Microbiology and Immunology

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Immune stimulation, as a vaccine WORLD OF MICROBIOLOGY AND IMMUNOLOGY

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test methods are not yet uniformly standardized across the
medical community. But, if the results from several tests are
positive for immune complexes, the validity of the diagnosis
is ensured.
Immune complex tests include the Raji cell, C1q bind-
ing, conglutinin, and anti-C3 assays. The Raji cell assay, for
example, detects the immune complexes following the binding
of the complexes with an immune molecule called comple-
ment. In addition, the complement has been labeled with a
compound known as fluorescein isothiocyanate. The latter
compound is able to fluoresce when light of a certain wave-
length is shone on it. The detection occurs in a machine called
a flow cytometer, in which fluid moves past a detector that is
programmed to detect certain chemical aspects. In the Raji cell
assay, detection of the fluorescent isothiocyanate indicates the
presence of the immune complex.
A normal result in an immune complex test is a negative
result. In other words, immune complexes are normally
absent.

See alsoAntibody-antigen, biochemical and molecular reac-
tions; Laboratory techniques in immunology

IImmune stimulation, as a vaccineMMUNE STIMULATION, AS A VACCINE

Immune stimulation refers to the stimulation of the immune
systemby an external source. The stimulation can confer a
protective effect against microorganisms. As well, immune
stimulation shows promise as a means of obtaining an immune
response to conditions such as cancer.
Conventionally, the immune system is stimulated into
producing antibodies or other infection-fighting constituents
in response to an infection. Immune stimulation seeks to elicit
the immune reaction before infection or other malady strikes,
as a means of preventing the infection or malady. This
approach is analogous to the administration of components of
weakened or inactive influenzavirus to protect people from
the subsequent onset of influenza.
The roots of the use of immune stimulation as a vaccine
date back to the late nineteenth century. Then, William Coley,
a New York bone surgeon, began treatments in which he
injected cancer sufferers with a preparation consisting of dis-
solved Streptococcus pyogenesbacteria. Anecdotal evidence
claimed remission of tumor growth in 40% of the treated
patients. Then, in the 1980s, it was discovered that the
observed anti-tumor activity of a bacteria known as Bacillus
Calmette-Guerinwas a property of the construction of the
bacterial genetic material. Indeed, the bacterial genetic mate-
rial is able to stimulate the immune system such that the target
sequence of the bacterial geneis distinguished from the host
genetic material. The resulting immune stimulation boosts
antibodylevels as well as another aspect of the immune sys-
tem known as cell-mediated immunity.
Synthetic peptides have also proved useful as agents of
immune stimulation. These compounds are made up of chains
of amino acids. They are called synthetic because they are not
naturally occurring, but rather are constructed in the labora-

tory. The peptide can contain amino acids in which a chemical
group is oriented in a mirror image of that which is normally
found in nature.
The mirror image arrangement proves lethal to various
bacteria. For example, synthetic peptides swiftly kill popula-
tions of Staphylococcus aureusand Enterococcus faeciumthat
are resistant to an array of antibiotics. The peptide binds to the
outer surface of the bacterium and is able to punch a hole
through the cell wall. The punctured bacteria die.
Furthermore, as the bacteria release their contents, the
immune system is stimulated to produce antibodies to the bac-
terial constituents. The synthetic peptide both kills bacteria
directly and stimulates an immune response that acts to kill
more bacteria.
Thus far, immune stimulation as a vaccine has been
developed towards so-called extracellular infections. These
are infection caused by bacteria that adhere to host cells or that
proliferate in fluids such as blood. For these types of infec-
tions, the immune stimulation aims to produce antibodies.
Defense against intracellular infections, which are caused by
bacteria invading host cells, requires the stimulation of other
immune components, such as phagocytic cells. Furthermore,
defense against viral infections requires stimulation of
immune components called killer cells.
Synthetic peptides can also stimulate the immune sys-
tem to recognize a surface constituent of a certain type of can-
cer cell called a melanoma cell. Melanoma is also commonly
referred to as skin cancer. The synthetic peptide can mimic the
peptide produced on a tumor that the immune system can rec-
ognize and respond to. By supplying the target externally, the
immune system has more opportunity to mount a defense
against the offending peptide. The resulting antibody mole-
cules would target the peptide on the tumor cells.
While shrinkage of tumors was evident in laboratories
studies, confirmation of the clinical power of the technique
requires a clinical trial where many people are given the treat-
ment and their progress monitored. Nonetheless, it has been
demonstrated that synthetic peptides are capable of stimulat-
ing the ability of the immune system to distinguish between
antigens that are an innate part of the body from those antigen
that come from outside of the body. In the case of many can-
cers, such immune stimulation is required, as the disease can
compromise the natural immune defenses.

See alsoImmunization; Immunologic therapies

IImmune synapseMMUNE SYNAPSE

Before they can help other immune cells respond to a foreign
protein or pathogenic organism, helper T cellsmust first
become activated. This process occurs when an antigen-pre-
senting cell submits a fragment of a foreign protein, bound to
a Class II MHCmolecule (virus-derived fragments are bound
to Class I MHC molecules) to the helper T cell. Antigen-pre-
senting cells are derived from bone marrow, and include both
dendritic cells and Langerhans cells, as well as other special-
ized cells. Because T cell responses depend upon direct con-

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