WORLD OF MICROBIOLOGY AND IMMUNOLOGY Reproductive immunology
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REPLICA PLATING•seeLABORATORY TECHNIQUES IN
MICROBIOLOGY
RReproductive immunologyEPRODUCTIVE IMMUNOLOGY
Pregnant women experience many physiological changes
before implantation of the early embryo (blastocyst) takes
place. Ovulation, copulation, and fertilization directly or indi-
rectly induce dramatic changes in uterine physiology that
resemble classical inflammationat the mucosal surfaces of the
female reproductive tract, and it is quite likely that these
changes impact the maternal immune systemwell before the
blastocyst implants in the uterus. Consequently, the outcome
of the immune response differs during pregnancy, when com-
pared to outcomes in nonpregnant women. Thus, the uterus
may be preconditioned to accept the blastocyst.
Blastocyst implantation is a crucial point in the process
of reproduction because it is the moment of highest sponta-
neous embryo loss for humans. It is characterized by the inva-
sion of trophoblastic cells in the maternal decidua, a mucosal
tissue derived from the endometrium. Antigenically, the fetus
and placenta have half of the histocompatibilitygenes because
of the paternal origin of the conceptus. The reasons why the
fetus and placenta are accepted by the maternal immune sys-
tem are still largely unknown. It is, however, a harmonic equi-
librium among maternal cells of the immune system.
Originally, British immunologist Peter Medawar proposed
three broad hypotheses to explain the paradox of maternal
immunological tolerance to the fetus: (a) physical separation
of mother and fetus; (b) antigenic immaturity of the fetus; and
(c) immunologic inertness of the mother. At the present time,
several factors have been included in the mechanisms of fetal
protection: (1) general aspecific immunosuppression due to
hormonal and proteic patterns of pregnancy, (2) reduced fetal
immunogenicity by alteration of expression of fetal MHCanti-
gens by placental trophoblast cells, (3) IgG production toward
paternal lymphocyte antigens and toward maternal lympho-
cytes (blocking antibodies), also called trophoblast-lympho-
cyte cross-reactive antigens (TLX) for their cross reactivity
with antigens of the trophoblast. These blocking antibodies
could bind and protect fetal antigens from maternal lympho-
cytes, and (4) modification of the cellular mediated response
driven by cytokines. Cytokines are produced in the feto-pla-
cental unit and have a positive activity on the development of
pregnancy.
Spontaneous human fetal loss is a significant clinical
problem. Studies on recurrent spontaneous abortion syn-
dromes are dominated by suggestions of immunologic causa-
tion. This evidence includes genetic (epidemiological)
analyses, anatomical, physiological, and evidence for cytokine
dysregulation linked to inappropriate activation of the innate
and adaptive immune systems during human pregnancy.
However, it is difficult to discriminate whether abnormalities
of pregnancies are causes or effects of immune dysfunction.
Autoimmunityis defined as the pathologic condition
where humoral or cellular immune response is also directed
against self-antigens, leading to severe and debilitating clini-
cal conditions. Systemic autoimmune conditions such as
systemic lupus erythematosus (SLE) are associated with
higher risk for pregnancy loss. In the general population,
about 15% of clinical pregnancies are spontaneously aborted,
and about 50% of fertilized eggs fail implantation as a blasto-
cyst. The higher rate of fetal loss in women with SLE occurs
in association with antiphospholipid antibodies (aPL), which
are also associated with miscarriage in otherwise healthy
women. Clinical relevance is also given to lupus anticoagulant
(LAC), anticardiolipin antibodies (aCL), and antinuclear anti-
bodies (ANA). These are associated with several medical con-
ditions the description of which is beyond the aim of this
article.
Association of LAC with recurrent miscarriage has been
described in the past twenty years. The lupus anticoagulant
test (LAC) is a clotting time test used to detect women’s anti-
bodies against components of the blood clotting system, such
as negatively charged phospholipidsor prothrombin. These
antibodies cause a prolongation in the clotting time.The aCL
test measures 3 different species of antibodies to the phospho-
lipid cardiolipin. This test is essentially an antiphospholipid
antibodytest, with all features similar to those of the aPL.
ANA are antibodies against one or more elements within a
biological cell, involved in the machinery of translating
genomic message into proteins. These antibodies can destroy
cells, and their effect usually leads to SLE.
When the immune system is the cause of miscarriage,
the mother has a 30% chance of having a successful pregnancy
without intervention after three miscarriages, a 25% chance
after four miscarriages, and a 5% chance after five miscar-
riages. More epidemiological studies report a 90% chance of
failure in untreated patients, whereas, in the presence of aPL,
a 70% chance of reproductive failure was reported. Prevalence
of LA in women with recurrent miscarriage has been quoted in
a range between five and fifteen percent of fetal loss.
Pathogenesis of fetal loss in the presence of aPL includes the
presence of extensive infarction and necrosis in the placenta
due the recurrent thrombosis of the placental vascular bed. In
particular, intraluminal thromboses of the uterine spiral arter-
ies and necrotizing decidual vasculopathy, histologically char-
acterized by fibrinoid necrosis, atherosis, and intimal
thickening have been observed.
Among immune system causes of miscarriage are the
inability to properly detect fetal antigens and the lack of pro-
ducing blocking antibodies. Another cause is maternal pro-
duction of anti-sperm antibodies (IgG and IgA).
Endometriosis is a disease in which abnormal endome-
trial tissue grows in the abdomen and other places in the body.
It causes internal bleeding, inflammation, scarring, severe pain,
fatigue, and sometimes infertility. Endometriosis is related to
the functional deficit of NK cells and cytoplasmic granules of
cytotoxic lymphocytes (CTL) that allow the development of
autoantibodies. In premature ovarian failure, autoantibodies
against ovarian tissue and against gonadothropin receptors
have been found. Oocyte reduction has been detected in
women affected with premature ovarian failure.
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