Corynebacteria
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Transcript Corynebacteria
Corynebacteria
Filename: Coryne.ppt
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Outline
Microbes
– Corynebacterium,Listeria,
Erysipelothrix
Diseases
– Diphtheria,Listeriosis,
Erysipeloid
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Corynebacterium: Habitat
Skin
upper
respiratory tract
GI tract
Urogenital tract of humans
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Cornyebacterium: Pathogens
C.
diphtheriae
Diphtheria
C.pseudotuberculosis
humans sheep, cattle,
suppurative
lymphadenitis
C. ulcerans humans
pharyngitis
cattle -mastitis
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C.
haemolyticum
pharyngitis cutaneous
infection
C. pyogenes cattle,
sheep, swine
suppurative infection
C.pseudodiphtheriticum
endocarditis
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C. xerosis
opportunistic infections
Group J K
immunocompromised host
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Related Organisms
Listeria monocytogenes
– Listeriosis
Erysipelothrix
rhusiopathiae
– Erysipeloid
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Diphtheria
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Diphtheria
Laboratory diagnosis
Speedy
diagnosis
Differentiate from commensals
– “diphteroids”
– nose & throat
– C. xerosis C. hofmanni
Throat
swabs (confirmatory)
– Blood Tellurite
Virulence
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test
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Corynebacterium
Aerobic
gram + rods
-pleomorphic: club-shaped
-pallisades
-snapping cell division
-metachromatic granules
– methylene blue stain
– volutin: polyphosphate
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Cellular Morphology
Gram
positive rods
“Snapping division”
Palisade cells
“Chinese letters”
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Erysipelothrix
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Specialized media
Tellurite:
black colonies
Not diagnosticallly
significant
tellurite inhibits many
organisms but not C.
diphtheriae
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Loeffler
best colonial morphology
Dextrose horse serum
(1887)
now Dextrose beef serum
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Blood tellurite
Selective
& differential medium
Corynebacteria are resistant to
tellurite
– Reduced to tellurium
Forms
deposit in colonies
– Colonies appear dark
Biotypes
– gravis, intermedius, mitis
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Corynebacterium Biotypes
C
diphtheriae gravis
C diphtheriae intermedius
C diphtheriae mitis
Helpful for epidemiological tracing
Culture identified by biochemical tests.
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Diphtheria
Nasopharyngeal
diphtheria
– Pharyngeal
– Larygngeal
Cutaneous
diphtheria
Systemic complications
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DIAGNOSIS MUST BE CLINICAL!!!!
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Pharyngeal diptheria
Inflammation
– similar to strept
throat
Leucocytes
– infiltrated
– killed
– embedded in fibrin
clot
TOXIN
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!!
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Diphtheria Symptoms
Pharyngitis
Hypoxia
– Choking
– “Garitillo”
Fever
(103 F)
Lymphadenitis
All SIGNS & SYMPTOMS CAUSED BY TOXIN
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Diphtheria Pseudomembrane
No
True
membrane
Very few live
cells
Deposit of dead
cells and
protein
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Pseudomembrane
CONTAINS
–
–
–
–
–
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bacteria
lymphocytes
plasma cells
fibrin
dead cells
COVERS
– tonsils,
– uvula,
– palate
– nasopharynx
– larynx.
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Diphtheria
Systemic complications
Nerves
– toxic peripheral neuropathy
– paralysis of short nerves
– mouth, eye, facial extremities
Cardiac
– Congestive heart failure
– high amount of toxin 48-72 hours
– Low amount of toxin 2-6 weeks
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Virulence Factors
Diphtheria
toxin !!!
– blocks protein synthesis
Dermonecrotic
toxin
– sphingomyelinase
– increases vascular permeability
Hemolysin
Cord
factor -Toxic trehalose
– corynemycolic acid, corynemyolenic acid
– 6,6’-di-O-mycoloyl- a,a’-D-trehalose
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DiphtheriaToxin
Blocks
protein synthesis
Protein 63Kd
controlled by Tox gene
lysogenic phage Betacorynephage
expressed if [iron] low
2 components A-B
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Regulation of Diphtheria Toxin
High [Fe 2+]
NO Toxin Produced
P
o
tox
Corynebacteriophage beta
[Fe 2+ *DtxR]
Fe 2+ + apo DtxR
p
dtxR
C diphtheriae
dtxR= repressor protein
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Regulation of Diphtheria Toxin
Low [Fe 2+]
Toxin Produced!!!
P
o
tox
Corynebacteriophage beta
[Fe 2+ *DtxR]
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Fe 2+ + apo DtxR
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Part A
– Active site
– N terminal
– Enzyme
Part
Toxin
B
– Binding site
– Binds to
membrane
receptor
– Transmembrane
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Diphtheria toxin: Part A
Active
site
Enzyme
Blocks protein synthesis
– ADP-ribosyl transferase
– elongation factor 2 (EF2)
Specific
for mammalian cells
– Prokaryotes have different EF2
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Diphtheria Toxin: Part B
Binding
Site
Binds to cell receptor
Bound receptor internalized
Endosome
– Hydrolysed by protease
– Disulfide broken
– Part A released
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Activation of Diphtheria Toxin
A
A
B
B
B
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A
B
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Toxingenicity Tests
In Vitro Elek test
In Vivo Animal inoculation
rabbit skin test-necrosis
guinea pig challenge test- lethal
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low [Fe 2+] induces toxin
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Elek test
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Animal inoculation
Inject 2 mice with 5ml C.diphtheria cells
one mouse protected with 1000 units
C.diphtheriae antitoxin
Autopsy - adrenals hemorrhagic
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Control
Immunization
Schick
diphtheria toxoid
test
– check for antibodies
Passive
immunity
– Antibodies
Antibiotics
– Penicillin & erythromcyin
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Schick Test for Diptheria
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Epidemics
Immune
individuals
– may be carriers
– antibiotics
Non
immune individuals
– Exposed
passive immunity antibodies
– Not exposed
immunize with toxoid
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Diphtheria: Russian Federation
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Diphtheria in the Soviet Union and NIS
Emerging infectious diseases: 4(4) 1998 Vitek & Wharton
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Diphtheria Incidence
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Diphtheria in the Russian Federation
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The End
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Performance Objectives
Key terms, concepts
short answers
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Key Terms
pseudomembrane
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Key Terms
Schick
test
Elek Test
Diphtheria toxin
larnygeal diphtheria
pharyneal diphtheria
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Key Organisms
Corynebacterium
Listeria
Erysipelothrix
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Key Concepts
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Epidemiology of Diphtheria
Disease/bacterial
factors
Transmission
Who
is at risk
Geography/ season
Incidence
Modes of control
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Short Answers
Construct
a table of the virulence factors
associated with diphtheria and the biological
activity of each
Use a series of no more than four diagrams to
describe the mechanism of action of
diphtheria toxin
Describe the clinical manifestations of
diphtheria
Construct a table listing the common
Corynebacteria and the associated diseases.
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