Preeclampsia Clinical Trial
Official title:
The Impact of Interleukin-10 in the Invasion Capacity and Immunoregulation During Pregnancy: the Implications of Pathogenesis of Pre-Eclampsia.
Preeclampsia is a severe complication of human pregnancy. It occurs in 4-5% of all
pregnancies and remains a leading cause of maternal and neonatal mortality and morbidity.
The pathophysiology of this syndrome is not fully understood. Two theories are proposed to
explain the development of preeclampsia: defective trophoblast invasion in the first
trimester, and poor maternal immunoregulation against the fetus. Pro-inflammatory cytokines
are induced in the second mechanism, with a subsequent generalized endothelial dysfunction
in the mother. Interleukin-10 (IL-10) plays a major role in this pathway.
According to recent literature, debates still exist on the role of IL-10 in the pathogenesis
of preeclampsia. IL-10 may increase immunoregulation (seemingly against the development of
preeclampsia), but also prohibit the extravillous trophoblast invasion on the other hand
(seemingly towards the development of preeclampsia). According to recent authoritative
journals, the expression of IL-10 pre-eclamptic placenta is increased; but some other
influential journals have the totally contrary results. We believe this diverse exhibition
may be due to overlook the paracrine effect of decidual cells (representative of maternal
environment), and in vitro cultured condition does not parallel to physiological condition.
Our experiment has first obtained the qualification of Ethical Committee of our hospital and
the permission of the examined patients. We first collect the serum sample of preeclampsia
patient and analyze the IL-10 level by ELISA kit, and compared with normal control. Then we
isolate trophoblast from pre-eclamptic women and normal control. These trophoblasts are
further treated with (1) co-cultured with decidual cell line (2) Lipofectamine transfection
with IL-10 (overexpression of IL-10) (3) signal interference ribonucleotide (siRNA) of IL-10
(knockdown IL-10 function). Each groups (including trophoblast alone from patients or normal
control) were subjected to the analysis of IL-10 mRNA amount by RT-PCR. Further experiments
for these treated trophoblast are transwell migration assay and invasion assay, matrix
metalloproteinase assay to determine the change of invasive capacity; and Fas ligand
expression to determine the change of immunoregulation.
Our effort is not only to determine the role of IL-10 in the pathogenesis of preeclampsia,
but also the development of siRNA IL-10 may give a light in the treatment of preeclampsia.
1. Pregnancy, pre-eclampsia and immune regulation The preeclampsia syndrome, which is
characterized by changes in the placenta and uteroplacental vasculature, is a major
concern in impaired human pregnancy. Hypertension, proteinuria and exaggerated edema
are typical clinical symptoms1. Although the etiology of the disease is uncertain, it
is well established that a defect in placental trophoblast invasion during implantation
contributes to inadequate remodeling of uterine spiral arteries, thereby initiating
focal regions of reduced perfusion within the placenta2. It has been suggested that a
consequence of placental ischemia is the generation of cytotoxic factors that may act
systemically to activate or injure the endothelium3. The identity of the factors
elaborated by the placenta, which presumably compromise endothelial function during
preeclampsia, is unknown. Inflammatory cytokines, such as tumor necrosis factor-α
(TNF-α) and interleukin-1β (IL-1β), are known to be potent activators of the vascular
endothelium and have been proposed as mediators of endothelial dysfunction during
preeclampsia4.
It is well known that the acceptance of the fetoplacental unit in human pregnancy
requires maternal immune tolerance, which is thought to be regulated locally by the
placenta. Therefore an anti-inflammatory cytokine, such as interleukin-10 plays a
critical role in different pregnancy disorders, including preeclampsia5.
Placental interleukins have been identified in reproductive tissues, but their roles in
adaptive maternal immunity and determining term pregnancy outcomes have not been fully
clarified. The acceptance of the fetoplacental unit by the maternal uterine surface
requires an element of immunological tolerance. Local antiplacental immunity is
modified by synthesis of uncommon histocompatibility Ags, growth factors, and cytokines
by the placenta. The presence of immune cells in the decidual tissue of the uterus also
presents a potential barrier, both physical and immunological, to the development of
the placenta6. Some characteristics of the fetoplacental unit encourage endometrial and
myometrial invasion7 and others modify the immunological barrier (e.g. HLA-G)8. These
characteristics of placental function may be abnormal at the formative stages of
placental development, and thus the presumptive uterine barriers may be abnormal in
preeclampsia, a complication of human pregnancy related to shallow placental
development9.
2. Interleukin-10 Interleukin-10 was originally identified as the product of Th2-type T
lymphocytes that inhibits the synthesis of Th-1 type cytokines such as Interferon-gamma
and IL-210. IL-10 is known to be secreted by Th2-helper T cells, CD4+HT2 cells, and
some B cell lymphoma and mast cell lines. The protein undergoes post-translational
modification that includes N-glycosylation and the formation of critical cysteine
bonds. IL-10 inhibits cytokine synthesis in both T cells and NK cells by controlling
macrophage-monocyte accessory cells. IL-10 elicits responses in granulocytes,
eosinophils, mast cells, B cells, T cells and NK cells11. IL-10 is crucial in limiting
inflammatory responses in some disease states. The ability of IL-10 to inhibit
macrophage activation should allow investigation into "cross-talk" between stimulatory
and inhibitory cytokines. IL-10 is important in understanding autoimmunity and as a
target molecule in the development of anti-rejection therapies12. The Th-like responses
of this cytokine make it a suitable adjuvant for immunization development10.
Human and mouse IL-10 are 73% homologous at the amino acid level. Human IL-10 is active
in mouse cell lines, but human cell lines are not responsive to mouse IL-10.
3. Maintenance of pregnancy and interleukin-10 production Interleukin-10 (IL-10) is an
immunosuppressive cytokine expressed throughout pregnancy by epithelial cells and
leukocytes in the endometrium and placenta. The anti-inflammatory and immune deviating
properties of IL-10 are well characterized. Principally these are mediated through
inhibiting proliferation and pro-inflammatory cytokine synthesis in type 1 T helper
(Th1) cells, programming specific phenotypes in macrophages and dendritic cells and
stimulating natural killer (NK) cell activation.
IL-10 has been shown in normal placental cells (trophoblast cells) to suppress the
mixed lymphocyte responses in vitro13. Maternal bone marrow-derived cells in the
uterine wall include NK-like cells and T cells14 that may be modified by placental
IL-10 production. Modification of the local maternal antifetal immune response has been
shown to be important in patients with recurrent spontaneous abortion15.
IL-10 has been identified as an important cytokine in pregnancy. IL-10 may be involved
in the maintenance of pregnancy by corpus luteum maturation and progesterone
production16. In a well-known mouse cross that is prone to spontaneous abortion a
deficiency of IL-10 has been demonstrated to alter the net fetal number and outcome17.
Longitudinal studies in mice demonstrate a sequential change in the cytokine profile
including IL-10 in peripheral blood and release from spleen elements as pregnancy
advances18,19. IL-10 inhibition in the second half of pregnancy in mice causes fetal
growth retardation20. Besides, progesterone has been shown to increase Th2-type
responses in T cells21. Taken together, these data suggest that early pregnancy is
associated with an increase in circulating Th2 cytokine IL-10 and that fetal and
placental growth and development are depend on adequate IL-10 production. Or in brief,
IL-10 may have a fetal protective effect.
In human pregnancy there is a shift of cytokine production from Th1-type inflammatory
cytokines to Th2 type cytokines with a predominance of IL-10 and IL-4 over IL-2 and
TNF-α in stimulated PBMC. This balance altered in preeclamptic mononuclear cells with
the alternative result, a relative decrease in IL-10 compared with the pro-inflammatory
cytokine production22.
4. Interleukin-10 on trophoblast motility and invasion capacity Interleukin-10, expressed
in the decidua and placenta, is implicated in regulating extravillous cytotrophoblast
invasion through inhibiting matrix metalloproteinase expression and influencing the
quality of the maternal immune response.
Cytotrophoblast invasion in vitro requires the expression of matrix metalloproteinase-9
(MMP-9). In a recent article, the authors showed that cytotrophoblasts produce
interleukin-10 (IL-10), a potent immunomodulatory cytokine that could have paracrine
effects on the maternal immune system. IL-10 synthesis is dramatically downregulated
after the first 12 h of culture, while MMP-9 secretion is rapidly upregulated and the
cells acquire an invasive phenotype.13 These observations prompted the subsequent
experiments to investigate whether IL-10 is an autocrine regulator of cytotrophoblast
MMP-9 production. Adding recombinant IL-10 to cytotrophoblast cultures significantly
decreased the cells' MMP-9 expression at both protein and mRNA levels, but did not
affect mRNA levels of the tissue inhibitor of metalloproteinase-3.23 Thus, IL-10 may
alter the proteinase/inhibitor balance. IL-10 treatment further caused a net decrease
in MMP activity, thereby reducing cytotrophoblast invasiveness. Together, the current
data suggest that IL-10 is an autocrine inhibitor of cytotrophoblast MMP-9 activity and
invasiveness.
5. Controversies of interleukin-10 and the development of preeclampsia Endothelial cell
dysfunction has been hypothesized to be a major contributor in the pathogenesis of
pre-eclampsia. This hypertensive disease of pregnancy is characterized by changes in
the placenta, uteroplacental vasculature, kidneys, and liver consistent with
endothelial damage. Hypertension and vascular hypersensitivity to pressors, neutrophil
activation, and platelet activation have also been demonstrated in preeclampsia and are
consistent with endothelial dysfunction.24 Inflammatory cytokines are known to be
potent activators of the vascular endothelium and have been proposed as mediators of
endothelial dysfunction during preeclampsia.25 Both tumor necrosis factor α (TNFα) and
interleukin 1 β (IL-1β), interleukin-10 (IL-10) induce functional alterations in
endothelial cells.26 Although the association of these inflammatory cytokines with the
development of pre-eclampsia (PE) is generally assumed, the actual mechanism, and modes
of dysregulation are still in strong debate. In two authoritative journal, the authors
described a dysregulation of cytokine expression occurs in the pre-eclamptic placenta,
with overexpression of IL-10 mRNA in placenta tissues and elevated plasma level (Am J
Obstet Gynecol 1999;181:915-20; Obstet Gynecol 2002;100:327-31).27,28 In contrast,
another influential journal describes deficiency in plasma production of IL-10 and
decreasing plasma level of IL-10 (J Immunology, 1999, 163: 3491-5)29. Authors also
measured the IL-10 released by in vitro culture of CTB from PE patients. The results
also shows significantly alternation in IL-10 release by in vitro culture of PE CTB
(Cytokine 23 2003;23:119-25)30.
We believed that studying the CTB itself is not enough to explain the pathogenesis of
preeclampsia. CTB itself, and also the implantation environment are also expressed IL-10 and
other inflammatory cytokines. We suggest assess the in situ specimen including placenta
tissues and placental bed biopsies may include both the influence of CTB and its
implantation environment. Besides, if IL-10 does play a role in the pathogenesis of
preeclampsia, altering the expression IL-10 level may restore the PE phenotype to normal
behavior. This is our purpose of observation in the following study.
;
Observational Model: Case Control, Time Perspective: Prospective
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