sporangiospores (asex.)
Sexual spores arise from meiosis
Asexual spores arise from mitosis
Yeasts : Single-celled Fungi
• Unicellular fungi, ovid
• Fission yeasts divide symmetrically
• Budding yeasts divide asymmetrically
• Mycoses: Candidiasis (local and systemic) from Candida
albicans
• Beneficial: Saccharomyces cerevesiae/baker’s yeast
Figure 12.3
Dimorphism
• Pathogenic
dimorphic fungi
are yeastlike at
37°C and
moldlike at
25°C
Figure 12.4
Eukaryotic Pathogens: Fungi
What types of eukaryotic organisms are pathogenic, and how do they differ from bacteria?
•
Fungi
• Classification
• Hyphae and multicellularity
• Cell walls: sepatate or coenocytic hyphae
• Spores: sexual or asexual
• Unicellular Yeasts
• Three-Four Major Medically Impt. Groups
• Zygomycetes: Conjugation Molds
• Ascomyctes: Sac Fungi
• Basidomycetes: Club Fungi
• Fungal Diseases: Mycoses
• Aspergillosis, histoplasmosis, candidiasis, etc
• Better Adaptation to Hostile Environments
Eukaryotic pathogens are mostly parasitic and are difficult to target selectively with drugs since their cells are so similar to human cells.
Zygomycete Life Cycle: Conjugation Molds
•Coenocytic hyphae. Produces sporangiospores and zygospores
•E.g. Rhizopus/black bread mold
Figure 12.6
Ascomycete Life Cycle: The Sac Fungi
•Septate hyphae. Produces ascospores or conidiospores
•Systemic mycoses: Aspergillosis , histoplasmosis, penicilliasis
•Cutaneous mycoses: Microsporum/Trichophyton (jock itch, athlete’s foot, ringworm)
Basidiomycete Life Cycle: Club Fungi
•Septate hyphae. Produces basidiospores and sometimes conidiospores.
• Cryptococcus neoformans (systematic mycosis)
• Toxic Mushrooms (Amanita)
Figure 12.8
Lichens: Ascomycete with unicellular algae or cyanobacteria
Figure 12.10
Eukaryotic Pathogens: Fungi
What types of eukaryotic organisms are pathogenic, and how do they differ from bacteria?
•
Fungi
• Classification
• Hyphae and multicellularity
• Cell walls: sepatate or coenocytic hyphae
• Spores: sexual or asexual
• Unicellular Yeasts
• Three-Four Major Medically Impt. Groups
• Zygomycetes: Conjugation Molds
• Ascomyctes: Sac Fungi
• Basidomycetes: Club Fungi
• Fungal Diseases: Mycoses
• Aspergillosis, histoplasmosis, candidiasis, etc
• Better Adaptation to Hostile Environments
Eukaryotic pathogens are mostly parasitic and are difficult to target selectively with drugs since their cells are so similar to human cells.
Aspergillosis (Aspergillus mold) respiratory or systemic
Ascomycete
•Most commonly seen in immunocompromised patients
•May start in lungs as fungus ball or in sinuses
•Can become systemic (esp. in AIDS); endocarditis (valves)
•Bronchiectasis (scarring of bronchioles)
•Prefers aerobic environment
•Asthmatics may be allergic to mold spores
•Found in dead and decomposing plant material in nature
•Treated with amphotericin B; allergics with prednisone
Candidiasis caused by Candida albicans yeast
Ascomycete
Vaginitis (“vaginal yeast infection”)
Systemic candidiasis, often
in AIDS patients
Treated with antifungals like nystatin
Thrush
Histoplasmosis (Histoplasma capsulatum)
Ascomycete
• Dimorphic: both yeast-like
and mold-like
• Mild respiratory infection
• Acquired from airborne
spores often in bird and bat
feces
•Mostly immunocompromised
patients; AIDS
•Often not treated, otherwise
with amphotericin B
Pneumocystis pneumonia (Pneumocystis jurovecii)
•Yeast-like and protozoan-like
•Hard to culture and classify
•Pathogenic in immunosuppressed
individuals (e.g. AIDS)
•Forms cysts in the lungs that
rupture to release more cells
•Causes pneumonia
•Human-based organism only
•In its own group: Deuteromycota
Skin mycoses
Usually caused by Trichophyton, Microsporum, or Epidermophyton
• Tinea pedis (athlete’s foot)
• Tinea corporis or capitis (ringworm)
• Tinea cruris (jock itch)
All are
ascomycetes
Epidermophyton
Microsporum
Eukaryotic Pathogens: Fungi
What types of eukaryotic organisms are pathogenic, and how do they differ from bacteria?
•
Fungi
• Classification
• Hyphae and multicellularity
• Cell walls: sepatate or coenocytic hyphae
• Spores: sexual or asexual
• Unicellular Yeasts
• Three-Four Major Medically Impt. Groups
• Zygomycetes: Conjugation Molds
• Ascomyctes: Sac Fungi
• Basidomycetes: Club Fungi
• Fungal Diseases: Mycoses
• Aspergillosis, histoplasmosis, candidiasis, etc
• Better Adaptation to Hostile Environments
Eukaryotic pathogens are mostly parasitic and are difficult to target selectively with drugs since their cells are so similar to human cells.
Fungi vs Bacteria
(Mycosterols)
, genatmycin
Sugar or salt tolerance
More tolerant of high osmotic environments
(grows more easily on jams and jellies)
Less tolerant of high osmotic envir.
Acid tolerance
More tolerant of acidic environments
(can culture on Sabourad agar)
Less tolerant of acidic environments
Moisture tolerance
Tolerant of low moisture environments
(can grow on shoe leather!)
Requiring higher moisture environments
Nitrogen requirements
Require less nitrogen
Require more nitrogen
Carbohydrate produce
Produces indigestible carbohydrates
Can digest plant carbohydrates
Most carbohydrates produced are digestible
Can’t digest some plant carbos.
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