Maternal diabetes affects cell proliferation in developing rat placenta

Placentation starts with the formation of a spheroidal trophoblastic shell surrounding the embryo, thus facilitating both implantation into the uterine stroma and contact with maternal blood. Although it is known that diabetes increases the placental size and weight, the mechanisms responsible for this alteration are still poorly understood. In mammals, cellular proliferation occurs in parallel to placental development and it is possible that diabetes induces abnormal uncontrolled cell proliferation in the placenta similar to that seen in other organs (e.g. retina). To test this hypothesis, the objective of this work was to determine cell proliferation in different regions of the placenta during its development in a diabetic rat model. Accordingly, diabetes was induced on day 2 of pregnancy in Wistar rats by a single injection of alloxan (40 mg/kg i.v.). Placentas were collected on days 14, 17, and 20 postcoitum. Immunoperoxidase was used to identify Ki67 nuclear antigen in placental sections. The number of proliferating cells was determined in the total placental area as well as in the labyrinth, spongiotrophoblast and giant trophoblast cell regions. During the course of pregnancy, the number of Ki67 positive cells decreased in both control and diabetic rat placentas. However, starting from day 17 of pregnancy, the number of Ki67 positive cells in the labyrinth and spongiotrophoblast regions was higher in diabetic rat placentas as compared to control. The present results demonstrate that placentas from the diabetic rat model have a significantly higher number of proliferating cells in specific regions of the placenta and at defined developmental stages. It is possible that this increased cell proliferation promotes thickness of the placental barrier consequently affecting the normal maternal-fetal exchanges.     

Expression of glucocorticoid receptor and glucose transporter-1 during placental development in the diabetic rat

In various tissues, glucocorticoids (GCs) are known to downregulate glucose transport systems; however, their effects on glucose transporters (GLUTs) in the placenta of a diabetic rat are unknown. Glucocorticoid hormone action within the cell is regulated by the glucocorticoid receptor (GR). Thus, this study was designed to investigate the relationship between GR and glucose transporter expression in the placenta of the diabetic rat. Our immunohistochemical results indicated that GR and glucose transporter protein 1 (GLUT 1) are expressed ubiquitously in the trophoblast and endothelial cells of the labyrinthine zone, where maternal fetal transport takes place in the rat placenta. Expression of GR in the junctional zone of the rat placenta was detected in giant cells, and in some spongiotrophoblast cells, but not in the glycogen cells. GLUT 1 was present, especially in glycogen cells during early pregnancy, and in the spongiotrophoblast cells of the junctional zone during late pregnancy. Amounts of GR and GLUT 1 protein were increased towards the end of gestation both in the control and the diabetic placenta. However, at days 17 and 19 of gestation, only the placental GR protein was significantly increased in the streptozotocin-induced diabetic rats compared to control rats. Diabetes led to a significant decrease in placental weight at gestation day 15. In contrast, at gestational days 17 and 21, the weights of the diabetic placenta were significantly increased as compared with the controls. Moreover, diabetes induced fetus intrauterine growth retardation at gestational days 13, 17 and 21. In conclusion, the localization pattern of GR and GLUT 1 proteins in the same cell types led us to believe that there might be a relationship between GR and GLUT 1 expressions at the cellular level. GLUT 1 does not play a pivotal role in diabetic pregnancies. However, placental growth abnormalities during diabetic pregnancy may be related to the amount of GR.     

Immunohistochemical distribution of cell cycle proteins p27, p57, cyclin D3, PCNA and Ki67 in normal and diabetic human placentas

The placenta is a regulator organ for many metabolic activities between mother and fetus. Therefore, fetal growth is directly related to the placental development. Placental development is a series of events that depend on the coordinated action of trophoblasts’ proliferation, differentiation and invasion. Studies on cell cycle related proteins which control these events are fairly limited. How placental tissue proliferation is affected by diabetes is not exactly known yet. Therefore in this study, the immunohistochemical localizations of cell cycle related proteins like PCNA, Ki67, cyclin D3, p27 and p57 in the differentiation, proliferation and apoptosis mechanisms of normal and diabetic placentas were investigated. Information on cell cycle related proteins that control these events is limited and how they are affected in diabetes mellitus is not fully understood yet. Therefore, in this study, to understand the role of cell cycle regulators in diabetic placentas we aimed to determine the spatio-temporal immunolocalizations of cell cycle regulators in diabetic and normal human term placentas. Term placentas were obtained from diabetic women and from normal pregnancies with informed consent following caesarean deliveries. Placental samples were stained via immunohistochemistry with PCNA, Ki67, cyclin D3, p27 and p57 antibodies and were examined by light microscopy. When compared to control placentas, PCNA, Ki67 and cyclin D3 staining intensities significantly increased in villous parts of diabetes group. Moreover, Ki67 and cyclin D3 stainings also significantly increased in basal plates and chorionic plate respectively. In chorionic plates, p27 and p57 staining intensities significantly decreased in diabetic group. p57 staining also significantly decreased in villous parts of diabetic placentas. Placental abnormalities seen in diabetic placentas could be associated with proliferation and cell cycle arrest mechanisms’ alterations occurred in diabetes mellitus.     

Influence of murine maternal diabetes on placental morphology, gene expression, and function

Maternal diabetes causes placental and foetal abnormalities in both rat and humans; however, its effect is less well documented in the mouse. We used a standard approach to induce manifest diabetes in pregnant mice and assessed morphology, function and gene expression in the placentas isolated from these females. We found that diabetic placentas exhibit a consistent abnormal phenotype characterized by increased junctional zone cross sectional area. Lipid profiling of diabetic foetuses and placentas showed that the placental phenotypes do not compromise the lipid transport function of this organ. In a genome-wide survey of mRNA expression by using cDNA micro-arrays, we identified 118 ESTs, corresponding to 59 annotated genes, with differential expression in the diabetic placentas. A significant proportion of these known is involved in metabolism, immunity and defence, and signal transduction. In addition, we found two imprinted genes, Igf2 and Gatm, which exhibited altered expression. The expression of other imprinted genes, Peg1, Gtl2, Peg3, Igf2r and Grb10, was determined by quantitative RT-PCR. For all of these genes, slight changes in gene expression were observed between diabetic placentas and control placentas. Our study thus provides the basis for future work that will address gene action in the diabetic mouse placenta.     

Altered placental insulin and insulin-like growth factor-I receptors in diabetes

We have compared the characteristics of IGF-I and insulin receptors in placentas of normals and insulin dependent diabetic patients. Specific binding of both IGF-I and insulin in placental membranes from patients with good glycemic control (as reflected by blood hemoglobin content) was unaltered while that in the placental membranes from the patients with poor glycemic control was increased to approximately 20% of the normals. This observed small but significant (p less than 0.05) increase in binding of IGF-I and insulin to placental membranes from diabetic patients with poor glycemic control was further magnified, approximately twice (p less than 0.001) the normal, when the membrane receptors were purified by lectin chromatography. The kinetic analysis of IGF-I and insulin binding in both membranes and lectin purified receptors revealed that the increased binding of insulin and IGF-I to the placentas from diabetic patients with poor glycemic control was due to an approximately 2 fold increase (p less than 0.001-0.05) in the receptor numbers without any significant changes of the affinities. The molecular characteristics of the receptors in these diabetic patients, as revealed by the cross-linking studies, did not reveal any changes when compared to the normals. The parallel changes of IGF-I and insulin receptors, shown here, are in accordance with the homologous nature of these two receptors. The increased receptor numbers of these two interrelated hormones in placentas of diabetics with poor glycemic control may be relevant to the altered placental functions in diabetic pregnancy.     

The expression of cell cycle related proteins PCNA,Ki67, p27 and p57 in normal and preeclamptic human placentas

Placenta is a transitional area making many physiological activities between mother and fetus and therefore, it is a critical organ influencing the outcome of pregnancy. Fetal growth is directly related to placental development. Accurate placental development depends on coordinated action of trophoblasts’ proliferation, differentiation and invasion. Information on cell cycle related proteins that control these events is limited and how they are affected in preeclampsia is not fully understood yet. Therefore, in this study, in order to understand the role of cell cycle regulators in preeclamptic placentas we aimed to determine the spatio-temporal immunolocalizations of cell cycle regulators in preeclamptic and normal human term placentas. Term placentas were obtained from women diagnosed with preeclampsia and from normal pregnancies with informed consent following cesarean deliveries. Placental samples were stained via immunohistochemistry with PCNA, Ki67, p27, p57, vimentin and cytokeratin 7 antibodies and were examined by light microscopy. PCNA and Ki67 staining intensities significantly increased in villous parts, significantly decreased in basal plates of PE group and did not change in chorionic plates. Staining intensities of cell cycle inhibitors p27 and p57 significantly increased in all parts of preeclamptic placentas compared to control. Placental abnormalities of preeclamptic placentas might be associated with proliferation and cell cycle arrest mechanisms’ alterations occurred in preeclampsia.     

Placental Underperfusion in a Rat Model of Intrauterine Growth Restriction Induced by a Reduced Plasma Volume Expansion

Lower maternal plasma volume expansion was found in idiopathic intrauterine growth restriction (IUGR) but the link remains to be elucidated. An animal model of IUGR was developed by giving a low-sodium diet to rats over the last week of gestation. This treatment prevents full expansion of maternal circulating volume and the increase in uterine artery diameter, leading to reduced placental weight compared to normal gestation. We aimed to verify whether this is associated with reduced remodeling of uteroplacental circulation and placental hypoxia. Dams were divided into two groups: IUGR group and normal-fed controls. Blood velocity waveforms in the main uterine artery were obtained by Doppler sonography on days 14, 18 and 21 of pregnancy. On day 22 (term = 23 days), rats were sacrificed and placentas and uterine radial arteries were collected. Diameter and myogenic response of uterine arteries supplying placentas were determined while expression of hypoxia-modulated genes (HIF-1α, VEGFA and VEGFR2), apoptotic enzyme (Caspase -3 and -9) and glycogen cells clusters were measured in control and IUGR term-placentas. In the IUGR group, impaired blood velocity in the main uterine artery along with increased resistance index was observed without alteration in umbilical artery blood velocity. Radial uterine artery diameter was reduced while myogenic response was increased. IUGR placentas displayed increased expression of hypoxia markers without change in the caspases and increased glycogen cells in the junctional zone. The present data suggest that reduced placental and fetal growth in our IUGR model may be mediated, in part, through reduced maternal uteroplacental blood flow and increased placental hypoxia.     

Expression and regulation of calcitonin gene-related Peptide receptor in rat placentas

Calcitonin gene-related peptide (CGRP), one of the most potent vasodilators known, exerts its biological action by interacting with its receptors. Recent reports suggest the existence of two types of CGRP receptors, CGRP-A and CGRP-B. The current study was designed to examine whether CGRP-B receptors are present in the rat placenta, and if they are, whether they are modulated by gestational age and by sex-steroid hormones. Placentas were obtained from timed pregnant Sprague-Dawley rats that were killed on Days 17-21 and 22 before and during labor (n = 6 for each gestational age). In addition, placentas were also obtained from pregnant rats injected with progesterone (P(4); 4 mg per rat per day s.c. on Days 20-22), antiprogesterone RU-486 (10 mg/rat s.c. on Day 17), 17beta-estradiol (5 micro g/rat s.c. on Day 17), and antiestrogen ICI 182780 (0.3 micro g/rat s.c. on Day 17). Results showed that first, immunoflourescent staining of rat placentas using monoclonal anti-CGRP-B receptor antibody revealed the presence of CGRP-B receptors in the labyrinthine layer of the placenta, specifically to the trophoblast and blood vessel endothelium and underlying smooth muscle cells. The intensity of staining was lower in placentas obtained during labor. Second, a single band of 66 kDa, reactive to CGRP-B receptor antibody, was obtained in Western blotting of the rat placenta; third, densitometric analysis of protein bands showed that CGRP-B receptors were increased from Day 17 to Day 22, with maximal levels obtained on Day 22 before labor, which was 10 times higher than that of Day 17 (P < 0.01); fourth, expression of CGRP-B receptors in rat placenta decreased during labor (8% vs. 100% on Day 22 before labor, P < 0.01); fifth, P(4) given during Days 20-22 attenuated the fall in placental CGRP-B receptors at term labor; sixth, RU-486 given on Day 17 of gestation significantly decreased expression of placental CGRP-B receptors (18% vs. 100% in controls at 6 h, P < 0.01); seventh, a significant decrease in CGRP-B receptor expression was noted 48 h after estrogen administration; and eighth, ICI 182780 treatment on Day 17 increased placental CGRP-B receptors (152% vs. 100% in control at 48 h, P < 0.01). These results indicate that CGRP-B receptors are present in rat placenta and that receptor levels are higher with gestational age and lower at term labor. Progesterone stimulated and estrogen inhibited placental CGRP-B receptor expression. Thus, elevations in placental CGRP-B receptors in late pregnancy could play a role in increasing blood flow through the fetoplacental unit associated with rapid fetal growth during late gestation.     

Steps of glucocorticoid action in normal and diabetic rat placenta

This investigation examined the effects of Streptozotocin diabetes in pregnancy on several parameters of glucocorticoid action in the rat placenta. Pregnant diabetic rats showed reduced body weight, increased adrenal weight and serum corticosterone concentrations. Glucocorticoid receptors in placental cytosol of labyrinthine zone, measured in the absence of MoO4Na2 were similar in control and diabetic rats, but after addition of MoO4Na2 receptor number were moderately, but significantly reduced in diabetic placentas (P less than 0.01). No changes in affinity were detected in saturation analysis. Furthermore, transformation of the receptor assessed by its capacity for binding to DNA-cellulose, was enhanced in diabetic animals, suggesting increased efficiency of the receptor-bound hormone. Since the function of the glucocorticoid receptor of rat placenta may be the inhibition of local progesterone production (Heller and De Nicola, J. steroid Biochem. 19 (1983) 1339-1343), we determined progesterone synthesis in vitro and found that diabetic placentas synthesized significantly less progesterone than control tissue (P less than 0.05). Lastly, we found that the metabolism of corticosterone to 11-dehydrocorticosterone, while declining in control placentas as pregnancy advanced, it was sustained in diabetic pregnancy. It is suggested that diabetic rat placentas showed increased activity towards the glucocorticoid receptor, resulting in reduction in progesterone synthesis and sustained catabolism of corticosterone. The latter may possibly constitute a compensatory mechanism to protect the fetal compartment from high levels of maternal glucocorticoids.     

低分子肝素对子痫前期大鼠炎症反应、肝功能及胎盘组织Bcl-2、Bax蛋白表达的影响

目的:研究低分子肝素对子痫前期大鼠炎症反应、肝功能及胎盘组织Bcl-2、Bax蛋白表达的影响.方法:将90只孕期大鼠以随机数表法分成正常孕组、子痫前期组、治疗组,每组30只.其中子痫前期组和治疗组大鼠于妊娠第13 d开始皮下注射左旋硝基精氨酸甲酯,建立子痫前期大鼠模型,注射剂量为200mg/(kg·d),正常孕组予以等...     

Bestatin results in pathophysiological changes similar to preeclampsia in rats via induction of placental apoptosis.

OBJECTIVE: To establish a rat preeclampsia model with fetoplacental growth restriction caused by bestatin via induction of placental apoptosis. STUDY DESIGN: 200 mg/kg/day of bestatin or saline as a control were infused intraperitoneally into pregnant Wistar rats from 15 days' gestation. In the first experiment, maternal blood pressure and proteinuria were examined during the pre- and postpartum periods. In the second experiment, cesarean sections were performed at 20 days' gestation and the weights of pups and placentas, and levels of proteinuria and placental apoptosis were examined. RESULTS: Physiological decrease of blood pressure in late pregnancy was not detected in the bestatin group but proteinuria level at 20 days' gestation was elevated. The weights of pups and placentas in the bestatin group were significantly lower than those in the controls, bestatin strongly inducing apoptosis in the placenta. CONCLUSION: Bestatin may cause a preeclampsia-like condition through induction of placental apoptosis.     

Colocalization of leptin receptor (OB-R) mRNA and placental lactogen-II in rat trophoblast cells: gestational profile of OB-R mRNA expression in placentae

The present study was designed to clarify the cellular localization and expression of leptin receptor(s) [OB-R(s)] mRNA including its splice variants and their correlation with the cells which secrete placental hormone, placental lactogen-II (PL-II), in rat placentae. By in situ hybridization analysis, hybridization signals for OB-Rb and the common extracellular domain of OB-R were first detectable in some cells of the labyrinth zone of the placentae on day 14 of pregnancy and then a lot of cells dispersed in the entire area of the labyrinth zone expressed OB-Rb during the latter half of pregnancy. However, no expression was observed in the decidua and the junctional zone of the placentae during pregnancy. Double staining study revealed that signals for OB-R expressing trophoblast cells showed PL-II immunoreactivity in the labyrinth zone of the placentae. In Northern blot analysis, two bands (2.8 kb and 5.1 kb) of OB-R mRNA expression were observed in the placentae from day 17 to 21 of pregnancy and the expression of both increased markedly up to day 21 of pregnancy. RT-PCR analysis revealed that OB-Rb, OB-Ra, and OB-Re are expressed in the placentae on days 19 and 21 of pregnancy. These results suggest that the OB-R may have a physiological significance in the placental function during the latter half of pregnancy.     

Rat spongiotrophoblast-specific protein is predominantly a unique low sulfated chondroitin sulfate proteoglycan

We have previously demonstrated that the human placenta contains a uniquely low sulfated extracellular aggrecan family chondroitin sulfate proteoglycan (CSPG). This CSPG is a major receptor for the adherence of Plasmodium falciparum-infected red blood cells (IRBCs) in placentas, causing pregnancy-specific malaria. However, it is not known whether such low sulfated CSPGs occur in placentas of other animals and, if so, whether IRBCs bind to those CSPGs. In this study, we show that rat placenta contains a uniquely low sulfated extracellular CSPG bearing chondroitin sulfate (CS) chains, which comprise only approximately 2% 4-sulfated and the remainder nonsulfated disaccharides. Surprisingly, the core protein of the rat placental CSPG, unlike that of the human placental CSPG, is a spongiotrophoblast-specific protein (SSP), which is expressed in a pregnancy stage-dependent manner. The majority of rat placental SSP is present in the CSPG form, and only approximately 10% occurs without CS chain substitution. Of the total SSP-CSPG in rat placenta, approximately 57% is modified with a single CS chain, and approximately 43% carries two CS chains. These data together with the previous finding on human placental CSPG suggest that the expression of low sulfated CSPG is a common feature of animal placentas. Our data also show that the unique species-specific difference in the biology of the rat and human placentas is reflected in the occurrence of completely different CSPG core protein types. Furthermore, the rat SSP-CSPG binds P. falciparum IRBCs in a CS chain-dependent manner. Since IRBCs have been reported to accumulate in the placentas of malaria parasite-infected rodents, our results have important implications for exploiting pregnant rats as a model for studying chondroitin 4-sulfate-based therapeutics for human placental malaria.     

PGE2 induces its own secretion in vitro by bovine 270-day placenta but not by 200-day placenta.

Two separate experiments were conducted to determine whether prostaglandin (PG) E2 stimulates the secretion of progesterone by 270- or 200-day Brahman placentas in vitro. Secretion of progesterone, PGF2alpha, pregnancy specific protein B, or estradiol-17beta by 270-day Brahman placentas was not affected (p > or = 0.05) by PGE2, during the 4-h incubation period at the doses tested. Indomethacin or meclofenamic acid decreased (p < or = 0.05) 270-day Brahman placental secretion of PGE and PGF2alpha by 98 and 60%, respectively. However, PGE2 induced (p < or = 0.05) its own secretion, but not the secretion of PGF2alpha (p > or = 0.05), by 270-day Brahman placentas, even in the presence of indomethacin or meclofenamic acid at a dose of 100 ng/mL. Also, secretion of 8-Epi-PGE2 by Day 270 Brahman placentas was increased (p < or = 0.05) by PGE2. Secretion of progesterone, estradiol-17beta, or pregnancy specific protein B by 200-day Brahman placentas was not affected by PGE2, 8-Epi-PGE2, PGF2alpha, estradiol-17beta, or trichosanthin during the 4- or 8-h incubation period (p > or = 0.05). Secretion of estradiol-17beta at 8 h was lower (p < or = 0.05) in all treatment groups and did not differ (p > or = 0.05) among the 8-h incubation treatment groups. Secretion of PGE by 200-day Brahman placentas was reduced (p < 0.05) by indomethacin 72 and 82% and by meclofenamic acid 72 and 96%, respectively, at 4 and 8 h when compared to controls. Secretion of PGF2alpha was reduced (p < or = 0.05) 71 and 86% by indomethacin or 89 and 89% by meclofenamic acid at 4 and 8 h, respectively, and did not differ (p > or = 0.05) between 4 and 8 h of incubation. PGE2 did not (p > or = 0.05) induce secretion of PGE above what was added in any treatment group. PGE in culture media was increased (p < or = 0.05) by 8-Epi-PGE2, pregnancy specific protein B, and the 100 ng/mL PGF2alpha dose (p < or = 0.05), but not by PGE2, progesterone, estradiol-17beta, 8-Epi-PGF2alpha, or trichosanthin. Secretion of PGF2alpha by 200-day Brahman placentas was not affected (p > or = 0.05) by 8-Epi-PGE2, progesterone, or estradiol-17beta, but PGF2alpha secretion was increased (p < or = 0.05) by trichosanthin or PGE2, even in the presence of indomethacin or meclofenamic acid. It is concluded that PGE does not affect secretion of progesterone by 200- or 270-day bovine placentas, but, pregnancy specific protein B may regulate placental secretion of PGE. Also, indomethacin and meclofenamic may affect enzymes converting PGH to PGE rather than acting only on cyclooxygenase because indomethacin and meclofenamic acid lowered PGE secretion by 270-day Brahman placentas more than they lowered PGF2alpha. In addition, it is concluded that PGE2 can induce bovine placental secretion of PGE, but this is dependent upon the stage of gestation.     

Noninvasive monitoring of placenta-specific transgene expression by bioluminescence imaging

Background

Placental dysfunction underlies numerous complications of pregnancy. A major obstacle to understanding the roles of potential mediators of placental pathology has been the absence of suitable methods for tissue-specific gene manipulation and sensitive assays for studying gene functions in the placentas of intact animals. We describe a sensitive and noninvasive method of repetitively tracking placenta-specific gene expression throughout pregnancy using lentivirus-mediated transduction of optical reporter genes in mouse blastocysts.

Methodology/Principal Findings

Zona-free blastocysts were incubated with lentivirus expressing firefly luciferase (Fluc) and Tomato fluorescent fusion protein for trophectoderm-specific infection and transplanted into day 3 pseudopregnant recipients (GD3). Animals were examined for Fluc expression by live bioluminescence imaging (BLI) at different points during pregnancy, and the placentas were examined for tomato expression in different cell types on GD18. In another set of experiments, blastocysts with maximum photon fluxes in the range of 2.0E+4 to 6.0E+4 p/s/cm²/sr were transferred. Fluc expression was detectable in all surrogate dams by day 5 of pregnancy by live imaging, and the signal increased dramatically thereafter each day until GD12, reaching a peak at GD16 and maintaining that level through GD18. All of the placentas, but none of the fetuses, analyzed on GD18 by BLI showed different degrees of Fluc expression. However, only placentas of dams transferred with selected blastocysts showed uniform photon distribution with no significant variability of photon intensity among placentas of the same litter. Tomato expression in the placentas was limited to only trophoblast cell lineages.

Conclusions/Significance

These results, for the first time, demonstrate the feasibility of selecting lentivirally-transduced blastocysts for uniform gene expression in all placentas of the same litter and early detection and quantitative analysis of gene expression throughout pregnancy by live BLI. This method may be useful for a wide range of applications involving trophoblast-specific gene manipulations in utero.     

Quantitative computer image analysis of chondroitin sulfate A expression in placentas infected with Plasmodium falciparum.

Most pathological conditions resulting from infection with the human malaria parasite Plasmodium falciparum occur as a consequence of the sequestration by several adhesion molecules of parasite-infected red blood cells (IRBCs). Recent reports have provided evidence that placental vascular endothelial ligands for IRBCs were mostly restricted to chondroitin sulfate A (CSA). The expression of CSA in malaria-infected placentas was investigated in a prospective case-control study in a hypoendemic area (Dakar, Senegal). The tissue distribution of CSA was measured in the terminal villi by immunostaining combined with image processing in 20 infected and 20 noninfected frozen sections of placenta. The villous surface immunostained by anti-CSA antibody was higher in infected than in noninfected placentas (p<0.03), in placentas with active infection than in those with past chronic infection (p<0.05), and in infected placentas with positive imprints than in those with negative imprints (not significant; p=0.06). Labeling was found in the extracellular matrix and in endothelial and stromal cells of all the placentas. Syncytiotrophoblast immunostaining was detected in all placentas associated with active or active chronic infection (n=7) but in only 4/13 placentas with past chronic infection (p<0.01). The presence of P. falciparum in the imprint was significantly correlated with immunostaining of CSA in syncytiotrophoblasts (p=0.003). These results suggest that CSA can play an important role in the sequestration of P. falciparum in human placentas during the acute phase of infection.     

Effects of Hyperthyroidism on Expression of Vascular Endothelial Growth Factor (VEGF) and Apoptosis in Fetal Adrenal Glands

This study investigated the expression of vascular endothelial growth factor (VEGF), vascular density, and apoptosis in fetal rat adrenal glands with hyperthyroidism in late gestation. Twelve mature female Wistar albino rats with the same biological and physiological features were used for this study. Rats were divided into two groups: control and hyperthyroidism. Hyperthyroidism was induced by daily subcutaneous injections of L-thyroxine (250 µg/kg) before pregnancy for 21 days and during pregnancy. Rats in the control and hyperthyroidism groups were caged according to the number of male rats. Zero day of pregnancy (Day 0) was indicated when the animals were observed to have microscopic sperm in vaginal smears. Pregnant rats were sacrificed on the 20th day of pregnancy; blood from each animal was collected to determine the concentrations of maternal adrenocorticotropic hormone and thyroxine. Rat fetuses were then quickly removed from the uterus, and the adrenal glands of the fetuses were dissected. VEGF expression, vascular density, and apoptosis were analyzed in fetal rat adrenal glands. Maternal serum levels of the ACTH and free thyroxine were significantly higher in the hyperthyroidism group than in the control group. Immunohistochemistry revealed that the number of VEGF positive cells and vessel density significantly increased in the hyperthyroidism rat fetal adrenal group compared with the control group. Hyperthyroidism did not change the fetal and placental weights and the number of fetuses. This study demonstrates that hyperthyroidism may have an effect on the development of rat adrenal glands mediated by VEGF expression, angiogenesis, and apoptosis.     

Lipopolysaccharide induces the expression of interleukin-1alpha distinctly in different compartments of term and preterm human placentae

The aim of the study was to investigate the stimulatory effect of lipopolysaccharide (LPS) on IL-lalpha production in different compartments of term and preterm placental tissues. Homogenates from amnion, chorion, and from fetal (subchorionic placental tissues, maternal decidua, and mid-placental tissue before and after perfusion of isolated placental cotyledons of 5 term placentas and 4 placentas obtained after preterm birth (28-34 W of gestation) were examined. Isolated placental cotyledons were dually perfused LPS (100 ng/kg perfused placental tissue) was perfused into the maternal side during 10 hours. Homogenates of the samples were examined by ELISA for IL-1alpha levels, and paraffin sections of the samples were stained by immunohistochemical staining, to characterize the cellular origin of placental IL-1alpha. Paired t test and ANOVA determined statistical significance. In the homogenates, there was a tendency towards higher IL-lalpha levels in all preterm placental compartments as compared to the term compartments before perfusion. A significant increase was observed only in the chorion compartment (p = 0.035). LPS had significantly increased IL-la levels only in the decidua compartment of term placentas as compared to other placental compartments (p = 0.0004), and had decreased IL-1alpha levels in the mid-placenta (p = 0.034). In preterm placentas, addition of LPS did not affect the expression levels of IL-1alpha in either fetal or maternal compartments as determined by ELISA and immunohistochemical staining. IL-la levels in the chorion compartment of preterm placenta were significantly higher as compared to term placenta. LPS affects placental tissues of term and preterm placentas differently. Also, in the term placentas, LPS affected the different compartments differently. Thus, IL-1alpha may have a key role (as a autocrine/paracrine factor) in the regulation of normal and pathological pregnancy and parturition.     

Human immunodeficiency virus type 1 infection of human placenta: potential route for fetal infection.

To determine the potential role of the placenta in transmission of human immunodeficiency virus (HIV) from mother to fetus, the ability of human placental tissue to support HIV type 1 (HIV-1) infection was examined. HIV-1-seronegative first-trimester placentas were maintained in culture and infected with HIV-1. Virus production, measured by HIV-1 antigen release into the supernatant, and HIV-1 DNA, identified by polymerase chain reaction, were detected for at least 12 days postinfection. Western immunoblot analysis showed Gag proteins, precursor p55, and cleavage products p24 and p17 in HIV-1-infected tissues. Double labeling of placental villi with antibodies to CD4 and placental trophoblast-specific alkaline phosphatase indicated that trophoblasts express CD4 antigen. Additionally, immunostaining of HIV-1-infected tissues with anti-p24 antibodies demonstrated HIV-1 protein expression in placental trophoblasts. Evaluation of human chorionic gonadotropin and progesterone production by the placental cultures indicated that there was a 90% decrease in human chorionic gonadotropin and a 70% decrease in progesterone production in HIV-1-infected cultures in comparison with controls. These data demonstrate that trophoblastic cells of human placenta tissue express CD4 and are susceptible to HIV-1 infection; also, placental endocrine function is decreased by HIV-1 infection. Thus, the placenta may serve as a reservoir of HIV-1 infection during pregnancy contributing to infection of the fetus, and decreased placental hormone production may result in impaired fetal development.