Innate immunity
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Feb 05, 2016
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About This Presentation
A simple and neat presentation on Natural immunity aka innate immunity
Slide Content
Dr.Riyaz Sheriff M.D
Types of disease
Pathogenic Organisms
Genetic Disorders
Toxic Chemicals
Other Environmental Factors
Physical Damage to Organs
Nutritional Disorders
Pathogenic Organisms
Genetic Disorders
Toxic Chemicals
Other Environmental Factors
Physical Damage to Organs
Nutritional Disorders
Types of Pathogens
Bacteria
Viruses
Protozoan
Fungi
Animal
Parasites
Bacteria
Viruses
Protozoan
Fungi
Animal
Parasites
How do these cause disease?
Utilization of host nutrition.
Physical damage to host tissues
Production of toxic substances
Chromosomal and gene damage
Body cells behave abnormally
Utilization of host nutrition.
Physical damage to host tissues
Production of toxic substances
Chromosomal and gene damage
Body cells behave abnormally
So what does the body do??
•Fight against the harmful cause !
•Immunity
•It is the resistance offered by the body towards
microorganisms and their products
•Fight against the harmful cause !
•Immunity
•It is the resistance offered by the body towards
microorganisms and their products
CELL WALL
PLASMA MEMBRANE
CYTOPLASM
GENETIC MATERIAL
BACTERIA
PLASMA MEMBRANE
CYTOPLASM
GENETIC MATERIAL
BACTERIA
VIRUS
ENVELOPE
CAPSID
GENETIC MATERIAL
ENVELOPE
CAPSID
GENETIC MATERIAL
IMMUNITY
IMMUNITY
INNATE
NON
SPECIFIC
SPECIES
RACE
INDIVIDUAL
SPECIFIC
SPECIES
RACE
INDIVIDUAL
ACQUIRED
ACTIVE
NATURAL
ARTIFICIAL
PASSIVE
NATURAL
ARTIFICIAL
IMMUNITY
INNATE
NON
SPECIFIC
SPECIES
RACE
INDIVIDUAL
SPECIFIC
SPECIES
RACE
INDIVIDUAL
ACQUIRED
ACTIVE
NATURAL
ARTIFICIAL
PASSIVE
NATURAL
ARTIFICIAL
INNATE IMMUNITY
INNATE /NATURAL IMMUNITY
NON SPECIFIC
SPECIES RACE INDIVIDUAL
SPECIFIC
SPECIES RACE INDIVIDUAL
INNATE /NATURAL IMMUNITY
NON SPECIFIC
SPECIES RACE INDIVIDUAL
SPECIFIC
SPECIES RACE INDIVIDUAL
Innate immunity / natural
immunity
Genetics
No relation to prior exposure
No relation with immunization
Can be
General type of innate immunity
Degree of resistance to infections in general
Specific type of innate immunity
Degree of resistance to one particular pathogen
immunity
Genetics
No relation to prior exposure
No relation with immunization
Can be
General type of innate immunity
Degree of resistance to infections in general
Specific type of innate immunity
Degree of resistance to one particular pathogen
LEVELS OF INNATE IMMUNITY
•Species level
–All members of the same species do not respond to
a particular pathogen. Eg: Humans are not affected
by plant pathogens
•Racial immunity
–All members of a particular race are resistant to
certain infections. Eg: people of certain African
tribes do not develop Plasmodium falciparum
malaria
•Species level
–All members of the same species do not respond to
a particular pathogen. Eg: Humans are not affected
by plant pathogens
•Racial immunity
–All members of a particular race are resistant to
certain infections. Eg: people of certain African
tribes do not develop Plasmodium falciparum
malaria
LEVELS OF INNATE IMMUNITY
•Individual immunity
–The level of immunity among the individuals.
•Individual immunity
–The level of immunity among the individuals.
Factors affecting innate
immunity
AGE HORMONES NUTRITION
immunity
AGE HORMONES NUTRITION
Factors affecting innate
immunity
•AGE
–Extremes of age contract infections fast
–Fetus in utero is protected from maternal infections by
PLACENTA
•Exceptions :RUBELLA, HERPES, CMV & TOXOPLASMA
•May cause deformity or death
–New bornsare more susceptible to infections.
•Due to immaturutyof immune system
•Reason for using young ones in animal experiments
–Some infections are more prevalent in younger
children, incidence comes down with onset of puberty
•Tineacapitis infection
•Gonococcal infection
immunity
•AGE
–Extremes of age contract infections fast
–Fetus in utero is protected from maternal infections by
PLACENTA
•Exceptions :RUBELLA, HERPES, CMV & TOXOPLASMA
•May cause deformity or death
–New bornsare more susceptible to infections.
•Due to immaturutyof immune system
•Reason for using young ones in animal experiments
–Some infections are more prevalent in younger
children, incidence comes down with onset of puberty
•Tineacapitis infection
•Gonococcal infection
Factors affecting innate
immunity
•AGE
•Few diseases present aggressively in adulthood
–Poliomyelitis
–Chicken pox
•Older people develop infections due to waning
immunity
immunity
•AGE
•Few diseases present aggressively in adulthood
–Poliomyelitis
–Chicken pox
•Older people develop infections due to waning
immunity
Factors affecting innate
immunity
•HORMONES
–Diabetes mellitus
–Hypothyroidism
–Adrenal dysfunction
•Corticosteroids :
–Anti-inflammatory, Antiphagocytic.
–Suppress antibody formation & Hypersensitivity
•Pregnancy : High steroid state
•Stress : Release of steroid hormones
immunity
•HORMONES
–Diabetes mellitus
–Hypothyroidism
–Adrenal dysfunction
•Corticosteroids :
–Anti-inflammatory, Antiphagocytic.
–Suppress antibody formation & Hypersensitivity
•Pregnancy : High steroid state
•Stress : Release of steroid hormones
Factors affecting innate
immunity
•NUTRITION
•Complex mechanism
•Reduces both cell mediated and humoral
immunity
•Conversely
–Famine struck patients with Malaria do not
develop fever till nutrition improves
–Some viruses do not multiply in severely
malnourished.
immunity
•NUTRITION
•Complex mechanism
•Reduces both cell mediated and humoral
immunity
•Conversely
–Famine struck patients with Malaria do not
develop fever till nutrition improves
–Some viruses do not multiply in severely
malnourished.
Mechanisms of innate immunity
Epithelial surface: Mechanical barrier
Bactericidal activity
Sweat : High salt concentration
Sebaceous secretions
Long chain fatty acids
Mucosa: Respiratory tract
Architecture of nose
Mucus lining of epithelium
Swallow/Cough reflex
Cilia in respiratory tract
Secretions
Epithelial surface: Mechanical barrier
Bactericidal activity
Sweat : High salt concentration
Sebaceous secretions
Long chain fatty acids
Mucosa: Respiratory tract
Architecture of nose
Mucus lining of epithelium
Swallow/Cough reflex
Cilia in respiratory tract
Secretions
Mechanisms of innate immunity
Mouth
Saliva
Digestive juice
Acidity of stomach
Duonenumto ileum : progressively alkaline
Intesinalmucosa covered with lacelike network of mucus..
Conjunctiva
Flushing action of tears
Antibacterial : Lysozyme
Splits polysaccharide components of cell wall
Genitourinary system
Flushing action of urine
Antibacterial : Spermine, Zinc
Acidity of adult vagina : fermentation of glycogen in epithelial cells by
bacilli
Mouth
Saliva
Digestive juice
Acidity of stomach
Duonenumto ileum : progressively alkaline
Intesinalmucosa covered with lacelike network of mucus..
Conjunctiva
Flushing action of tears
Antibacterial : Lysozyme
Splits polysaccharide components of cell wall
Genitourinary system
Flushing action of urine
Antibacterial : Spermine, Zinc
Acidity of adult vagina : fermentation of glycogen in epithelial cells by
bacilli
Antibacterial substances in blood & tissues
Complement system
ß lysin
Leukinsfrom Leucocytes
Plakinsfrom Platelets
Lactic acid found in muscle, tissue & inflammatory
areas
Lactoperoxidasein milk
Interferons for killing viruses
Mechanisms of innate immunity
Complement system
ß lysin
Leukinsfrom Leucocytes
Plakinsfrom Platelets
Lactic acid found in muscle, tissue & inflammatory
areas
Lactoperoxidasein milk
Interferons for killing viruses
Mechanisms of innate immunity
Microbial antagonism
Resident microbial flora prevent colonization
by pathogens
Alteration of normal flora leads to
development of infections
Germ –free animals are extremely susceptible
to infections
Resident microbial flora prevent colonization
by pathogens
Alteration of normal flora leads to
development of infections
Germ –free animals are extremely susceptible
to infections
Cellular factors
•Phagocytosis
•Metchnikoff described phagocytes
PHAGOCYTES
MICROPHAGES
POLYMORPHO
NUCLEAR
LEUCOCYTES
MACROPHAGES
HISTIOCYTES
(WANDERING)
FIXED
RETICULOENDO
HELIAL CELLS
MONOCYTES
(BLOOD)
•Phagocytosis
•Metchnikoff described phagocytes
PHAGOCYTES
MICROPHAGES
POLYMORPHO
NUCLEAR
LEUCOCYTES
MACROPHAGES
HISTIOCYTES
(WANDERING)
FIXED
RETICULOENDO
HELIAL CELLS
MONOCYTES
(BLOOD)
Cellular factors
•Inflammation releases chemotacticsubstances.
•Chemotacticsubstances attract phagocytes in
large numbers
•Bacteria phagocytosedinto vacuole called
phagosome
•This phagosomefuses with lysosomes
phagolysosome
•Inflammation releases chemotacticsubstances.
•Chemotacticsubstances attract phagocytes in
large numbers
•Bacteria phagocytosedinto vacuole called
phagosome
•This phagosomefuses with lysosomes
phagolysosome
Cellular factors
•Bacteria destroyed by lyticenzymes
•Exception : some bacteria resist killing and
multiply actively inside the phagosomeEg.,
Brucella, Leprabacilli
•Natural Killer (NK) cells are specialized subset
of cells for defense against Viral infections and
tumors. NK cells are activated by interferons
•Bacteria destroyed by lyticenzymes
•Exception : some bacteria resist killing and
multiply actively inside the phagosomeEg.,
Brucella, Leprabacilli
•Natural Killer (NK) cells are specialized subset
of cells for defense against Viral infections and
tumors. NK cells are activated by interferons
Inflammation
•Tissue injury, Irritation, entry of Pathogen
•Important, Non specific Defense mechanism
•Vasocontrictionfollowed by vasodilatation
•Slowing of blood flow and marginationof
leucocytes
•Chemotacticsubstances attract more leucocytes
•Leucocytes reach the site via diapedisis
•Phagoytosis
•Out pouring of plasma dilutes toxic products
•Fibrin layer walls off the infected area
•Tissue injury, Irritation, entry of Pathogen
•Important, Non specific Defense mechanism
•Vasocontrictionfollowed by vasodilatation
•Slowing of blood flow and marginationof
leucocytes
•Chemotacticsubstances attract more leucocytes
•Leucocytes reach the site via diapedisis
•Phagoytosis
•Out pouring of plasma dilutes toxic products
•Fibrin layer walls off the infected area
Fever
•A natural defense mechanism
•Accelerates physiological processes
•Destroys infecting pathogen
•Fever therapy was followed for syphilis before
antibiotic era
•Fever stimulates production of interferon , hence
helping in recovery from viral infections
•A natural defense mechanism
•Accelerates physiological processes
•Destroys infecting pathogen
•Fever therapy was followed for syphilis before
antibiotic era
•Fever stimulates production of interferon , hence
helping in recovery from viral infections
Acute phase proteins
•Infection / Injury leads to increase in plasma
concentration of certain proteins Acute phase
proteins
•C-reactive protein (CRP)
•Mannose binding protein
•Alpha –1 –acid glycoprotein
•Serum amyloidP component
•Activate the alternative complement pathway
•Enhance hose resistance
•Prevent tissue injury
•Promote repair of inflammatory lesions
•Infection / Injury leads to increase in plasma
concentration of certain proteins Acute phase
proteins
•C-reactive protein (CRP)
•Mannose binding protein
•Alpha –1 –acid glycoprotein
•Serum amyloidP component
•Activate the alternative complement pathway
•Enhance hose resistance
•Prevent tissue injury
•Promote repair of inflammatory lesions
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