PLAC1 expression increases during trophoblast differentiation: evidence for regulatory interactions with the fibroblast growth factor-7 (FGF-7) axis

PLAC1 is a recently described, trophoblast-specific gene that localizes to a region of the X-chromosome important in placental development. Immunohistochemical analysis demonstrated that PLAC1 polypeptide localizes to the differentiated syncytiotrophoblast throughout gestation (8-41 weeks) as well as a small population of villous cytotrophoblasts. Consistent with these observations, quantitative RT-PCR demonstrated that PLAC1 mRNA increases more than 300-fold during cytotrophoblast differentiation in culture to form syncytiotrophoblasts. Agents known to be relevant to trophoblast differentiation were then tested for the ability to influence PLAC1 expression. Fibroblast growth factor-7 (FGF-7), also known as keratinocyte growth factor (KGF), stimulated PLAC1 mRNA expression approximately two-fold in the BeWo(b30) trophoblast cell line. FGF-7 stimulation was significantly inhibited by PD-98059 and wortmannin suggesting mediation via MAP kinase and PI-3 kinase-dependent signaling pathways. Interestingly, epidermal growth factor (EGF) treatment of trophoblasts had no effect on PLAC1 expression alone, but potentiated the effect of FGF-7, suggesting the presence of a regulatory interaction of the two growth factors. FGF-7 and its receptor, FGFR-2b, exhibited spatial overlap with PLAC1 suggesting these regulatory interactions are physiologically relevant during gestation. These data demonstrate PLAC1 expression is upregulated during trophoblast differentiation, localizing primarily to the differentiated syncytiotrophoblast. Furthermore PLAC1 expression is specifically regulated by peptide growth factors relevant to trophoblast differentiation.     

PLAC1特异性TCR基因修饰T细胞对乳腺癌的抗肿瘤作用

目的研究胎盘特异性基因1（PLAC1）特异性T细胞受体（TCR）基因修饰T细胞对乳腺癌的抗肿瘤作用。 方法磁珠分选人类白细胞抗原分型为A2（HLA-A2）的志愿者外周血单个核细胞（PBMC）中的CD8⁺ T细胞,流式检测CD8⁺ T细胞的表型。通过慢病毒载体构建、包装,将可识别乳腺癌肿瘤抗原PLAC1的HLA-A2限制性的TCR基因导入CD8⁺ T细胞（称为TCR-T细胞）,以慢病毒空载体包装、感染的CD8⁺ T细胞（NC-T细胞）作为对照细胞,通过流式细胞术检测PLAC1特异性TCR的表达效率。免疫荧光和流式细胞术检测乳腺癌细胞MCF-7和MDA-MB-231（三阴性乳腺癌细胞）的PLAC1和HLA-A2血清型的表达。WST-1法检测不同效靶比（5?:?1、10?:?1和20?:?1）TCR-T细胞或NC-T细胞与乳腺癌细胞MCF-7或MDA-MB-231作用后的细胞毒性,并通过ELISA检测共培养后T细胞IFN-γ的释放量。通过裸鼠皮下人乳腺癌移植瘤模型检测TCR-T细胞以及NC-T细胞的抗肿瘤作用。采用单因素方差分析及独立t检验进行统计学分析。 结果磁珠分选出的CD8⁺ T细胞CD3⁺ CD8⁺比例达到（98.89±0.30）%。经慢病毒感染、五聚体检测,TCR-T细胞中PLAC1特异性TCR的正确表达率为（24.58±0.82）%,NC-T细胞不表达PLAC1特异性TCR。免疫荧光和流式结果显示乳腺癌细胞MCF-7和MDA-MB-231为HLA-A2和PLAC1双阳性表达细胞。其中流式检测结果显示,MCF-7和MDA-MB-231细胞中HLA-A2的表达效率分别为（93.04±1.36）%和（98.72±0.12）%。在效靶比为20?:?1时,TCR-T细胞对MCF-7杀伤率为（51.5±1.37）%,高于NC-T细胞对MCF-7的杀伤率（5.93±2.40）%,t = 15.507,P < 0.01;TCR-T细胞对MDA-MB-231杀伤率为（44.34±2.20）%,高于NC-T细胞对MDA-MB-231杀伤率（5.15±2.40）% （t?= 10.694,P < 0.01）。在相同效靶比情况下,TCR-T细胞对MCF-7或MDA-MB-231细胞的细胞毒性高于NC-T细胞,且随着效靶比的增加杀伤效果增强。在效靶比为20?:?1时,与MCF-7共培养后TCR-T细胞IFN-γ的分泌水平[（347.49±4.10）pg/ml]高于NC-T细胞[（18.14±6.22）pg/ml]（t = -76.638,P < 0.01）;与MDA-MB-231共培养后TCR-T细胞IFN-γ的分泌水平为（255.25±6.85）pg/ml,高于NC-T细胞[（14.70±6.38）pg/ml] （t = -44.526,P < 0.01）,且随着效靶比的增加分泌量升高。在裸鼠皮下人乳腺癌移植瘤实验中,生理盐水组和NC-T细胞移植组小鼠的肿瘤生长迅速,TCR-T细胞治疗组小鼠肿瘤生长相对缓慢,在移植后第35天,生理盐水组、NC-T细胞组和TCR-T细胞组小鼠肿瘤的平均体积分别为（5?636.96±2?879.55）mm³、（5?522.12±3?391.48）mm³和（1?403.85±1?394.31）mm³,TCR-T细胞治疗组小鼠肿瘤体积明显小于生理盐水组（F = 0.1813,P < 0.05）和NC-T细胞组（F = 0.1307,P?< 0.05）。 结论PLAC1特异性TCR基因修饰T细胞对乳腺癌细胞具有较强的抗肿瘤作用,PLAC1可作为乳腺癌治疗的潜在靶标;PLAC1特异性TCR基因修饰T细胞治疗是PLAC1表达阳性的乳腺癌治疗的新策略。     

Notch1 and the activated NOTCH1 intracellular domain are expressed in differentiated trophoblast cells

The Notch signalling pathway regulates proliferation, cell death and cell type specification that is critical for organogenesis. Mouse models carrying mutations in the Notch signalling pathway display defects in development of the placenta, suggesting that this pathway is required for placental development. In particular, Notch1 mutant embryos exhibit abnormal placental morphogenesis and arrest early in development. However, expression of Notch1 gene has not been detected during placental development. Trophoblast stem cells are derived from the precursor of the placenta and express Notch1. We report that Notch1 is also expressed in differentiated trophoblast cells. Under standard differentiation conditions, Notch1 expression ceases by day 6. Furthermore, the activated NOTCH1 intracellular domain is enriched at the nucleolus of trophoblast stem cells and differentiated trophoblast cells. Our results suggest that NOTCH1 is active in both trophoblast stem cells and differentiated trophoblast cells.     

Expression and localization of lectin-like oxidized low-density lipoprotein receptor-1 (LOX-1) in murine and human placentas.

Lectin-like oxidized low-density lipoprotein receptor-1 (LOX-1) is one of the scavenger receptors that recognizes oxidized low-density lipoprotein as a major ligand. The placenta is a major source of prooxidant during pregnancy, and the level of placental oxidative stress increases rapidly at the end of the first trimester and tapers off later in gestation. In our study, we evaluated placental expression of LOX-1 during different gestational stages in mice and humans. We used immunohistochemistry and ISH to identify LOX-1-expressing cells in murine and human placentas. In both species, higher expression of LOX-1 mRNA during early to midgestational stages compared with late gestation-corresponding to the increased oxidative stress in early pregnancy-was shown by real-time RT-PCR. In murine placenta, we showed that LOX-1-expressing cells were fibroblast-like stromal cells in metrial glands and decidua basalis and that they were glycogen trophoblast cells in the junctional and labyrinth zones. In the human, LOX-1 expression was detected in villous cytotrophoblasts in both first trimester and term placentas. These localization patterns of LOX-1 in murine and human placentas suggest the possible involvement of LOX-1 in high oxidative stress conditions of pregnancy.     

Rice PCR1 influences grain weight and Zn accumulation in grains

Proteins containing a placenta‐specific 8 domain (PLAC8) function as major organ size regulators in Solanum lycopersicum and Zea may, and putative metal ion transporters in Arabidopsis thaliana, Oryza sativa and Brassica juncea. However, it is unknown how PLAC8 domain‐containing proteins fulfill such diverse roles. Here, we found that plant cadmium resistance 1 (PCR1) influences both zinc (Zn) accumulation and grain weight in rice. OsPCR1 knockout and knockdown lines produced lighter grains than the wild type, while OsPCR1 overexpression lines produced heavier grains. Furthermore, the grains of OsPCR1 knockdown lines exhibited substantially higher Zn and lower cadmium (Cd) concentrations than the control, as did yeast heterologously expressing OsPCR1. Through sequence analysis, we showed that the amino acid sequence of japonica‐type PCR1 was distinct from that of indica‐type and wild rice accessions. This difference was correlated with distinct Zn‐related phenotypes. Japonica‐type PCR1 had a shorter N‐terminus than did PCR1 in the other rice types, and yeast heterologously expressing japonica‐type PCR1 was more sensitive to Zn than was yeast expressing indica‐type PCR1. Furthermore, japonica‐type grains accumulated less Zn than did indica‐type grains. Our study suggests that rice PCR1 maintains metal ion homeostasis and grain weight and might have been selected for during domestication.     

The POK/AtVPS52 protein localizes to several distinct post-Golgi compartments in sporophytic and gametophytic cells

The organization and dynamics of the plant endomembrane system require both universal and plant-specific molecules and compartments. The latter, despite the growing wealth of information, remains poorly understood. From the study of an Arabidopsis thaliana male gametophytic mutant, it was possible to isolate a gene named POKY POLLEN TUBE (POK) essential for pollen tube tip growth. The similarity between the predicted POK protein sequence and yeast Vps52p, a subunit from the GARP/VFT complex which is involved in the docking of vesicles from the prevacuolar compartment to the Golgi apparatus, suggested that the POK protein plays a role in plant membrane trafficking. Genetic analysis of Arabidopsis mutants affecting AtVPS53 or AtVPS54 genes which encode putative POK partners shows a transmission defect through the male gametophyte for all lines, which is similar to the pok mutant. Using a combination of biochemical approaches and specific antiserum it has been demonstrated that the POK protein is present in phylogenetically divergent plant species, associated with membranes and belongs to a high molecular weight complex. Combination of immunolocalization studies and pharmacological approaches in different plant cells revealed that the POK protein associates with Golgi and post-Golgi compartments. The role of POK in post-Golgi endomembrane trafficking and as a member of a putative plant GARP/VFT complex is discussed.     

Modulation of trophoblast stem cell and giant cell phenotypes: analyses using the Rcho-1 cell model

Trophoblast giant cells are located at the maternal-embryonic interface and have fundamental roles in the invasive and endocrine phenotypes of the rodent placenta. In this report, we describe the experimental modulation of trophoblast stem cell and trophoblast giant cell phenotypes using the Rcho-1 trophoblast cell model. Rcho-1 trophoblast cells can be manipulated to proliferate or differentiate into trophoblast giant cells. Differentiated Rcho-1 trophoblast cells are invasive and possess an endocrine phenotype, including the production of members of the prolactin (PRL) family. Dimethyl sulfoxide (DMSO), a known differentiation-inducing agent, was found to possess profound effects on the in vitro development of trophoblast cells. Exposure to DMSO, at non-toxic concentrations, inhibited trophoblast giant cell differentiation in a dose-dependent manner. These concentrations of DMSO did not significantly affect trophoblast cell proliferation or survival. Trophoblast cells exposed to DMSO exhibited an altered morphology; they were clustered in tightly packed colonies. Trophoblast giant cell formation was disrupted, as was the expression of members of the PRL gene family. The effects of DMSO were reversible. Removal of DMSO resulted in the formation of trophoblast giant cells and expression of the PRL gene family. The phenotype of the DMSO-treated cells was further determined by examining the expression of a battery of genes characteristic of trophoblast stem cells and differentiated trophoblast cell lineages. DMSO treatment had a striking stimulatory effect on eomesodermin expression and a reciprocal inhibitory effect on Hand1 expression. In summary, DMSO reversibly inhibits trophoblast differentiation and induces a quiescent state, which mimics some but not all aspects of the trophoblast stem cell phenotype.     

Uptake of 125I-labelled α2-macroglobulin and albumin by human placental syncytiotrophoblast in vitro

We have investigated the binding and internalization of α₂-macroglobulin and serum albumin by human placental syncytiotrophoblast cells in vitro. The time course (obtained at 4°C) of α₂-macroglobulin binding indicated that an equilibrium was reached after 4 h. The binding of ¹²⁵I-labelled α₂-macroglobulin to syncytiotrophoblast cells was competitively reduced in the presence of excess unlabelled α₂-macroglobulin. When the concentration-dependence of binding was examined over a wide concentration range, non-linear regression analysis yielded a K_d of 6.4 nM. In the case of albumin, binding was weak and ligand dissociated from the cell surface during aqueous washing making it impractical to analyze the binding reaction. In other experiments, syncytiotrophoblast cells were incubated with ¹²⁵I-labelled α₂-macroglobulin at 37°C. Under these conditions, trypsin-resistant cell-associated radioactivity increased with time consistent with ligand internalization. ¹²⁵I-Labelled-ligand was internalized with a t_1/2 of about 5 min. After a lag period some radioactivity was released back into the incubation medium. When measured at times up to 210 min, this was found to consist of mostly TCA-precipitable material that had been lost from the cell surface. However, when the incubation was extended to 24 h, almost 15% of the initial cell-associated radioactivity was released to the extracellular medium as TCA-soluble material, consistent with a slow rate of ligand degradation. The specific binding of ⁶⁵Zn-labelled α₂M was similar to that of the ¹²⁵I-labelled ligand and trypsin-resistance measurements provided evidence of α₂M-mediated ⁶⁵Zn uptake. These results support a role for syncytiotrophoblast in the metabolism of α₂-macroglobulin during pregnancy and are also consistent with a role for α₂-macroglobulin in the maternal-fetal transport of zinc. J. Cell. Biochem. 68:427–435, 1998. © 1998 Wiley-Liss, Inc.     

Pregnancy associated glycoprotein-1, -6, -7, and -17 are major products of bovine binucleate trophoblast giant cells at midpregnancy

Pregnancy associated glycoproteins (PAGs) are extensively glycosylated secretory proteins of ruminant trophoblast cells. In cattle placenta several PAG cDNAs are expressed, but the variety of correspondent proteins and their degree of glycosylation are not well characterized. Thus, we purified PAGs by using a protocol which included a lectin (Vicia villosa agglutinin) affinity chromatography. Due to their specific glycosylation pattern, PAGs derived from binucleate trophoblast giant cells were highly enriched by this protocol. PAGs were purified from cotyledons of 2 day 100 placentas and from a single placenta at day 155 and 180. In all samples three major bands (75; 66; 56 kDa) were detected by one-dimensional SDS-PAGE. Mass-spectrometric analysis identified the 75 kDa band as a mixture of PAG-7 and PAG-6, the 66 kDa band as PAG-1 and the 56 kDa band as PAG-17. N-terminal sequencing of the day 100 sample confirmed the mass spectrometric identifications. Enzymatic release of N-glycans with peptide-N-glycanase-F from PAGs reduced the molecular weight to approximately 37 kDa which corresponds to the theoretical molecular mass of PAGs. Limited peptide-N-glycanase-F treatment revealed that all four N-glycosylation sites are quantitatively occupied in PAG-1. Compared to PAG-1 the number of potential N-glycosylation sites is lower in PAG-17 (three sites) and higher in PAG-6 and -7 (five and six sites, respectively). This suggests that the number of attached N-glycans is the main determinant of molecular mass of bovine PAGs. The degree of glycosylation may be a major factor regulating the plasma half life of PAGs.     

The C-terminus of the transmembrane mucin MUC17 binds to the scaffold protein PDZK1 that stably localizes it to the enterocyte apical membrane in the small intestine

The membrane-bound mucins have a heavily O-glycosylated extracellular domain, a single-pass membrane domain and a short cytoplasmic tail. Three of the membrane-bound mucins,MUC3, MUC12 and MUC17, are clustered on chromosome 7 and found in the gastrointestinal tract. These mucins have C-terminal sequences typical of PDZ-domain-binding proteins. To identify PDZ proteins that are able to interact with the mucins,we screened PDZ domain arrays using YFP (yellow fluorescent protein)-tagged proteins. MUC17 exhibited a strong binding to PDZK1 (PDZ domain containing 1), whereas the binding toNHERF1 (Na+/H+-exchanger regulatory factor 1) was weak.Furthermore, we showed weak binding of MUC12 to PDZK1, NHERF1 and NHERF2. GST (glutathione transferase) pull-down experiments confirmed that the C-terminal tail of MUC17 coprecipitates with the scaffold protein PDZK1 as identified byMS. This was mediated through the C-terminal PDZ-interaction site in MUC17, which was capable of binding to three of the four PDZ domains in PDZK1. Immunostaining of wild-type or Pdzk1-/- mouse jejunum with an antiserum against Muc3(17),the mouse orthologue of human MUC17, revealed strong brushborder membrane staining in the wild-type mice compared with an intracellular Muc3(17) staining in the Pdzk1-/- mice. This suggests that Pdzk1 plays a specific role in stabilizing Muc3(17)in the apical membrane of small intestinal enterocytes.     

A tuftelin-interacting protein (TIP39) localizes to the apical secretory pole of mouse ameloblasts

Enamel biomineralization is a complex process that involves interactions between extracellular matrix proteins. To identify proteins interacting with tuftelin, a potential nucleator of enamel crystallites, the yeast two-hybrid system was applied to a mouse tooth expression library and a tuftelin-interacting protein (TIP) was isolated for further characterization. Polyclonal antibodies were prepared against two recombinant variants of this protein. Both antibodies identified a major protein product in tooth organs at 39 kDa, and this protein has been called TIP39. Northern analysis showed TIP39 messenger RNA in multiple organs, a pattern similar to that of tuftelin messenger RNA. In situ hybridization of mandibles of 1-day-old mice detected TIP39 RNA in secretory ameloblasts and odontoblasts. Immunolocalization of TIP39 and tuftelin in cultured ameloblast-like cells showed that these two proteins colocalize. Within the developing tooth organ, TIP39 and tuftelin immunolocalized to the apical pole of secretory ameloblasts (Tomes' processes) and to the newly secreted extracellular enamel matrix. TIP39 amino acid sequence appears to be highly conserved with similarities to proteins in species as diverse as yeast and primates. Available sequence data and the findings reported here suggest a role for TIP39 in the secretory pathway of extracellular proteins.     

CCN1 (CYR61) and CCN3 (NOV) signaling drives human trophoblast cells into senescence and stimulates migration properties

ABSTRACT

During placental development, continuous invasion of trophoblasts into the maternal compartment depends on the support of proliferating extravillous trophoblasts (EVTs). Unlike tumor cells, EVTs escape from the cell cycle before invasion into the decidua and spiral arteries. This study focused on the regulation properties of glycosylated and non-glycosylated matricellular CCN1 and CCN3, primarily for proliferation control in the benign SGHPL-5 trophoblast cell line, which originates from the first-trimester placenta. Treating SGHPL-5 trophoblast cells with the glycosylated forms of recombinant CCN1 and CCN3 decreased cell proliferation by bringing about G0/G1 cell cycle arrest, which was accompanied by the upregulation of activated Notch-1 and its target gene p21. Interestingly, both CCN proteins increased senescence-associated β-galactosidase activity and the expression of the senescence marker p16. The migration capability of SGHPL-5 cells was mostly enhanced in response to CCN1 and CCN3, by the activation of FAK and Akt kinase but not by the activation of ERK1/2. In summary, both CCN proteins play a key role in regulating trophoblast cell differentiation by inducing senescence and enhancing migration properties. Reduced levels of CCN1 and CCN3, as found in early-onset preeclampsia, could contribute to a shift from invasive to proliferative EVTs and may explain their shallow invasion properties in this disease.     

HAPSTR1 localizes HUWE1 to the nucleus to limit stress signaling pathways

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NRP1 and MMP9 are dual targets of RNA-binding protein QKI5 to alter VEGF-R/ NRP1 signalling in trophoblasts in preeclampsia

Preeclampsia (PE) is characterized by placental ischemia and hypoxia, resulting in abnormal casting of the uterine spiral artery, which is mainly caused by insufficient trophoblastic cell infiltration. A reduction in levels of growth factor-based signalling via Neuropilin-1 (NRP1) has been shown to contribute to dysfunctional trophoblast development. In this study, we showed that the RNA-binding protein, QKI5, regulated NRP1 expression and significantly improved trophoblast proliferation in vitro and in vivo. QKI5 and NRP1 expressions were significantly reduced in human PE placentas and in trophoblasts during hypoxia. Overexpression of these factors significantly improved cell proliferation and migration in vitro, in contrast to a decrease upon siRNA knockdown of QKI5 and NRP1 in HTR-8/SVneo cells. Using RIP and RNA pull-down assays, we further showed that QKI5 directly interacted with the 3'-UTR region of NRP1, to mediate cell proliferation and migration via matrix metalloprotease-9. Further, similar to NRP1, QKI5 also targets matrix metalloproteinase 9 (MMP9) involved in secretion of growth factors and its effects can be counteracted by NRP1 overexpression. In vivo studies using a PE mouse model revealed that QKI5 overexpression alleviated PE-related symptoms such as elevated blood pressure and proteinuria. Taken together, we found that QKI5 was a novel regulator, of VEGF-R/NRP1 signalling pathway functioning in trophoblast proliferation and migration, resulting in major contributors to the pathogenesis of PE. While careful evaluation of the broad implications of QKI5 expression is still necessary, this study identified QKI5 as a promising target for treatment strategies in acute PE patients.     

Regulation of placental villous angiopoietin-1 and -2 expression by estrogen during baboon pregnancy

We recently showed an increase in vascular endothelial growth factor (VEGF), decrease in angiopoietin-1 (Ang-1) and unaltered Ang-2 expression by the villous placenta with advancing baboon pregnancy. Moreover, placental VEGF expression was increased by estrogen in early pregnancy. In the present study, we determined whether placental Ang-1 and Ang-2 are regulated by estrogen. Ang-1 and Ang-2 mRNA and protein were determined by RT-PCR and immunocytochemistry in the placenta of baboons on Day 60 of gestation (term is 184 days) after administration of estrogen precursor androstenedione on Days 25-59 or on Day 54 after acute estradiol administration. Chronic androstenedione treatment increased serum estradiol levels three-fold (P < 0.001) and decreased (P < 0.05) villous cytotrophoblast Ang-1 mRNA to a level (0.36 +/- 0.08 relative to 18S rRNA) that was one-third of that in untreated animals (0.98 +/- 0.26). Within 2 hr of estradiol administration, cytotrophoblast Ang-1 mRNA was decreased to a level (0.24 +/- 0.05) one-fifth (P < 0.05) of that in untreated animals (1.14 +/- 0.23). However, Ang-2 mRNA levels were unaltered. Ang-1, Ang-2 and estrogen receptors alpha and beta protein were localized within villous cytotrophoblasts providing a mechanism for estrogen action at this site. In summary, estrogen increased VEGF, decreased Ang-1, and had no effect on Ang-2 expression within placental cytotrophoblasts during early baboon pregnancy. We propose that the estrogen-dependent differential regulation of these angioregulatory factors underpins the unique pattern of neovascularization established within the villous placenta during primate pregnancy.