Mechanism of pathogenicity-Exotoxin and endotoxin

Pathogens & Disease
 Pathogens are defined as microbes
capable of causing host damage.
 When host damage reaches a certain
threshold, it can manifest itself as a
disease.
 The evolution of an infectious disease in an
individual involves complex interactions
between the pathogen and the host.

PATHOGENICITY & VIRULENCE
 Pathogenicity – the ability to cause disease by overcoming the
defenses of the host
 Virulence – the degree or extent of pathogenicity
 Virulence factors – the various traits or features that allow or
enhance the microorganism’s ability to cause disease. These
take may forms and include:
adhesion organelles,
toxin production,
evasion of the host’s immune response,
resistance to antibiotics,
ability to invade host tissues

MECHANISMS OF PATHOGENICITY
Portal of Entry
Adherence
Penetration/invasion
of host defense
Damage to host cell

PORTALS OF ENTRY
 To cause disease, most pathogenic bacteria must gain
access to the host
 including skin and mucus membranes
 cuts, surgical procedures, catheters, etc may allow
bacteria entrance into the host
 Normal skin flora, including Staphylococcus aureus and
Staphylococcus epidermidis, can enter through these
barriers and establish an infection

PORTALS OF ENTRY
 Many pathogens have preferred portals of entry that are
necessary for disease production
 If they gain entrance via another portal, disease may not
occur
 Salmonella typhi produces disease when swallowed but
not if rubbed on the skin
 Streptococci that are inhaled can cause pneumonia but, if
swallowed, generally do not produce disease
 Bacillus anthracis can initiate disease from more than one
portal of entry (skin inoculation, GI, respiratory)

ADHERENCE.
 Means attachment
 A necessary step in pathogenicity
 Attachment between pathogen and host is
accomplished by means of adhesins or
ligands.
 Most adhesins of microbes are
glycoproteins or lipoproteins

ADHERENCE
 The term pili (pilus) is also used to bind the host
cells
 Gram positive organisms use other structures for
adhesins (lipoproteins, etc). Streptococcus pyogenes
uses lipoteichoic acid to bind to epithelial cells
 Once attached to target cells, many bacteria can then
invade the cell

ADHESINS ARE VERY DIVERSE.
 S. mutans plays a key role in tooth decay
attaches to the surface of teeth by its
glycocalyx
 E. coli have adhesins on fimbriae that
adhere only to specific kinds of cells

INVASION
 Not all bacteria are invasive. Invasive organisms
attach and enter host cells by a number of
mechanisms:
 Production of surface proteins called invasins
 Production of enzymes:
 collagenase which breaks down collagen in connective
tissue
 hyaluronidase which breaks down hyaluronic acid that holds
cells together (particularly connective tissue cells)
 Coagulase which converts fibrinogen to fibrin producing a
clot (may be protective against phagocytes)
 Kinases which can break down clots decreasing the isolation
of bacteria in clots (spreading effect)

HOW BACTERIA DAMAGE HOST CELLS.
 Direct damage
 The production of Toxins
Types of toxins: Exotoxins and Endotoxins.

Bacterial Toxins
 Many different types of toxins
 Exotoxins
 Endotoxins
 Toxins are are not required for growth
 Genes for toxins are usually on plasmids

Mechanism of pathogenicity-Exotoxin and endotoxin

EXOTOXINS.
 Produced inside some bacteria as part of their
growth and metabolism and released into the
surrounding medium
 Are proteins, and many are enzymes
 Most bacteria that produce exotoxins are gram-
positive
 The genes for most exotoxins are carried on
bacterial plasmids or phages.

Neurotoxin.
 Target the nervous system, and can
interfere with normal nerve impulse
transmission, e.g. C. tetani, C. botulinum.
ENTEROTOXINS.
 Affect cells lining the gastrointestinal tract.
 E.g. V. cholerae, C. difficile.

 Exotoxins
 Initial location outside
cells
 Transported into host
cells
 Alter host cell
physiology and
metabolism
 Typical A – B toxins
AB toxin enters cells via:
1) Receptor mediated endocytosis
2) Fusion of vesicle with lysosome
3) Acid environment of lysosome
reduces disulfide bonds and
releases A into cell
4) A has various cellular activities
Bacterial Exotoxins

Corynebacterium diphtheriae
 Corynebacterium diptheriae
 Produces AB exotoxin
 Gram positive rod
 Significant cause of mortality until 1950s
 Common location upper respiratory tract

Clostridium botulium
 Clostridium botulinum
 Produces AB exotoxin
 Produces irreversible muscle relaxation
 Flaccid paralysis
 Symptoms result entirely from toxin
 Anaerobic gram + rod
 Usually ingested in contaminated food
 Does not involve fever or sepsis
 Patients die of paralysis and respiratory failure

Mechanism of Action of botulinum toxin

NOTABLE EXOTOXINS.
 Diphtheria toxin.
 Erythrogenic toxins.
 Botulinum toxin.
 Tetanus toxin
 Vibrio Enterotoxin.
 Staphylococcal Enterotoxin.
 .

Bacterial Endotoxins
 Endotoxins
 Toxin is not internalized
 Toxin is located on outside of microorganisms (Part
of the outer portion of the cell wall of bacteria)
 LPS of gram – bacteria
 Lipoteichoic acid or gram + bacteria
 Only toxic at high levels
 Liposaccharide

 Exert their effects when the gram negative
bacteria dies and their cell wall undergo
lysis, thus liberating the endotoxin(e.g use
of antibiotics)
 All endotoxins produce the same signs and
symptoms
 Endotoxins can also induce miscarriage.

Mechanism of Action of Endotoxins
 Endotoxins bind to
 Receptors on
 Macrophages
 Neutrophils
 Lymphocytes
 Proteins of complement
 Complement is a group of proteins which circulate at
constant levels in the blood
 When activated complement is a powerful tool
against invading pathogens
 Increased inflammation

Bacterial Endotoxins
 Endotoxins
 Host cell receptors (TLR) bind to
components of pathogen
 Pathogen associated molecular
patterns PAMPS
 LPS – gram - cell walls
 Flagella
 Lipoteichoic acid – gram + cell
walls
 Signal transduction pathways
begin to make a cellular response
 Production of cytokines

Bacterial Exoenzymes
 Enzymes secreted by bacterial cells into
the extra cellular matrix of host
 Membrane Damaging Toxins
 Enzyme destruction of host cell membranes
 Lyse red blood cells
 Membrane pore forming complex
 Enzymes which act in the extra cellular matrix
 Spreading factors
 Breaks down connective tissue
 Attacks blood clots
 Enzymes which subvert drug therapy in
patients
 Penicillinase

Some Common Exoenzymes
 α toxin
 Pore forming toxin
 Common in
Staphylococcus aureus
 Hemolysins
 Destroy red blood cells
 Streptolysins – group of
hemolysins excreted by
Streptococcus
 Streptokinase
 Attacks fibrin clots
 From Streptococcus
pyogenes
 Hyaluronidase
 Breaks down hyaluronic
acids in connective
tissue
 Similar function for
 Collagenase
 Elastases
 DNase
 DNA is viscous
 Thins pus (DNA &
debris) released from
WBC

Clostridium perfringens
 Clostridium perfringens
 Ananerobic gram + spore forming rod
 Widely distributed in nature
 Entry of spores by traumatic injury
 Not highly invasive so it requires exoenzymes for a
supportive growth environment
 Exoenzymes
 Lecithinase lipase c – major toxin
 Lyses mammalian cells indiscriminately
 Substrate is phophatidylcholine
 Collagenase & hyaluronidase
 DNAase

Mechanism of pathogenicity-Exotoxin and endotoxin

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Mechanism of pathogenicity-Exotoxin and endotoxin