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Transcript
Application of Immunology
•
•
•
•
Clinical diagnosis
Treatment
Prophylaxis
Research
Types of immunity
• (Natural or Innate immunity)
• (adaptive or acquired immunity)
Innate immunity
• First line of defence
• Cellular and biochemical mechanisms are present
before infection
• These mechanisms react only to microbes
• They respond in essentially the same way to repeated
infections
• The principal components of innate immunity are:
a) Physical and chemical barriers
b) Phagocytic cells
c) Blood proteins(CRP,complement,interferons)
d) cytokines
Innate immunity
• Some components are functioning at all
times even before infection
• Others are normally inactive but poised
to respond rapidly to the microbes
Anatomical Barriers - Mechanical
Factors
System or
Organ
Cell type
Mechanism
Skin
Squamous
epithelium
Physical
barrier
Desquamation
Mucous
Membranes
Non-ciliated
epithelium (e.g. GI
tract)
Peristalsis
Ciliated epithelium
(e.g. respiratory
tract)
Mucociliary
elevator
Epithelium (e.g.
nasopharynx)
Flushing
action of
Anatomical Barriers - Chemical
Factors
System or
Organ
Component
Mechanism
Skin
Sweat
Anti-microbial
fatty acids
Mucous
Membranes
HCl (parietal cells)
Tears and saliva
Low pH
Lysozyme and
phospholipase
A
Defensins
(respiratory & GI
tract)
Antimicrobial
Sufactants (lung)
Opsonin
Anatomical Barriers - Biological
Factors
System or
Organ
Skin and
mucous
membranes
Component
Mechanism
Normal flora Antimicrobial
substances
Competition
for nutrients
and
colonization
Humoral Components
Component
Mechanism
Complement
Lysis of bacteria and some viruses
Opsonin
Increase in vascular permeability
Recruitment and activation of
phagocytic cells
Coagulation
system
Increase vascular permeability
Recruitment of phagocytic cells
Β-lysin from platelets – a cationic
detergent
Lactoferrin and
transferrin
Compete with bacteria for iron
Lysozyme
Breaks down bacterial cell walls
Cellular Components
Cell
Functions
Neutrophils
Phagocytosis and intracellular killing
Inflammation and tissue damage
Macrophages
Phagocytosis and intracellular killing
Extracellular killing of infected or
altered self targets
Tissue repair
Antigen presentation for specific
immune response
NK and LAK
cells
Killing of virus-infected and altered self
targets
Eosinophils
Killing of certain parasites
interferon
• Type I(IFN-α,IFN-β) all immune cells and
fibroblasts as an anti virus
• Type II(IFN- )
T cells as a immunoregulator
interferons
• Interferon alphas are used for treating cancers and
viral infections
• interferon betas are used for treating multiple
sclerosis
• interferon gamma is used for treating chronic
granulomatous disease.
Adaptive immunity
• Stimulated by exposure to
infectious and noninfectious
agents,increase in magnitude
and defensive capabilities with
each succesive exposure to a
particular microbe.
Types of adaptive
immunity
• Humoral immunity (antibodies)
Principal defence mechanism
against extracellular microbes
and their toxins
• Cell mediated immunity (CMI)
Defence against intracellular
microbes
Phases of adaptive
immune resposes
• Recognition of antigen
• Activation of lymphocytes
• Elimination of antigen(effector
phase)
• Decline of immune
responses(homeostasis)