Microbiology and Immunology

(Axel Boer) #1
WORLD OF MICROBIOLOGY AND IMMUNOLOGY Immunity: active, passive, and delayed

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The type of immunity invoked by the active response
tends to be permanent. Once the antibody has been produced, an
individual will be protected against the presence of the target
antigen for a lifetime. The immune system has a capacity for
memory of the antigen. If presented with the antigen challenge
again, the immune machinery responsible for the formation of
the corresponding antibody is rapidly triggered into action.
An example of active immunity is the injection into
healthy individuals of the disabled toxins of bacteriasuch as
Corynebacterium diphtheriae, the agent causing diphtheria,
and Clostridium tetani, the agent that causes tetanus. This
rational was first proposed by Paul Ehrlich. In 1927, Gaston
Ramon attempted his suggestion. He separately injected inac-
tivated version of the bacterial toxins and was able to demon-
strate an immune response to both toxins. This rationale has
carried forward to the present day. A combination vaccine con-
taining both inactivated toxins is a routine inoculation in
childhood.
Another historical development associated with active
immunity involved Louis Pasteur. In 1884, Pasteur used
weakened cultures of Bacillus anthracis, the causative agent
of anthrax, and inactivated sample from the spinal cords of

rabbits infected with the rabiesvirus to produce immunity to
anthrax and rabies. Pasteur’s method spurred the development
of other active immune protective vaccines. Just one example
is the oral poliomyelitisvaccine developed by Albert Sabinin
the 1950s.
Passive immunity also results in the presence of anti-
body. However, the particular individual does not produce the
antibody. Rather, the antibody, which has been produced in
someone else, is introduced to the recipient. An example is
the transfer of antibodies from a mother to her unborn child
in the womb. Such antibodies confer some immune protection
to the child in the first six months following birth. Indeed, the
transient nature of the protection is a hallmark of passive
immunity. Protection fades over the course of weeks or a few
months following the introduction of the particular antibody.
For example, a newborn carries protective maternal antibod-
ies to several diseases, including measles, mumps and
rubella. But by the end of the individual’s first year of life,
vaccinationwith the MMR vaccine is necessary to maintain
the protection.
Another example of passive immunizationis the admin-
istration to humans of tetanus antitoxin that is produced in a

Vaccination against hepatitis.

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