Human placental transthyretin in fetal growth restriction in combination with preeclampsia and the HELLP syndrome.

Fetal growth restriction is a serious, still poorly understood pregnancy-related pathology often associated with preeclampsia. Recent studies speculate on the role of human transthyretin, a carrier protein for thyroxin and retinol binding protein, in the etiology of both pregnancy pathologies. Objective was to investigate the localization and abundance of transthyretin (TTR) in placentas of pregnancies suffering from fetal growth restriction with and without preeclampsia and HELLP. This was a retrospective case control study on human paraffin-embedded placentas from pregnancies with a gestational age at delivery between the 24th and 34th week of gestation. 16 placentas were included in this study, 11 cases and 5 from normotensive pregnancies as controls. Cases were divided into three groups: four from early onset idiopathic intrauterine growth restriction (IUGR), four from early-onset severe preeclampsia (PE), and three from early-onset IUGR with preeclampsia plus HELLP syndrome. Distribution and abundance of TTR were investigated by means of immunohistochemistry. Semi quantitative analysis of TTR staining of placental sections revealed that TTR was mostly expressed in the villous trophoblast covering placental villi. Only weak staining of TTR in villous stroma could be detected. The comparison of placentas revealed that in pure IUGR and severe PE there is a much stronger TTR reactivity compared to controls and cases with IUGR + PE + HELLP. Concluding, the study showed that TTR is dysregulated in cases of IUGR and severe early onset preeclampsia. Interestingly, TTR expression is not affected in cases with HELLP syndrome that reveal the same staining intensities as age-matched controls.

Adhering maternal platelets can contribute to the cytokine and chemokine cocktail released by human first trimester villous placenta.

Placental villous explant culture has been increasingly recognized as suitable model to study secretion of inflammatory and immune modulating factors by human placenta. Most of these factors likely derive from the syncytiotrophoblast, whereas extraplacental sources such as maternal peripheral blood cells are rarely considered. Due to their small size and absence of a nucleus, platelets adhering to perivillous fibrinoid of normal placenta are frequently ignored in routine immunohistochemistry. Here we demonstrate adhering maternal platelets on first trimester placental villi after explant culture and point out that platelet-derived factors must be considered when analyzing the inflammatory secretion profile of human placenta.

Expression of serum amyloid A4 in human trophoblast-like choriocarcinoma cell lines and human first trimester/term trophoblast cells.

Trophoblast invasion into uterine tissues represents a hallmark of first trimester placental development. As expression of serum amyloid A4 (SAA4) occurs in tumorigenic and invasive tissues we here investigated whether SAA4 is present in trophoblast-like human AC1-M59/Jeg-3 cells and trophoblast preparations of human first trimester and term placenta. SAA4 mRNA was expressed in non-stimulated and cytokine-treated AC1-M59/Jeg-3 cells. In purified trophoblast cells SAA4 mRNA expression was upregulated at weeks 10 and 12 of pregnancy. Western-blot and immunohistochemical staining of first trimester placental tissue revealed pronounced SAA4 expression in invasive trophoblast cells indicating a potential role of SAA4 during invasion.

Placental expression of D-chiro-inositol phosphoglycans in preeclampsia.

Abnormalities in glucose metabolism linked to D-chiro-inostol phosphoglycans (IPGs) have been described in human placentas of preeclamptic women. In this study, a semi-quantitative approach to assess the histological assessment of IPGs revealed no significant differences between early and late onset preeclampsia and gestational age matched controls. However, there was a tendency towards higher values in early onset preeclampsia for villous stroma and placental vessels. Moreover, in control cases staining of plasma in placental vessels was present only in one part of vessels of mature intermediate villi while in preeclamptic specimens all placental vessels showed a similar staining. The tendencies of more staining in villous stroma associated with a differential staining of placental vessels only in preeclamptic specimens support a vectoral movement of D-chiro-inositol phosphoglycans from the fetus to the placenta.

The art of identification of extravillous trophoblast.

Immunohistochemical staining with specific markers for the respective cell type facilitates tracking and identification of cells such as extravillous trophoblast in the uterine wall. Cytokeratin has been recommended as a marker for all kinds of trophoblasts and is commonly used as a marker to identify interstitial as well as endovascular trophoblast. With immunohistochemical double staining of specimens of first trimester placental bed we show that staining with anti-cytokeratin alone is not sufficient to track all routes of trophoblast invasion. Endovascular trophoblasts can be easily mixed up with endoglandular trophoblasts. Thus, additional application of specific markers for extravillous trophoblast such as anti-HLA-G is strongly recommended, ideally in combination with other markers in immunohistochemical or immunofluorescence double staining.

Caspases rather than calpains mediate remodelling of the fodrin skeleton during human placental trophoblast fusion.

Fusion of cytotrophoblasts with the overlying syncytiotrophoblast is an integral step in differentiation of the human placental villous trophoblast. Multiple factors, such as growth factors, hormones, cytokines, protein kinases, transcription factors and structural membrane proteins, were described to modulate trophoblast fusion. However, the knowledge on remodelling of the membrane-associated cytoskeleton during trophoblast fusion is very limited. This study describes the link between remodelling of spectrin-like alpha-fodrin and intercellular trophoblast fusion. Experiments with primary trophoblasts isolated from term placentas and the choriocarcinoma cell line BeWo revealed a biphasic strategy of the cells to achieve reorganization of alpha-fodrin. Syncytialization of trophoblasts was accompanied by down-regulation of alpha-fodrin mRNA, whereas the full-length alpha-fodrin protein was cleaved into 120 and 150 kDa fragments. Application of calpeptin and calpain inhibitor III did not affect alpha-fodrin fragmentation in primary term trophoblasts and forskolin-treated BeWo cells, but decreased secretion of beta human chorionic gonadotropin. In contrast, inhibitors of caspases 3, 8 and 9 attenuated generation of the 120 kDa fragment and a general caspase inhibitor completely blocked fragmentation, suggesting an exclusive function of caspases in alpha-fodrin remodelling. Immunofluorescence double staining of human placenta revealed co-localization of active caspase 8 with alpha-fodrin positive vesicles in fusing villous cytotrophoblasts. These results suggest that caspase-dependent fragmentation of alpha-fodrin may be important for reorganization of the sub-membranous cytoskeleton during trophoblast fusion.

Fusion of villous trophoblast can be visualized by localizing active caspase 8.

Villous cytotrophoblast differentiation and subsequent fusion with the overlying syncytiotrophoblast depend on multiple factors such as growth factors, cytokines, hormones, protein kinases, transcription factors, structural membrane proteins and proteases. Caspase 8, an aspartate-specific cysteine protease, is mainly known for its role in programmed cell death, but was also demonstrated to be crucial for villous trophoblast differentiation. This study aimed to localize active caspase 8 in the villous trophoblast layer of human first trimester placenta. To this end, immunofluorescence double staining was performed, using a monoclonal rabbit antibody against cleaved caspase 8 in combination with antibodies against cytokeratin 7, chorionic gonadotropin beta subunit (beta hCG), beta-actin, placental protein 13 (PP13), alpha-fodrin and Ki-67. Immunofluorescence revealed cleaved caspase 8 in one out of 422 villous cytotrophoblasts resting on the basement membrane, in one out of 759 perinuclear regions within the syncytiotrophoblast and in few trophoblasts located between these two layers. Double staining of cleaved caspase 8 and Ki-67 antigen revealed that caspase 8 is activated only in cytotrophoblasts which have left the cell cycle. The staining suggests that caspase 8 is activated in villous cytotrophoblasts just prior to fusion of these cells and escorts the nuclei from the mononucleated to the syncytial state.