Pathogenesis Of Bacteria PDF

Summary

This document presents an overview of the pathogenesis of bacteria. It covers various aspects, including virulence factors, mechanisms of infection, and different types of bacterial infections. The document is a great resource for understanding how bacteria cause diseases and what mechanisms they use to do so.

Full Transcript

PATHOGENESIS
Of Bacteria
Dr. Nada Abdallah Basheer
Consultant microbiologist
Pathogen: An organism that is capable of
causing disease.

Opportunistic organism rarely causes disease
in immuno-competent people but can cause
serious infection in immunocompromised
patients.

Virulence : is a quantitative measure of
pathogenicity. Number of organisms required to
cause diseases.
Virulence

The 50% lethal dose (LD50): is the number of
organisms needed to kill half the hosts, and
the 50% infectious dose (ID50) is the number
needed to cause infection in half the hosts.
Organisms with a lower LD50 (or ID50) are
more virulent than those with a higher LD50
(or ID50) because fewer organisms are
needed to cause death or disease.
Infectious dose

Number of organisms required to cause
disease. Shigella and Salmonella both cause
diarrhea but the infectious dose of Shigella is
less than 100 organisms, whereas that of
Salmonella is almost 100,000 organisms.
The infectious dose of bacteria depends
primarily on their virulence factors, e.g., pili,
capsule, production of exotoxins,,,etc
Infectious Diseases
Occurs when microorganisms overpower the
host defenses. The organism or its products
present in sufficient amount to induce
symptoms.
The critical determinants are the number of
organisms and their virulence. the main arms
of the host defenses are innate and acquired
immunity.
Asymptomatic infections are common and
recognized by detecting antibody against the
organism in the patient's serum.
Bacterial Infection

Bacteria cause disease by three major
mechanisms:
Direct Invasion and inflammation.
Toxin production:
a) Exotoxin , polypeptides released by the
bacteria.
b)Endotoxin , lipopolysaccharides, part of
the cell wall of Gm-ve bacteria.
Immune - mediated mechanisms
Types of Bacterial Infection

Communicable infections, spread from host
to host e.g; tuberculosis, contagious is highly
communicable.
Epidemic infection: occurs much more
frequently than usual.
Pandemic has a worldwide distribution.
Endemic infection is constantly present at a
low level in a specific population.
Inapparent or subclinical infections that
result in overt symptoms.
Types of Bacterial Infection

Some infections result in a latent state, after
which reactivation of the growth of the
organism and recurrence of symptoms may
occur.
Chronic carrier state, in which the organisms
continue to grow with or without producing
symptoms in the host.
Normal flora are permanent residents of the
body, it vary according to anatomic site.
Colonization is the presence of a new
organism that is neither a member of the
normal flora nor the cause of symptoms.
Stages Of Bacterial Pathogenesis

1. Transmission from an external source into the
portal of entry.
2. Evasion of primary host defenses such as skin
or stomach acid.
3. Adherenceto mucous membranes.
4. Colonization by growth of the bacteria at the
site of adherence.
5. Disease symptoms caused by toxin production
or invasion & inflammation.
6. Host responses; nonspecific & specific immuity.
7. Progression or resolution
 Transmission
Can be human-to-human or non-human
sources (soil, water, and animals)or fomite
source as towels.
Mainly via respiratory tract, GIT , genital tract,
blood transfusion and skin.
Vertical transmission : through the placenta,
during birth or breast milk.
Horizontal transmission: person to person
transmission.
Animals can be a reservoir or a vector.
Adherence to cell surfaces
Pili, capsule & glycocalyces.

Pili adhere to the surface of
human cells enhancing the
ability to cause diseases.
E.coli & Neisseria
gonorrhoeae
E. coli with fimbriae

Glycocalyx of S.epidermidis &
St.viridans allow strong
adherence to the endothelium
of heart valves.
Adherence to cell surfaces
After attachment, bacteria often form a protective
matrix "Biofilm" consist of polysaccharides &
proteins, especially on prosthetic valves & IV
catheters. it protect bacteria from antibiotics ,
antibodies and neutrophils.
Important in the persistence of Pseudomonas in the
lungs of cystic fibrosis & the formation of dental
plaque & dental caries.
Foreign bodies, predispose to infections,
bacteria can adhere to these surfaces, but
phagocytes adhere poorly due to the
absence of selectins and other binding
proteins on artificial surfaces
 Invasion and inflammation
Several enzymes play a role in pathogenesis:
Collagenase & Hyaluronidase: degrade collagen
and hyaluronic acid allows bacteria to spread
through subcutaneous tissue; especially
important in cellulitis.
Coagulase accelerates formation of fibrin clot
from fibrinogen, protect the bacteria from
phagocytosis. (Staph.aureus)
IgA protease. which degrades IgA allowing the
organism to adhere to mucous membranes. (N.
gonorrhoeae, H.influenzae, and St.pneumoniae).
Leukcocidin destroys neutrophils &
macrophages.
 Invasion and inflammation
Several virulence factors:
The capsule prevents the phagocyte from
adhering to the bacteria; anti-capsular
antibodies allow more effective phagocytosis
to occur (a process called opsonization)
Cell wall proteins of the Gram-positive cocci,
as the M protein of St.pyogenes (atiphagocytic)
& protein A of S.aureus binds to IgG and
prevents the activation of complement.
Pili of Escherichia coli.
Inflammation& intracellular survival
Types of inflammation:
a)Acute pyogenic infection; neutrophils
predominate e.g. Pneumonia
b)Chronic granulomatous infections;
macrophages &T-cell predominate e.g.
Tuberculosis infection.
Intracellular survival is an important for
certain bacteria enhances their ability to
cause diseas, commonly cause
granulomatous lesions.
 Intracellular Parasites
Obligate intracellular parasites (Chlamydia &
Rickettsia) Many are facultative parasites
(Mycobacterium, Legionella, Brucella, and
Listeria).
Mechanisms allow intracellularly survival:
1. inhibition of the fusion of the phagosome with
the lysosome.
2. inhibition of acidification of the phagosome,
which reduces the activity of the lysosomal
degradative enzymes
3. escape from the phagosome into the
cytoplasm, where there are no degradative
enzymes.
 Bacterial invasion
The invasion of cells by bacteria depend on the
interaction of specific bacterial surface proteins
called invasins and specific cellular receptors.
The movement of bacteria into the cell is a
function of actin microfilaments.
Once inside the cell, bacteria typically reside
within cell vacuoles as phagosomes. Some
remain there, others migrate into the cytoplasm,
and some move from the cytoplasm into
adjacent cells through tunnels formed from actin.
Bacterial invasion
The genes that encode many virulence
factors in bacteria are clustered in
pathogenicity islands on the chromosome,
those encoding adhesins, invasins, and
exotoxins are adjacent to each other on
these islands
Nonpathogenic variants do not have these
pathogenicity islands.
After bacteria have colonized and multiplied
at the portal of entry, they may invade the
bloodstream and spread to other parts of the
body.
Receptors for the bacteria on the surface of
cells determine, in large part, the organs
affected.
Toxin production

1.Exotoxins:
Secreated by both G+ve & G-ve bacteria ,
polypeptides in nature ,its gene is located in
plasmids or bacteriophage (e.g diphtheria &
cholera)
Is one of the most toxic substance known.
Toxoid is a toxin treated with formaldehyde acid
or heat. Loses its pathogenicity but retains it’s
immunogenicity. Used in vaccination.
Toxins have A(the active)& B(binding) subunits.
2.Endotoxin

Integral part of the cell wall of Gm-ve
bacteria. Are lipopolysaccharides(LPS).
Encoded on the bacterial gene.
Produce fever, hypotension & shock. They
are weakly antigenic.
Have high mortality rate (30-50%).
 Immunopathogenesis

In rheumatic fever & acute glomerulonephritis, the
symptoms of disease are due to the immune
response to the presence of the organism.
In rheumatic fever, antibodies are formed against
the M protein of Str. pyogenes, which cross-react
with joint, heart, and brain tissue. Inflammation
occurs, resulting in the arthritis, carditis, and
chorea that are the characteristic findings in this
disease.
Different Strains of Bacteria
Produce Different Diseases
bacteria that belong to the same genus and
species can cause such widely divergent
diseases.
The different virulence factors are encoded
on plasmids, on transposons, on the genome
phages, and on pathogenicity islands.
These transferable, extrachromosomal
genetic elements accounts for the ability to
cause different diseases.
Virulence Factors
Typical stages of an infectious
diseases
1.Incubation period: the time between
acquisition of the organism and the
beginning of symptoms
2.Prodromal period: nonspecific symptoms
occur.
3.The specific-illness period.
4.The recovery period. During which the
patient either becomes a chronic carrier or
goes into a latent period.
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