Peculiarities of RIG-1 Expression in Placental Villi in Preeclampsia.

The expression of RIG-1 in placenta samples was assessed in women of reproductive age with early- and late-onset preeclampsia and cesarean delivery at 27-39 weeks of gestation. The highest expression of RIG-1 was found in the syncytiotrophoblast of placental villi in the group with uncomplicated full-term pregnancy (normal); RIG-1 expression in groups with early- and late-onset preeclampsia was significantly (p<0.01) lower. In decidual cells, RIG-1 expression was also maximum in normal pregnancy and significantly (p<0.01) lower in lateonset preeclampsia. In the endothelium of villous capillaries, the maximum expression was observed in normal full-term pregnancy and in late-onset preeclampsia, while in early-onset preeclampsia this parameter was significantly (p<0.01) lower. It can be assumed that different variants of preeclampsia are mediated by similar pathogenetic mechanisms, including those related to immature molecular profile of the trophoblast and decidual cells, probably due to impaired stem cell activity in the placenta determining higher vulnerability and reduced regeneration capacity of the placental tissue. This is due to the fact that RIG-1 is one of the important signaling molecules that promote activation of stem cell and tissue regeneration.

Change in OncomicroRNA Expression in the Placenta during Preeclampsia.

The expression of microRNA-17, microRNA-181a, and microRNA-519a in the villous tree in preeclampsia was analyzed using chromogenic in situ hybridization technique (CISH). It was found that in early-onset preeclampsia, the expression of microRNA-17 in the syncytiotrophoblast was higher (p<0.05) than in late preeclampsia, and the expression of microRNA-519a was higher (p<0.05) than in women with preterm birth at 26-31 weeks gestation. We revealed higher level of expression of microRNA-181a (p<0.05) in the cytoplasm of the syncytiotrophoblast of intermediate placental villi in the group with premature delivery in comparison with early preeclampsia. In full-term pregnancy, the expression of microRNA-181a in the vascular endothelium of placental villi was higher (p<0.02) than in women with premature deliveries. Analysis of the target genes associated with these microRNAs showed that damage to the trophoblast typical of preeclampsia, especially up to 34 weeks gestation, was accompanied by selective activation of genes participating in invasion and compensatory suppression of oncoprotective genes associated with the development of malignant neoplasms.

Conditions for Collection of Placental Tissue Samples for Culturing of Multipotent Mesenchymal Stromal Cells.

Placentas from women aged 25-32 years with normal course of gestation were studied. It is essential to stick to certain methodological approaches for preparing viable multipotent mesenchymal stromal cell culture and to carry out morphological (macro and micro) evaluation of the chorionic villi, umbilical cords, and placentas. At stage I of the study, patients' histories, labor course, and examinations of the newborns should be analyzed to exclude women with genital and extragenital diseases. At stage II, it is essential to stick to special regulations and methods for collection of specimens of the cord, amnion, and placental tissue proper. Histological control of the placental structures collected for multipotent mesenchymal stromal cell culturing is obligatory.

[Morphological Features of Mesenhymal Stroma Cells of Chorionic Villi].

Background: Nowadays autologous mesenchymal placental stromal cells (MSCs) may use to treat for various diseases both of the mother and the child. Stroma of the placenta villi is appropriated origin for cell culture isolation. Aim: of the study was to evaluate the possibility for selection and use of placental tissue for mesenchymal stromal cells. Materials and methods: The present study was based on 45 placental samples of women aged 27−38 yy. who underwent surgical delivery at 36−40 weeks of gestation. 30 of these women have been enrolled in the basic group including children with congenital abnormalities (CA). The comparison group consisted of 15 patients with physiological pregnancy. We performed histological examination (with hematoxylin and eosin staining), immunohistochemical examination (with use monoclonal antibodies CD90 (1:25; Abcam, UK), СD105 (1:500; Abcam, UK), CD44 (1:25; Dako), СD73 (1:200, Abcam, UK), and electron microscopy (by microscope Philips/FEI Corporation, Eindhoven, Holland). Eclipse 80i microscope (Nikon Corporation, Japan) was used to examine the immunohistochemical reactions as a brown staining. The evaluation of the intensity of reaction was conducted by NIS-Elements Advanced Research 3.2 program (Czech Republic). Student's t-test and analysis of variance were used to compare the mean values. Differences were considered statistically significant at p<0.05. Results: Interstitial cells of the stroma of the villi with CA had fibroblastic differentiation as revealed degenerative changes of the cells. The histologic examination with hematoxylin and eosin staining revealed significant fibrosis of the stroma of the placenta villi in CA group (p<0,01). Immunohistochemical study of stem and intermediate chorionic villi revealed no significant differences in staining of CD44+, СD90+, СD73+, and CD105+ cells if compared to the control group (p>0.05). Although CD105 expression was significantly lower in the CA group (0.058±0.0049) than in the control group (0.088±0.0039) (p<0.05). However, electron microscopy detected the villi interstitial stromal cells with fibroblastic differentiation in CA group. Conclusions: Thus, it is necessary to exclude placenta with obstetrical history, somatic, and congenital pathology of the mother and the child when selecting the placental cell culture. Moreover, choosing a sample the morphological structure of the placenta should be taken into consideration. However, congenital malformations of the fetus, pathology of the mother cultivate mesenchymal stromal cells of placentas is inappropriate and should be taken advantage of the donor cells.