Microbiology and Immunology

(Axel Boer) #1
WORLD OF MICROBIOLOGY AND IMMUNOLOGY Infection and resistance

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large enough numbers, can germinate and cause severe illness
and even death.
To establish an infection, microbes must defeat two lines
of defense of the body. The first line of defense is at body sur-
faces that act as a barrier guard the boundaries between the body
and the outside world. These barriers include the skin, mucous
membranes in the nose and throat, and tiny hairs in the nose that
act to physically block invading organisms. Organisms can be
washed away from body surfaces by tears, bleeding, and sweat-
ing. These are non-specific mechanisms of resistance.
The body’s second line of defense involves the specific
mechanisms of the immune system, a coordinated response
involving a variety of cells and protein antibodies, whereby an
invading microorganism is recognized and destroyed. The
immune system can be strengthened by vaccination, which
supplies or stimulates the creation of antibodies to an organ-
ism that the body has not yet encountered.
An increasing cause of bacterial infectionis the ability
of the bacteria to resist the killing action of antibiotics. Within
the past decade, the problem of antibiotic resistant bacteria has

become a significant clinical issue. Part of the reason for the
development of resistance has been the widespread and some-
times inappropriate use of antibiotics (e.g., use of antibiotics
for viral illness because antibiotics are not effective against
viruses).
Resistance can have molecular origins. The mem-
brane(s) of the bacteria may become altered to make entry of
the antibacterial compound more difficult. Also, enzymescan
be made that will destroy or inactivate the antibacterial agent.
These resistance mechanisms can be passed on to subsequent
generations of bacteria that will then be able to survive in
increasing numbers.
Bacteria can also acquire resistance to antibiotics and
other antibacterial agents, even components of the immune
system, by growing on body surfaces, passages, and tissues. In
this mode of growth, termed a biofilm, the bacteria are
enmeshed in a sticky polymer produced by the cells. The poly-
mer and the slow, almost dormant, growth rate of the bacteria
protect them from antibacterial compounds that would other-
wise kill them, and can encourage the bacteria to become

A group of people with leprosy in the Middle East.

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