Microbiology and Immunology

(Axel Boer) #1
WORLD OF MICROBIOLOGY AND IMMUNOLOGY Immunization

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they originate in the bone marrow. The humoral immune
response helps in the control and removal of pathogens such
as bacteria, viruses, fungi, and parasitesbefore they enter host
cells. The antibodies produced by the B cellsare the mediators
of this response.
The antibodies form a family of plasma proteins
referred to as immunoglobulins. They perform two major
functions. One function of an antibodyis to bind specifically
to the molecules of the foreign agent that triggered the
immune response. A second antibody function is to attract
other cells and molecules to destroy the pathogen after the
antibody molecule is bound to it.
When a foreign agent enters the body, it is engulfed by
the antigen-presenting cells, or the B cells. The B cell that has
a receptor (surface immunoglobulin) on its membrane that
corresponds to the shape of the antigenbinds to it and engulfs
it. Within the B cell, the antigen-antibody pair is partially
digested, bound to a special class of proteins called MHC-II,
and then displayed on the surface of the B cell. The helper T
cellsrecognize the pathogen bound to the MHC-II protein as
foreign and becomes activated.
These stimulated T cells then release certain chemicals
known as cytokines(or lymphokines) that act upon the primed
B cells (B cells that have already seen the antigen). The B cells
are induced to proliferate and produce several identical cells
capable of producing the same antibody. The cytokines also
signal the B cells to mature into antibody producing cells. The
activated B cells first develop into lymphoblasts and then
become plasma cells, which are essentially antibody produc-
ing factories. A subclass of B cells does not differentiate into
plasma cells. Instead, they become memory cells that are
capable of producing antibodies at a low rate. These cells
remain in the immune system for a long time, so that the body
can respond quickly if it encounters the same antigen again.
The antibody destroys the pathogen in three different
ways. In neutralization, the antibodies bind to the bacteria or
toxin and prevent it from binding and gaining entry to a host
cell. Neutralization leads to a second process called opsoniza-
tion. Once the antibody is bound to the pathogen, certain other
cells called macrophages engulf these cells and destroy them.
This process is called phagocytosis. Alternately, the
immunoglobulin IgM or IgG can bind to the surface of the
pathogen and activate a class of serum proteins called the
complement, which can cause lysis of the cells bearing that
particular antigen.
In the humoral immune response, each B cell produces
a distinct antibody molecule. There are over a million differ-
ent B lymphocytes in each individual, which are capable of
recognizing a corresponding million different antigens. Since
each antibody molecule is composed of two different proteins
(the light chain and the heavy chain), it can bind two different
antigens at the same time.

See alsoAntibody and antigen; Antibody-antigen, biochemi-
cal and molecular reactions; Antibody formation and kinetics;
Immune system; Immunity, active, passive and delayed;
Immunity, cell mediated

IImmunizationMMUNIZATION

When a foreign disease-causing agent (pathogen) enters the
body, a protective system known as the immune systemcomes
into play. This system consists of a complex network of organs
and cells that can recognize the pathogen and mount an
immune response against it.
Any substance capable of generating an immune
response is called an antigenor an immunogen. Antigens are
not the foreign bacteriaor virusesthemselves; they are sub-
stances such as toxins or enzymesthat are produced by the
microorganism. In a typical immune response, certain cells
known as the antigen-presenting cells trap the antigen and
present it to the immune cells (lymphocytes). The lympho-
cytes that have receptors specific for that antigen binds to it.
The process of binding to the antigen activates the lympho-
cytes and they secrete a variety of cytokinesthat promotes the
growth and maturation of other immune cells such as cyto-
toxic T lymphocytes. The cytokines also act on B cellsstimu-
lating them to divide and transform into antibodysecreting
cells. The foreign agent is then either killed by the cytotoxic T
cellsor neutralized by the antibodies.
The process of inducing an immune response is called
immunization. It may be either natural, i.e., acquired after
infection by a pathogen, or, the immunitymay be artificially
acquired with serum or vaccines.
In order to make vaccines for immunization, the organ-
ism, or the poisonous toxins of the microorganism that can
cause diseases, are weakened or killed. These vaccines are
injected into the body or are taken orally. The body reacts to
the presence of the vaccine(foreign agent) by making anti-
bodies. This is known as active immunity. The antibodies
accumulate and stay in the system for a very long time, some-
times for a lifetime. When antibodies from an actively immu-
nized individual are transferred to a second non-immune
subject, it is referred to as passive immunity. Active immunity
is longer lasting than passive immunity because the memory
cells remain in the body for an extended time period.
Immunizations are the most powerful and cost-effective
way to prevent infectious disease in children. Because they
have received antibodies from their mother’s blood, babies are
immune to many diseases when they are born. However, this
immunity wanes during the first year of life. Immunization
programs, therefore, are begun during the first year of life.
Each year in the United States, thousands of adults die
needlessly from vaccine-preventable diseases or their compli-
cations. Eight childhood diseases (measles, mumps, rubella,
diphtheria, tetanus, pertussis, Hemophilus influenzaetype b,
and polio) are preventable by immunization. With the excep-
tion of tetanus, all the other diseases are contagious and could
spread rapidly, resulting in epidemicsin an unvaccinated pop-
ulation. Hence, vaccinations are among the safest and most
cost-efficient public healthmeasures. Vaccinations against flu
(influenza), hepatitisA, and pneumococcal disease are also
recommended for some adolescents and adults. The vaccines
indicated for adults will vary depending on lifestyle factors,
occupation, chronic medical conditions and travel plans.

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