Transcript antigen
The Role of Membrane
Proteins in…
IMMUNITY
What is an antigen?
An ANTIGEN is anything
that stimulates the
production of antibodies
by the immune system.
Antigens are nametags on the outside of cells.
So… what type of membrane protein are they?
Many substances can be
antigens or contain antigens.
Antigens can include…
• Pathogens – which are
disease causing organisms
such as viruses and bacteria
• Parts of pathogens
• Bacterial toxins
• Insect venom
• Pollen
• Transplanted tissue
• Incompatible red blood cells
White blood cells detect
invader antigens.
WHITE BLOOD CELLS (WBCs) are the main cells of the immune system.
These cells are very numerous; of the approximately 100 trillion cells in
your body, 2 trillion are white blood cells.
The two types essential to immunity are macrophages and lymphocytes.
Macrophages are the
first line of defense.
Macrophages have receptor
proteins on their membranes
that recognize a substance
that is non-self by its antigens.
A macrophage engulfs the
pathogen and displays the
pathogen’s antigens on its
cell membrane.
Lymphocytes are the
second line of defense.
Millions of different types of lymphocytes can
be made, each with unique receptors so that
they can recognize different antigens.
Macrophages stimulate
helper T cell lymphocytes.
A macrophage then binds to a helper T cell which causes the
release of a chemical called interleukin-1 (IL1)
This chemical activates more helper T cells which release a
second chemical called interleukin-2 (IL2)
T cells and infected body cells
are involved in the
cell-mediated immune response.
Interleukin-2 not only stimulates helper T cells to divide faster, it also
stimulates the production of cytotoxic T cells (killer T cells)
Killer T cells have receptor proteins that recognize infected body cells
by the foreign antigens on their surface
They kill the cell by poking a hole in the membrane. The infected
cell’s cytoplasm leaks out and the cell dies.
B cells and antibodies
are involved in the
antibody-mediated immune
response.
Interleukin-2 also stimulates B cells that
have complementary antibodies to the
antigen to divide.
B cells divide into
memory B cells and plasma cells.
Memory B cells are the body’s
long term protection against reinfection.
The second time you are
exposed to the pathogen, the
memory cells recognize it and
divide rapidly – producing
many more antibodies. This
eliminates the invader before it
can cause illness.
Plasma cells make antibodies.
Most of the B cells form plasma cells which are cells specialized to
make antibodies (up to 30,000 per second for 4-5 days!).
ANTIBODIES are
Y-shaped molecules that
bind to a specific antigen
inactivating it
Antibodies prevent the pathogen from entering cells and cause
the pathogens to clump so macrophages can engulf them thereby stopping the spread of infection
Vaccines imitate pathogens.
A VACCINE is a solution that contains dead or
weakened pathogens or material from a pathogen.
The antigens present in a vaccine will prompt the
body to produce antibodies and memory B cells that
will be available if the real pathogen enters the body.
Vaccination is a term derived from the Latin vacca
(cow) after the cowpox material used by Edward
Jenner in the first vaccination.