Transcript Immunity

Immunity
Body Defenses
• First line - barriers
• Skin and mucous membranes
• Flushing action
– Antimicrobial substances
• Lysozyme, acids, salts, normal
microbiota
• Second line – inflammation & fever
• Both of these are non-specific
• Third line – immune response
1.Specific
2.Memory
3.Inducibility
•Antigens - substances recognized as “nonself” These can be:
•Infectious agents - bacteria, viruses,
fungi or parasites
•Noninfectious substances –
•Environmental - pollen, foods, bee
venoms
•Drugs, vaccines, transfusions and
transplanted tissues
Antigen
Antibody Generator
The best antigens are:
1. large
2. recognized as foreign
3. complex
proteins and complex carbohydrates –
good
nucleic acids and lipids – not good
Haptens – too small by themselves, piggyback on larger molecules, us. Proteins
Epitopes – regions of large molecules
recognized by the immune system
Two cell types give us the immune response;
both are lymphocytes, which are a type of
leukocyte, or white blood cell.
B lymphocytes or B cells
T lymphocytes or T cells
The cells of the immune response differ from
the cells of the inflammatory response in three
ways:
1. They are SPECIFIC and each cell
recognizes only one specific antigen.
B cells produce antibodies
T cells attack antigen directly
2. Both produce groups of cells called
“memory cells” that act quickly the
second time the antigen is encountered.
3. An antigen induces an immune
response. Only small amounts of
antibodies or T Cells are present before
encountering an antigen.
Long lasting protection against a specific
antigen is immunity.
Natural immunity:
Not produced by the immune response
Species specific
Acquired immunity
Active – person produces immunity
natural
artificial
Passive – temporary immunity is given
natural
artificial
Lymphocytes
Originate :
in liver, spleen and bone marrow of fetus
in bone marrow after birth
From stem cells – hemocytoblasts – that
produce all blood cells.
To become mature, immunocompetent cells,
they must pass through lymphoid tissues in
other parts of the body.
As they do so, they become committed to
becoming either T cells or B cells
Cells that migrate through the bone marrow
become B cells, and will produce antigens and
participate in humoral immunity.
Cells that migrate through the thymus
glands become T cells and participate in
Cell-mediated immunity
Humoral Immunity
Humoral immune response : B cells that
produce antibodies.
Antibodies are proteins that match the
molecular structure of an antigen, and bind to
that antigen. This leads to the destruction of
the antigen.
Antibody
B cells mature in the human bursal equivalent –
in bone marrow – and obtain the ability to bind
antigens and produce antibodies.
Clonal selection theory:
During fetal development, B cells are produced
which can bind with any potential antigen. Each
B cell binds only one antigen.
When antigen binds to antibody receptors on
the surface of the B cell, the B cell divides
and differentiates into antibody producing
plasma cells and also memory cells.
Immunoglobulins
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IgG - monomer
IgA – dimer – 2 units - in secretions
IgM – pentamer – 5 units
IgD – monomer – on surface of B cells
IgE – monomer – involved in
hypersensitivities
Cell-mediated immunity
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Produced through Tcytoxic or Tc Cells (T8 cell)
DO NOT produce antibodies
Attack invaders directly
May produce toxic chemicals – such as
perforins
• May stimulate cell’s self-destruct mechanism
Primary and Secondary Immune
Responses
• Primary response
– Latent period
– IgM produced
– IgG produced later
•Secondary response
•Anamnestic response –much more rapid
due to memory cells
•Primarily IgG
Cellular Interactions in the Immune
Response
• Few antigens can activate B cells all by
themselves
• For activation of B cells and Tc Cells need
a second signal – cytokine ( “cell
mover”)
Antigen-Presenting cells (macrophages)
place antigen on their cell surface in
combination with the MHC II complex
Antigen is presented to a specific helper T
cell that has receptors that match the
antigen – MHC II complex
After binding, the APC produces Interleukin
-1 (IL-1) which stimulates the TH Cell to
produce IL-2 and/or IL-4
Interleukin-2 has an autocrine function,
causes TH Cell to clone itself, and make
more IL-2 and /or IL-4
Helper T cells
• TH1 cells produce IL -2 and influence cellmediated immunity
• TH2 cells produce IL -4 (and other IL’s) and
influence antibody-mediated (humoral)
immunity
When B cell comes in contact with the
antigen and IL-4, the B cell produces plasma
cells and memory cells
Tc Cells come in contact with the antigen on
the surface of infected cells in combination
with the MHC 1 complex. When also have
binding with IL-2, cells produce activated Tc
Cells and memory cells.