Ectoplacental Cone Induces Resistance to Apoptosis in High Doses of Interferon (IFN)-gamma-Treated Decidual Cells

Problem In this study, we explored the relationship between decidual cells (DC) and interferon (IFN)-gamma, in the presence or absence of ectoplacental cone (EC) using a coculture system. Method of study Decidual cells and EC were isolated from pregnant mice on gestation day 7.5. DCs were cultured for 48 hr and then treated with fresh EC. After characterization, they were treated with IFN-gamma, and cell death was evaluated. Results Interferon-gamma drastically increased decidual apoptosis, which was partially reverted by the addition of EC to the IFN-gamma-treated decidual culture. Moreover, the addition of EC to non-treated DC cultures was also capable of attenuating death rates. Conclusion Resistance to apoptosis may be induced in DC by the EC. This suggests that EC may participate in the inhibition of IFN-gamma-dependent apoptosis and, therefore, play important role for DC survival in a cytokineenriched placental environment.

Localization and distribution of tissue type and urokinase type plasminogen activators and their inhibitors type 1 and 2 in human and rhesus monkey fetal membranes

Fetal membranes consist of 10 distinct layers including components of amnion, chorion and decidua, the latter being of maternal origin. They form mechanically integrated sheets capable of retaining amniotic fluid and play an essential role in protecting fetal growth and development in the pregnant uterus. The extracellular matrix, substrate for plasminogen activators (PAs), is an important supportive framework of the fetal membranes. :Fetal membranes from women with preterm premature rupture of membranes may differ in their protease activity compared with normal membranes. To identify the presence of PAs and their inhibitors (PAI) and their possible role in the process of fetal membrane rupture, this study in investigated the distribution and localization of both protein and mRNA for tissue (t) and urokinase (u) PA and their inhibitors type 1 (PAI-1) and type 2 (PAI-2) in amniochorion of human and rhesus monkey using conventional and. confocal immunofluorescence microscopy. In situ hybridization analysis showed that the distribution and localization of mRNAs for tPA, uPA, PAI-I and PAI-2 were similar in the fetal membranes of human and rhesus monkey; no obvious species difference was observed. Evidence of tPA mRNA was detected in amniotic epithelium, trophoblast cells and nearly all cells of the decidual layer. Strong expression of uPA mRNA was noted in the decidual cells which increased in intensity as the abscission point was approached. Weak staining in chorion laeve trophoblast was also detected. In situ hybridization experiments showed PAI-1 mRNA to be concentrated mainly in the decidual cells, some of which were interposed into the maternal-facing edge of the chorion laeve. Maximal labelling of the decidua occurred towards the zone of abscission. Weak expression of PAI-1 mRNA nas also noted in some cells of the chorion laeve. The distribution of PAI-2 mRNA in amniochorion was also concentrated in the cells of the decidual layer, maximum expression of the mRNA was in the level of abscission. No detectable amount of mRNAs for tPA, uPA, PAI-1 and PAI-2 was found in the fibroblast, reticular and spongy layers. Distribution of the proteins of tPA, uPA and PAI-1 in the fetal membranes of these two species was consistent with the distribution of their mRNA. Anti-PAI-2 immunofluorescence was found to be strongly concentrated in the amniotic epithelium, but PAI-2 mRNA was negative in this layer, suggesting that the epithelium-associated PAI-2 is not of epithelial origin. These findings suggest that a local fibrinolysis in fetal membranes generated by precisely balanced expression of PAs and their inhibitors via paracrine or autocrine mechanisms may play an essential role in fetal membrane development, maturation and in membrane rupture. Following an analysis of the distribution and synthesis of activators and inhibitors it was found that they may play a role in abscission during the third stage of labour. (C) 1998 W. B. Saunders Company Ltd.

Études des rôles physiopathologiques de PTEN dans le tractus reproducteur femelle

La tumeur des cellules de la granulosa (GCT) représente 5% des cas de cancers ovariens chez la femme. Bien que considérées comme peu malignes, la mort survient dans 80% des cas suite à une recrudescence de la maladie. En dépit de ces statistiques sinistres, peu d’études ont été portées sur ce type de cancer. Le premier objectif de cette étude consistait à élucider les mécanismes moléculaires causant les GCT en démontrant l’implication de la voie de signalisation PI3K/AKT dans leur étiologie. Pour ce faire, nous avons employé la technologie Cre-Lox afin de cibler le gène Pten (antagoniste de cette voie) spécifiquement dans les cellules de la granulosa chez la souris. Ces souris (Ptenflox/flox;Amhr2cre/+) ont occasionnellement développé des GCT, soutenant notre hypothèse de l’importance de la voie PI3K/AKT dans leur étiologie. La voie WNT/CTNNB1 est une autre voie de signalisation qui a récemment été impliquée dans le développement des GCT. Dans le cadre de ce projet, nous avons également testé l’existence possible d’une synergie fonctionnelle entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la maladie. Pour ce faire, nous avons créé le modèle transgénique Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+, chez lequel les cellules de la granulosa présentant non seulement une désinhibition de la voie PI3K/AKT, mais aussi une suractivation de la voie WNT/CTNNB1. Tel que prédit, les souris Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ ont développé une forme de GCT beaucoup plus agressive que celle observée chez les femelles Ptenflox/flox;Amhr2cre/+. Spécifiquement, le développement des tumeurs se déclenchait plus tôt, leur croissance était beaucoup plus rapide, nous avons pu observer des métastases pulmonaires et la dissémination des cellules tumorales dans la cavité péritonéale, et la maladie était invariablement fatale avant l’âge de 8 semaines. Le modèle Ptenflox/flox;Ctnnb1flox (ex3)/+;Amhr2cre/+ a donc servi à démontrer l'existence d'une synergie entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la GCT. De façon inattendue, les souris Ptenflox/flox;Amhr2cre/+ ont aussi présenté un phénotype de sous-fertilité qui n’était pas d’origine ovarienne. Il a récemment été démontré que la souche Amhr2cre dirige l’expression de Cre non seulement aux cellules de la granulosa, mais aussi au stroma utérin et au myomètre. Le second objectif de ce travail était donc de démontrer si et comment le phénotype d’infertilité chez les souris Ptenflox/flox;Amhr2cre/+ pouvait découler d’un défaut utérin. Lors de l'implantation, les cellules du stroma utérin se différencient en cellules déciduelles pour former la décidua maternelle (DM), qui se régresse ensuite par apoptose afin de faciliter l’invasion des cellules trophoblastiques. De plus, la DM, en collaboration avec le tissu foetal, recrute des uNKs dont le rôle est de remodeler les artères spiralées pour augmenter l’apport sanguin maternel vers le foetus en développement. Nous avons pu démontrer que l'utérus des femelles gestantes Ptenflox/flox;Amhr2cre/+ présentait une DM anormalement résistante à l'apoptose, moins de uNKs et des artères spiralées non-remodelées. Par conséquent, l’invasion des cellules du trophoblaste était restreinte, compromettant le développement et la survie de l'embryon. Nous avons donc établi pour la première fois l’importance de Pten lors de la décidualisation et de l’invasion du trophoblaste.

The orphan nuclear receptor, liver receptor homolog-1 (LRH-1, NR5A2) regulates decidualization

La période de réceptivité endométriale chez l’humain coïncide avec la différentiation des cellules stromales de l’endomètre en cellules hautement spécifiques, les cellules déciduales, durant le processus dit de décidualisation. Or, on sait qu’une transformation anormale des cellules endométriales peut être à l’origine de pertes récurrentes de grossesses. LRH-1 est un récepteur nucléaire orphelin et un facteur de transcription régulant de nombreux évènements relatif à la reproduction et comme tout récepteur, son activation promouvoit l’activité transcriptionnelle de ses gènes cibles. Nous avons déjà montré que LRH-1 et son activité sont essentiels pour la décidualisation au niveau de l’utérus chez la souris et nous savons qu’il est présent dans l’utérus chez l’humain au moment de la phase de prolifération mais aussi de sécrétion du cycle menstruel, et que son expression augmente dans des conditions de décidualisation in vitro. Notre hypothèse est alors la suivante : LRH-1 est indispensable à la décidualisation du stroma endométrial, agissant par le biais de la régulation transcriptionnelle de gènes requis pour la transformation de cellules stromales en cellules déciduales. Afin d’explorer le mécanisme moléculaire impliqué dans la régulation transcriptionnelle effectuée par l’intermédiaire de ce récepteur, nous avons mis en place un modèle de décidualisation in vitro utilisant une lignée de cellules stromales de l’endomètre, cellules humaines et immortelles (hESC). Notre modèle de surexpression développé en transfectant les dites cellules avec un plasmide exprimant LRH-1, résulte en l’augmentation, d’un facteur 5, de l’abondance du transcriptome de gènes marqueurs de la décidualisation que sont la prolactine (PRL) et l’insulin-like growth factor binding protein-1 (IGFBP-1). En outre, la sous-régulation de ce récepteur par l’intermédiaire de petits ARN interférents (shRNA) abolit la réaction déciduale, d’un point de vue morphologique mais aussi en terme d’expression des deux gènes marqueurs cités ci-dessus. Une analyse par Chromatin ImmunoPrécipitation (ou ChIP) a démontré que LRH-1 se lie à des régions génomiques se trouvant en aval de certains gènes importants pour la décidualisation comme PRL, WNT 4, WNT 5, CDKN1A ou encore IL-24, et dans chacun de ces cas cités, cette capacité de liaison augmente dans le cadre de la décidualisation in vitro. Par ailleurs, des études structurelles ont identifié les phospholipides comme des ligands potentiels pour LRH-1. Nous avons donc choisi d’orienter notre travail de façon à explorer les effets sur les ligands liés à LRH-1 de traitements impliquant des agonistes et antagonistes à notre récepteur nucléaire. Les analyses par q-PCR et Western blot ont montré que la modulation de l’activité de LRH-1 par ses ligands influait aussi sur la réaction déciduale. Enfin, des études récentes de Salker et al (Salker, Teklenburg et al. 2010) ont mis en évidence que les cellules stromales humaines décidualisées sont de véritables biocapteurs de la qualité embryonnaire et qu’elles ont la capacité de migrer en direction de l’embryon. La série d’expériences que nous avons réalisée à l’aide de cellules hESC placées en co-culture avec des embryons de souris confirme que la migration cellulaire est bien dirigée vers les embryons. Cette propriété quant à l’orientation de la migration cellulaire est notoirement diminuée dans le cas où l’expression de LRH-1 est déplétée par shRNA dans les hESC. Nos données prouvent donc que LRH-1 régule non seulement la transcription d’un ensemble de gènes impliqués dans le processus de décidualisation mais agit aussi sur la motilité directionnelle de ces cellules hESC décidualisées in vitro.

Gene expression and protein localization of TLR-1, -2, -4 and -6 in amniochorion membranes of pregnancies complicated by histologic chorioamnionitis

Objectives: To determine whether histologic chorioamnionitis is associated with changes in gene expression of TLR-1, -2, -4 and -6, and to describe the localization of these receptors in fetal membranes. Study design: A total of 135 amniochorion membranes with or without histologic chorioamnionitis from preterm or term deliveries were included. Fragments of membranes were submitted to total RNA extraction. RNA was reverse transcribed and the quantification of TLRs expression measured by real time PCR. Results: All amniochorion membranes expressed TLR-1 and TLR-4, whereas 99.1% of membranes expressed TLR-2 and 77.4% expressed TLR-6. TLR-1 and TLR-2 expressions were significantly higher in membranes with histologic chorioamnionitis as compared to membranes without chorioamnionitis in preterm pregnancies (p = 0.003 and p < 0.001, respectively). Among the membranes of term pregnancies there were no differences in the expressions of such receptors regardless of inflammatory status. Regarding TLR-4 and TLR-6 expression, there was no difference among membranes with or without histologic chorioamnionitis, regardless gestational age at delivery. TLR-1, TLR-2, TLR-4 and TLR-6 expressions were observed in amniotic epithelial, chorionic and decidual cells. Conclusion: Amniochorion membranes express TLR-1, TLR-2, TLR-4 and TLR-6 and increased expression of TLR-1 and TLR-2 is related to the presence of histologic chorioamnionitis in preterm pregnancies. This study provides further evidence that amniochorion membranes act as a mechanical barrier to microorganisms and as components of the innate immune system. © 2013 Elsevier B.V. All rights reserved.

Expressão de Pentraxina 3 no líquido amniótico e imunolocalização nas membranas corioamníóticas de gestações de termo e complicadas por parto pré-termo

Pós-graduação em Patologia - FMB

MIC-1 (a multifunctional modulator of dendritic cell phenotype and function) is produced by decidual stromal cells and trophoblasts

Macrophage inhibitory cytokine-1 (MIC-1) is a multifunctional cytokine produced in high amounts by placental tissue. Inhibiting trophoblast invasion and suppressing inflammation through inhibition of macrophage activation, MIC-1 is thought to provide pleiotropic functions in the establishment and maintenance of pregnancy. So far, little is known about the decidual cell subsets producing MIC-1 and the effect of this cytokine on dendritic cells (DCs), which are known to play a distinct role in the development of pro-fetal tolerance in pregnancy.

Mouse Uterine Natural Killer Cell Functions During Early Pregnancy

Early pregnancy is characterized by complex interactions between blood vessels, leukocytes, and conceptus-derived trophoblasts within the gestational uterus. Uterine Natural Killer (uNK) cells become the most abundant leukocyte during decidualization and produce a wide array of angiogenic factors, yet little is known regarding their early pregnancy functions. To characterize the role(s) of uNK cells, whole mount in situ immunohistochemistry of live early implant sites was performed. A timecourse examination of murine early pregnancy (virgin, and gd4.5-9.5) implantation sites was performed. Comparison of Gd6.5, 8.5 and 9.5 implant sites from BALB/c+/+ controls (BALB/c) and BALB/c-Rag2-/-Il2rg-/- (alymphoid) identified anomalies that result from the absence of lymphocytes. In alymphoid decidua basalis, mesometrial angiogenesis was widespread but pruning of nascent vessels within alymphoid decidua basalis was deficient. As early gestation progressed, vessels of alymphoid decidua basalis showed no evidence for remodeling. Alymphoid implantation sites showed ~24h delay in uterine lumen closure and embryonic development. To determine if uNK cells would normalize the anomalies observed in alymphoid implantation sites, adoptive cell transfer of NK+ B- T- marrow to alymphoid mice was performed. All of the above anomalies were reversed by adoptive transfer of NK+B-T- marrow. My results suggest that uNK cells support vascular growth and development which ensures the decidua can support the growing conceptus early in pregnancy prior to formation and function of the placenta. Human decidual NK cells may fill similar roles and be important targets for strategies designed to correct intra-uterine growth restriction.

Expression of Potato virus Y cytoplasmic inclusion protein in tobacco results in disorganization of parenchyma cells, distortion of epidermal cells, and induces mitochondrial and chloroplast abnormalities, formation of membrane whorls and atypical lipid accumulation

Infection of plant cells by potyviruses induces the formation of cytoplasmic inclusions ranging in size from 200 to 1000 nm. To determine if the ability to form these ordered, insoluble structures is intrinsic to the potyviral cytoplasmic inclusion protein, we have expressed the cytoplasmic inclusion protein from Potato virus Y in tobacco under the control of the chrysanthemum ribulose-1,5-bisphosphate carboxylase small subunit promoter, a highly active, green tissue promoter. No cytoplasmic inclusions were observed in the leaves of transgenic tobacco using transmission electron microscopy, despite being able to clearly visualize these inclusions in Potato virus Y infected tobacco leaves under the same conditions. However, we did observe a wide range of tissue and sub-cellular abnormalities associated with the expression of the Potato virus Y cytoplasmic inclusion protein. These changes included the disruption of normal cell morphology and organization in leaves, mitochondrial and chloroplast internal reorganization, and the formation of atypical lipid accumulations. Despite these significant structural changes, however, transgenic tobacco plants were viable and the results are discussed in the context of potyviral cytoplasmic inclusion protein function.

Multilineage differentiation potential of bone and cartilage cells derived from explant culture

To date, mesenchymal stem cells (MSCs) from various tissues have been reported, but the yield and differentiation potential of different tissue-derived MSCs is still not clear. This study was undertaken in an attempt to investigate the multilineage stem cell potential of bone and cartilage explant cultures in comparison with bone marrow derived mesenchymal stem cells (BMSCs). The results showed that the surface antigen expression of tissue-derived cells was consistent with that of mesenchymal stem cells, such as lacking the haematopoietic and common leukocyte markers (CD34, CD45) while expressing markers related to adhesion (CD29, CD166) and stem cells (CD90, CD105). The tissue-derived cells were able to differentiate into osteoblast, chondrocyte and adipocyte lineage pathways when stimulated in the appropriate differentiating conditions. However, compared with BMSCs, tissue-derived cells showed less capacity for multilineage differentiation when the level of differentiation was assessed in monolayer culture by analysing the expression of tissue-specific genes by reverse transcription polymerase chain reaction (RT-PCR) and histology. In high density pellet cultures, tissue-derived cells were able to differentiate into chondrocytes, expressing chondrocyte markers such as proteoglycans, type II collagen and aggrecan. Taken together, these results indicate that cells derived from tissue explant cultures reserved certain degree of differentiation properties of MSCs in vitro.

Stem cell regulatory gene expression in human adult dental pulp and periodontal ligament cells undergoing odontogenic/osteogenic differentiation

Introduction During development and regeneration, odontogenesis and osteogenesis are initiated by a cascade of signals driven by several master regulatory genes. Methods In this study, we investigated the differential expression of 84 stem cell–related genes in dental pulp cells (DPCs) and periodontal ligament cells (PDLCs) undergoing odontogenic/osteogenic differentiation. Results Our results showed that, although there was considerable overlap, certain genes had more differential expression in PDLCs than in DPCs. CCND2, DLL1, and MME were the major upregulated genes in both PDLCs and DPCs, whereas KRT15 was the only gene significantly downregulated in PDLCs and DPCs in both odontogenic and osteogenic differentiation. Interestingly, a large number of regulatory genes in odontogenic and osteogenic differentiation interact or crosstalk via Notch, Wnt, transforming growth factor β (TGF-β)/bone morphogenic protein (BMP), and cadherin signaling pathways, such as the regulation of APC, DLL1, CCND2, BMP2, and CDH1. Using a rat dental pulp and periodontal defect model, the expression and distribution of both BMP2 and CDH1 have been verified for their spatial localization in dental pulp and periodontal tissue regeneration. Conclusions This study has generated an overview of stem cell–related gene expression in DPCs and PDLCs during odontogenic/osteogenic differentiation and revealed that these genes may interact through the Notch, Wnt, TGF-β/BMP, and cadherin signalling pathways to play a crucial role in determining the fate of dental derived cell and dental tissue regeneration. These findings provided a new insight into the molecular mechanisms of the dental tissue mineralization and regeneration

Amniotic fluid stem cells produce robust mineral deposits on biodegradable scaffolds

Insufficient availability of osteogenic cells limits bone regeneration through cell-based therapies. This study investigated the potential of amniotic fluid–derived stem (AFS) cells to synthesize mineralized extracellular matrix within porous medical-grade poly-e-caprolactone (mPCL) scaffolds. The AFS cells were initially differentiated in two-dimensional (2D) culture to determine appropriate osteogenic culture conditions and verify physiologic mineral production by the AFS cells. The AFS cells were then cultured on 3D mPCL scaffolds (6-mm diameter9-mm height) and analyzed for their ability to differentiate to osteoblastic cells in this environment. The amount and distribution of mineralized matrix production was quantified throughout the mPCL scaffold using nondestructive micro computed tomography (microCT) analysis and confirmed through biochemical assays. Sterile microCT scanning provided longitudinal analysis of long-term cultured mPCL constructs to determine the rate and distribution of mineral matrix within the scaffolds. The AFS cells deposited mineralized matrix throughout the mPCL scaffolds and remained viable after 15 weeks of 3D culture. The effect of predifferentiation of the AFS cells on the subsequent bone formation in vivo was determined in a rat subcutaneous model. Cells that were pre-differentiated for 28 days in vitro produced seven times more mineralized matrix when implanted subcutaneously in vivo. This study demonstrated the potential of AFS cells to produce 3D mineralized bioengineered constructs in vitro and in vivo and suggests that AFS cells may be an effective cell source for functional repair of large bone defects