WORLD OF MICROBIOLOGY AND IMMUNOLOGY History of immunology271•
causes the air passages to become constricted rather than
dilated. This response occurs in an attempt to keep the offend-
ing allergenic particles from being inhaled. Unfortunately, this
also makes breathing difficult. An example of such an effect of
histamine occurs in asthma.
Histamine has also been shown to function as a neuro-
transmitter (a chemical that facilitates the transmission of
impulses from one neural cell to an adjacent neural cell).
In cases of an extreme allergic reaction, adrenaline is
administered to eliminate histamine from the body. For minor
allergic reactions, symptoms can sometimes be lessened by
the use of antihistamines that block the binding of histamine
to a receptor molecule.See alsoImmune systemHHistocompatibilityISTOCOMPATIBILITY
Histocompatibility refers to the means by which a eukaryotic
cell can be identified. The phenomenon is the result of the
presence of proteins on the surface of cells. These proteins are
referred to as histocompatibility molecules. The histocompat-
ibility molecules on the cells of one individual of a species are
unique. Thus, if the cell is transplanted into another person,
the cell will be recognized by the immune systemas being for-
eign. The histocompatibility molecules act as an antigen in the
recipient, and so can also be called a histocompatibility anti-
gen or transplantation antigen. This is the basis of the rejection
of transplanted material.
Identical twins have the same histocompatibility mole-
cules on their cells. Thus, tissue can be successfully trans-
planted from one individual to the other, because the tissue
will essentially not be foreign. However, for unrelated indi-
viduals, cells will have their own signature chemistry with
respect to the histocompatibility molecules. Tissue from one
individual will be recognized as foreign in another individual.
The suite of histocompatibility molecules present on the
surface of a cell is also referred to as the histocompatibility
complex. There are two classes of these molecules. The first
class is called class I molecules. These molecules are made up
of a portion that is embedded in the cell membrane and a por-
tion that protrudes out from the membrane’s outer surface. The
protruding portion is composed of both protein and sugar (car-
bohydrate). Some of the human leukocyte antigens are exam-
ples of class I molecules.
The class I molecules function to chemically tag a cell
so that the cell will be recognized and categorized by the T
lymphocyte cells of the immune system. The T cell will rec-
ognize a region of the histocompatibility complex as “self.”
Because of this recognition, there will not be an immune
response initiated against the cell. But, in another host, where
the same region is chemically different from class I groups on
the host cells, the introduced cells would be recognized as for-
eign by the T lymphocytes.
Another class of histocompatibility molecules called
class II are anchored into the cell membrane by have two seg-
ments of the molecule. At the outer surface of the cell the mol-ecule contains an antigen that has been acquired from the sur-
rounding environment when particles were taken in and
degraded by host processes. This is called antigen presentation.
Class II molecules are on the surface of macrophages
and B-lymphocytes. These immune cells function to process
cells and present the antigens from these cells to T lympho-
cytes. This is done to increase the repertoire of antibodies that
an organism possesses. Antigen presentation of histocompati-
bility molecules “primes” the immune system. When an
invading organism is detected, the immune response can occur
much more swiftly than if no exposure to the antigen had ever
occurred.
The role of the histocompatibility complexes in immune
recognition of “self ” and “non-self” is the reason why trans-
plants are typically accompanied by the administration of drugs
that dampen down the immune response of the host. Only by
nullifying the host recognition of the class I and class II histo-
compatibility complexes can the transplant be maintained.
The genes that encode the histocompatibility determi-
nants are clustered together on the chromosome. These clus-
ters are referred to as the major and minor histocompatibility
complexes. The major compatibility genes are clustered
together on one chromosome. The minor compatibility genes
are located in several clusters throughout the genome.
Studies on mice, which also possess the histocompati-
bility complexes, have demonstrated that these complexes not
only play a role in transplant rejection, but also function in the
immune response to a variety of diseases. Mice that are genet-
ically different for a given histocompatibility complex will
respond differently to the same antigen. If a “non-self” histo-
compatibility complex is poorly recognized by the host
immune system, then an inadequate immune response will
ensue. The result can be the establishment of an infection.See also Antibody and antigen; Immune system; Immu-
nodeficiency diseases; Major histocompatibility complex
(MHC)HHistory of immunologyISTORY OF IMMUNOLOGY
In Western society, it was not until the late eighteenth century
that a rational approach to the origin of disease developed.
Prior to the discovery that disease was the result of pathogenic
organisms, it was commonly accepted that disease was a pun-
ishment from God (or the Gods), or even a witches curse.
Eastern cultures perceived disease as an imbalance in the
energy channels within the body. Later, the great plagues of
Europe were assumed the result of virulent or noxious vapors.
Nevertheless, there were intimations as early as 430 B.C. that
if one survived a disease, the person thereafter became
“immune” to any subsequent exposures. However, this was
never recognized as evidence of some type of internal defense
system until the later part of the seventeenth century.
Although most historical accounts credit Edward Jenner
for the development of the first immunizationprocess, a pre-
vious similar procedure had become established in China by- The technique was called variolation. This was derived
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