Virulence Factors & Toxins PDF

Summary

This document provides an overview of virulence factors and toxins, specifically focusing on their mechanisms and the damage they cause to the host. Different types of toxins are discussed, such as cytolytic, A-B, and superantigen toxins. It also explains endotoxins and their effects. This document is suitable for undergraduate-level study in biology or microbiology.

Full Transcript

Virulence Factors

Toxins
 Last time
Virulence and Virulence factors
– Adhesions
– Exoenzymes (some of these act as toxins)
– Exotoxins
– Metabolic pathways
 More About Exotoxins
synthesized by specific bacteria
toxin genes
plasmids or prophage
among the most lethal substances known
– Small LD50

are highly immunogenic
– can stimulate production of neutralizing antibodies
(antitoxins)
– inactivated to form toxoids
Passive immunity in form of antitoxin can be
given as treatment
 Damage to the Host
Exotoxins
– Can be grouped into functional categories
Neurotoxins
– Cause damage to nervous system
– Major symptom is paralysis
Tissue Specific
– Enterotoxins
» Damage to intestines and tissues of digestive tract
Cytotoxins
– Damage to variety of cells or general tissues
– Damage caused by interference with cell function or cell
lysis
 Exotoxins
Released extracellularly
May travel far from focus of infection
Three main modes of action
– Cytolytic toxins
Attack cell components causing lysis
– A-B toxins (site specific, membrane disrupting)
Two subunits
B = binds to cell surface
A = damages cell
– Superantigen toxins
Stimulate large immune response and subsequent
inflammation
 Cytolytic Toxins
Two main types:
– Lipases
Phospholipases
Lecithinases
– Pore forming
leucocidins
streptolysins
 Other cytolytic toxins
Membrane-damaging toxins (enzymes)
– Phospholipases are group of potent
membrane-damaging toxins
Remove polar heads of phospholipid
Destabilizes membrane
Example: Clostridium perfringens
Figure 33.6 (b)
 Pore-forming exotoxins
(examples)
leukocidins
– kill phagocytic leukocytes
hemolysins
– kill erythrocytes, leukocytes, and many other
cells
– e.g., streptolysin-O (SLO)
oxygen-sensitive
– e.g., streptolysin-S (SLS)
oxygen stable
– e.g. Staphylococcus aureus produces  toxin
Figure 33.6 (a)
 Hemolytic reactions
beta-hemolysis
– complete lysis
– observed as zone of clearing around colony
on blood agar
alpha-hemolysis
– partial lysis
– observed as greenish zone around colony on
blood agar
Beta:
complete lysis

Alpha:
partial lysis
 More Damage to the Host
A-B toxins
– Toxins consist of two parts
A subunit
– Toxic or active part
B subunit
– Binding part
» Binds to specific host cell receptors
– Structure offers novel approaches to
development of vaccine and other
therapies
Use toxin structure as binding a delivery
system
 A-B toxins
Example = Diphtheria toxin
– Corynebacterium diphtheriae
– Rats/mice resistant, humans susceptible
– Single toxin molecule needed to kill a cell
Fragment B
– Promotes binding to host cell and allows entry of
Fragement A
Fragment A – blocks translation
– Prevents tRNA binding to ribosomes
– Prevents protein synthesis
 Other Examples of A-B toxins
Clostridium toxins
– Clostridium tetani – tetanus toxin
– Clostridium botulinum – botulinum toxin
Release toxins from site of wound
– Influence muscle contractions
– Botulinum toxin prevents muscle contraction
– Tetanus toxin prevents muscle relaxation
 Compare and explain
Compare notes with your neighbor on the
actions of the two examples of exotoxins
Cytolytic
A-B toxins
Give examples of the modes of action of
each
 Superantigen Toxins

– Elicit very strong immune response
– Induce extensive release of cytokines
– Systematic inflammatory response
Vomiting
Diarrhea
Fever
Systemic shock
– Superantigens also suspected in
contributing to autoimmune disease
 Superantigens
Examples:
– Toxic shock syndrome toxin
Staphylococcal and Streptococcal
– Staphylococcal enterotoxin A
Staphylococcus aureus

– Scarlet Fever Toxin
Streptococcus pyogenes
 Superantigens
Trick T cells – think they have been
activated by specific antigens
– Bridge MHCII of APC to CD4-T cell
– T – Cell release cytokines
– Activate large number of T-Cells (up to 30%)
Over stimulates immune system
– Systemic inflammation
– Capillary leakage
– Shock
Some synergistic with endotoxin
 Immune Responses
Damaging effects of the immune response
– Damage associated with antibodies
Antigen-antibody complexes
– Complexes form and settle in joints and kidneys
» Causes destructive inflammation
– Cross-reactive antibodies
Some antibodies produced in response to infection
bind to body’s own tissues
– Promotes autoimmune response
– Streptococcus pyogenes - rheumatoid arthritis
 Endotoxins
Gram neg bacteria
Lipopolysaccharide layer on envelope
– Lipid A
Releases when cells are lysed
Endotoxin symptoms
– Fever – cause release of pyrogens
– Diarrhea
– Inflammation
 Damage to the Host
Endotoxins
– Endotoxins are LPS of gram negative cell wall
Toxin fundamental part of gram negative organism
– Endotoxins are heat stable and therefore not
suitable for use as toxoids
– Lipid A responsible for toxic properties
– Symptoms associated with vigorous immune
response
– Toxin responsible for septic shock
a.k.a endotoxic shock
 More about Endotoxins

heat stable
toxic (nanogram amounts)
weakly immunogenic
generally similar, despite source

Responsible for “injection fevers”
Used rabbits as an assay
– Rabbit test or pyrogen test
Endotoxins…Exogenous Pyrogens
usually capable of producing general systematic
effects
– fever
– shock
– blood coagulation
– weakness
– diarrhea
– inflammation
– intestinal hemorrhage
– fibrinolysis
 Damage to the Host
Other bacterial cell wall components
– PTG and other cell wall components can elicit
symptoms similar to those seen with endotoxic
shock (PAMP)
– These include
Fever
Drop in blood pressure
 How do they compare?
Endotoxins less toxic than exotoxins
Mouse LD50 endotoxin 200-400 ug/kg
Mouse LD50 exotoxin 25 pg/kg

1,000,000 pg in a ug
Even though less toxic than exotoxins still toxic
enough to cause major clinical problems!
Presence of endotoxin can enhance sensitivity to
TSS toxins up to Million fold!
 Limulus test
Limulus amebocyte lysate (LAL)
Limulus is genus of horseshoe crab
– Amebocytes – “white blood cells” of crab
– Have no advanced immune system
– Blood or lysate clots in response to pathogens
(endotoxins)
– Used as presumptive test for endotoxin
 Endotoxemia
Examples
– Bacterial infection
– Burns and severe wounds
Significance
– 20 to 30% of intensive care patients
– 100,000 to 200,000 deaths a year in NA alone

Young L, Glauser M, editors. Gram-negative septicemia and septic shock.
Philadelphia: WB Saunders; 1991.
Limulus Amebocytes
 Limulus Test
Problems
– Can’t discriminate between live and dead cells
– Can’t discriminate toxins of different species
 Explain
What is an endotoxin?
What group of bacteria produce this?
What are the symptoms
What is an assay for the presence of
endotoxin
 Next Time
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