adaptive immunology i (1)
DESCRIPTION
very good slides for adaptive immunologyTRANSCRIPT
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Adaptive Immunology & Microbial Pathogenesis (I)
Biology 20
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Case study:
• A patient presents with: – a recurring fever of 104◦F , – a debilitating headache, and – symptoms of gastroenteritis – Her symptoms have gotten worse over the past
several weeks.
• Suspecting a systemic infection might be a possibility, her physician orders a blood culture. The culture turns out to be positive for Gram negative bacilli.
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Case study:
• A patient presents with: – a recurring fever of 104◦F , – a debilitating headache, and – symptoms of gastroenteritis – Her symptoms have gotten worse over the past
several weeks.
• Suspecting a systemic infection might be a possibility, her physician orders a blood culture. The culture turns out to be positive for Gram negative bacilli.
What test could be used to determine which kind of Gram negative bacilli is causing the infection?
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Learning Objectives (I):
• Dual nature of the adaptive immune response – Humoral vs cell mediated immunity
• B cells and Antibodies – antigens
– VDJ recombination
– B cell activation
– Clonal expansion
• Antibody Activities – Agglutination, opsinization, neutralization,
interference with adherence, ADCC
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Immunity
Dual nature of the adaptive immune response:
1) Humoral immunity 2) Cell-mediated immunity
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Distinguishing ‘self’ from ‘non-self’
Microbe ?
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Distinguishing ‘self’ from ‘non-self’
Pathogen-associated microbial patterns PAMPs
Innate immune response: • TLRs
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Distinguishing ‘self’ from ‘non-self’
Pathogen-associated microbial patterns PAMPs
Antigens: unique proteins or polysaccharides
• Extracellular • Intracellular
Innate immune response: • TLRs
Antibodies made by activated
B cells
Humoral immunity
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Adaptive immune cells: B lymphocytes
• B cells arise from hematopoietic stem cells in the bone marrow. – They undergo positive and negative
selection.
• ~ 10% of blood lymphocytes are B cells.
• B cells express B cell receptors.
• Plasma cells are specialized B cells that secrete antibodies.
• Antibodies are secreted B cell receptors. – Antibodies bind antigens.
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B cells…
Many different B cells: • Expression of unique
B cell receptors • Recognition of unique
antigens
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B cells & Adaptive Immunity
• The quality of the adaptive immune response (i.e., how well it defends against disease) is dependent on the quantity of antigen-specific cells (e.g., the frequency of unique B cell populations). – Analogy: Hide&Seek
1 hider and 1 seeker vs 1 hider and 100 seekers.
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B cells & Adaptive Immunity…
Before infection During infection
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Antigens Antigen: a substance (e.g., foreign protein) that stimulates an immune response and/or binds to antibodies.
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E. coli O157:H7
• Gram-negative bacilli O157 refers to the particular structure of the O polysaccharide antigen
• H7 refers to type of flagellin antigen
Foodborne, gram neg, causes severe, acute hemorrhagic diarrhea
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B cell receptor (BCR):
B cell Plasma membrane
Variable region (VDJ)
Constant region μ
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Antibodies (Ab) aka immunoglobulins (Ig)
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Antibody Gene Structure: V D J C
(hundreds of different
V genes) VDJ recombination
transcription
mRNA
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B cell differentiation
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Activation of B Cells
• First step required for B cell activation: antigen binding
• Second step: cytokine signaling
– T-dependent antigens.
– IL-4 is necessary for initial B cell proliferation.
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Clonal Expansion
Memory Cells
Clonal Plasma Cells
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Antibody Classes
Monomer
Dimer
Pentamer
IgD, IgE, IgG
IgA
IgM
Antibody Class Switching: different usage of Fc genes
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Antibody Classes…
IgA IgM IgD IgE IgG
First Ab made in response to infection. Opsonization, phagocytosis, complement activation, agglutination of microbes.
80% of serum Abs (20d ½ life)
Opsonization, phagocytosis, complement activation, agglutination of microbes.
neutralizes toxins and viruses
Only Ab that crosses placenta
Binds to allergens and triggers histamine release from mast cells and basophils. Protects against parasitic worms. ADCC
Monomer or dimer
Found in mucosal areas such as the gut, and respiratory and urogenital tracts.
Found in saliva, tears, and breast milk.
Helps protect infants.
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Major Functions of Antibodies
• Specific recognition of self and non-self molecules – Autoantibodies can cause autoimmune disorders (lupus
erythematosus, Grave's disease)
• Opsonization – Promotes phagocytosis
– Complement activation
– Interferes with adherence
• Antibody-dependent cellular cytotoxicity (ADCC)
• Neutralization of toxins and pathogens
• Agglutination
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Opsonization
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Antibody-dependent cellular cytotoxicity (ADCC)
• Killing of infected cells by antibody-triggered mechanism.
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Classical Pathway of Complement
Activation
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Toxin Neutralization
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Agglutination
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Case study:
• Considering the patient’s signs and symptoms and the presence of Gram-negative bacilli in the blood culture, the physician asks whether the patient has recently been to an area where typhoid fever is endemic. The patient’s answer is yes.
• The physician hypothesizes that the patient is ill with typhoid fever, and the Gram-negative bacilli are Salmonella typhi. How can the physician test this hypothesis? S. typhi produces a protein called invasin
that allows it to enter non-phagocytes.
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Agglutination assay:
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Agglutination assay:
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Summary (I)
• Dual nature of the adaptive immune response – Humoral vs cell mediated immunity
• B cells and Antibodies – antigens
– VDJ recombination
– B cell activation
– Clonal expansion
• Antibody Activities – Agglutination, opsinization, neutralization,
interference with adherence, ADCC