Lipid Rafts and Cytoskeletal Proteins in Placental Microvilli Membranes from Preeclamptic and IUGR Pregnancies

Intrauterine growth restriction (IUGR) and preeclampsia (PE) are leading causes of perinatal and maternal morbidity and mortality. Previously we reported the expression of lipid rafts in classical microvillous membrane (MVM) and light microvillous membrane (LMVM), two subdomains in apical membrane from the human placental syncytiotrophoblast (hSTB), which constitute the epithelium responsible for maternal–fetal transport. Here the aim was to study the raft and cytoskeletal proteins from PE and IUGR. Microdomains from MVM and LMVM were tested with raft markers (placental alkaline phosphatase, lipid ganglioside, and annexin 2) and a nonraft marker (hTf-R). No changes were detected with those markers in whole purified apical membranes in normal, PE, and IUGR pregnancies; however, their patterns of distribution in lipid rafts were different in PE and IUGR. Cholesterol depletion modified their segregation, confirming their presence in lipid rafts, although unlike normal placenta, in these pathologies there is only one type of microdomain. Additionally, the cytoskeleton proteins actin, ezrin, and cytokeratin-7 showed clear differences between normal and pathological membranes. Cytokeratin-7 expression decreased to 50% in PE, and the distribution between LMVM and MVM (~43 and 57%, respectively) changed in both PE and IUGR, in contrast with the asymmetrical enrichment obtained in normal LMVM (~62%). In conclusion, lipid rafts from IUGR and PE have different features compared to rafts from normal placentae, and this is associated with alterations in the expression and distribution of cytoskeletal proteins.     

Proteome Differences in Placenta and Endometrium between Normal and Intrauterine Growth Restricted Pig Fetuses

Uteroplacental tissue plays a key role in substance exchanges between maternal and fetal circulation, and, therefore, in the growth and development of fetuses. In this study, proteomics and western blotting were applied to investigate the changes of proteome in the placenta and endometrium of normal and intrauterine growth restriction (IUGR) porcine fetuses during mid to late pregnancy (D60, 90, and 110 of gestation). Our results showed that proteins participating in cell structure, energy metabolism, stress response, cell turnover, as well as transport and metabolism of nutrients were differentially expressed in placenta and endometrium between normal and IUGR fetuses. Analysis of functions of these proteins suggests reductions in ATP production and nutrients transport, increases in oxidative stress and apoptosis, and impairment of cell metabolism in IUGR fetuses. Collectively, our findings aid in understanding of the mechanisms responsible for uteroplacental dysfunction in IUGR fetus, and are expected to provide new strategies to reduce fetal growth restriction in pigs and other mammals.     

Establishing the Proteome of Normal Human Cerebrospinal Fluid

Background

Knowledge of the entire protein content, the proteome, of normal human cerebrospinal fluid (CSF) would enable insights into neurologic and psychiatric disorders. Until now technologic hurdles and access to true normal samples hindered attaining this goal.

Methods and Principal Findings

We applied immunoaffinity separation and high sensitivity and resolution liquid chromatography-mass spectrometry to examine CSF from healthy normal individuals. 2630 proteins in CSF from normal subjects were identified, of which 56% were CSF-specific, not found in the much larger set of 3654 proteins we have identified in plasma. We also examined CSF from groups of subjects previously examined by others as surrogates for normals where neurologic symptoms warranted a lumbar puncture but where clinical laboratory were reported as normal. We found statistically significant differences between their CSF proteins and our non-neurological normals. We also examined CSF from 10 volunteer subjects who had lumbar punctures at least 4 weeks apart and found that there was little variability in CSF proteins in an individual as compared to subject to subject.

Conclusions

Our results represent the most comprehensive characterization of true normal CSF to date. This normal CSF proteome establishes a comparative standard and basis for investigations into a variety of diseases with neurological and psychiatric features.     

Comparative N-Glycoproteomic and Phosphoproteomic Profiling of Human Placental Plasma Membrane between Normal and Preeclampsia Pregnancies with High-Resolution Mass Spectrometry

Preeclampsia is a serious complication of pregnancy, which affects 2–8% of all pregnancies and is one of the leading causes of maternal and perinatal mortality and morbidity worldwide. To better understand the molecular mechanisms involved in pathological development of placenta in preeclampsia, we used high-resolution LC-MS/MS technologies to construct a comparative N-glycoproteomic and phosphoproteomic profiling of human placental plasma membrane in normal and preeclamptic pregnancies. A total of 1027 N-glyco- and 2094 phospho- sites were detected in human placental plasma membrane, and 5 N-glyco- and 38 phospho- proteins, respectively, with differentially expression were definitively identified between control and preeclamptic placental plasma membrane. Further bioinformatics analysis indicated that these differentially expressed proteins correlate with several specific cellular processes occurring during pathological changes of preeclamptic placental plasma membrane.     

Angiogenic Expression Profile of Normal and Neurofibromin-Deficient Human Schwann Cells

Peripheral nerve sheath tumors from individuals with Neurofibromatosis Type 1 (NF1) are highly vascular and contain Schwann cells which are deficient in neurofibromin. This study examines the angiogenic expression profile of neurofibromin-deficient human Schwann cells relative to normal human Schwann cells, characterizing both pro-angiogenic and anti-angiogenic factors. Conditioned media from neurofibromin-deficient Schwann cell lines was pro-angiogenic as evidenced by its ability to stimulate endothelial cell proliferation and migration. Using gene array and protein array analysis, we found increased expression of pro-angiogenic factors and decreased expression of anti-angiogenic factors in neurofibromin-deficient Schwann cells relative to normal human Schwann cells. Neurofibromin-deficient Schwann cells also showed increased expression of several growth factor receptors and decreased expression of an integrin. We conclude that neurofibromin-deficient Schwann cells have dysregulated expression of pro-angiogenic factors, anti-angiogenic factors, growth factor receptors, and an integrin. These dysregulated molecules may contribute to the growth and progression of NF1 peripheral nerve sheath tumors.     

Embryonic miRNA Profiles of Normal and Ectopic Pregnancies

Our objective was to investigate the miRNA profile of embryonic tissues in ectopic pregnancies (EPs) and controlled abortions (voluntary termination of pregnancy; VTOP). Twenty-three patients suffering from tubal EP and twenty-nine patients with a normal ongoing pregnancy scheduled for a VTOP were recruited. Embryonic tissue samples were analyzed by miRNA microarray and further validated by real time PCR. Microarray studies showed that four miRNAs were differentially downregulated (hsa-mir-196b, hsa-mir-30a, hsa-mir-873, and hsa-mir-337-3p) and three upregulated (hsa-mir-1288, hsa-mir-451, and hsa-mir-223) in EP compared to control tissue samples. Hsa-miR-196, hsa-miR-223, and hsa-miR-451 were further validated by real time PCR in a wider population of EP and control samples. We also performed a computational analysis to identify the gene targets and pathways which might be modulated by these three differentially expressed miRNAs. The most significant pathways found were the mucin type O-glycan biosynthesis and the ECM-receptor-interaction pathways. We also checked that the dysregulation of these three miRNAs was able to alter the expression of the gene targets in the embryonic tissues included in these pathways such as GALNT13 and ITGA2 genes. In conclusion, analysis of miRNAs in ectopic and eutopic embryonic tissues shows different expression patterns that could modify pathways which are critical for correct implantation, providing new insights into the understanding of ectopic implantation in humans.     

Urinary Estriol Estimations in Normal and Abnormal Pregnancies

Urinary estriol estimations from 24-hour urine specimens were studied in 65 women in the course of normal pregnancies and compared to 18 analyses in women in whom fetal death had occurred. There is a significant difference in the levels of estriol excretion between these two categories. Serial studies were carried out on patients whose pregnancies ended in normal delivery and in patients whose pregnancies were complicated by eclampsia and by hypertension of various degrees of severity. A definite correlation between urinary estriol excretion and the health of the fetus in utero was found. The information that these estimations provide can be of assistance to the clinician in the management of selected patients where the fetus is in danger prior to delivery.     

规模化蛋白质组表达谱的研究进展及其挑战

介绍了规模化蛋白质组表达谱研究的基本技术和方法,简要概述了部分已完成基因组测序的生物体的蛋白质组表达谱研究进展．分析了上述研究所面临的问题和挑战。     

Comparative Analysis of Proteome and Transcriptome in Human Hepatocellular Carcinoma using 2D-DIGE and SAGE

Proteome analysis of human hepatocellular carcinoma was conducted using two-dimensional difference gel electrophoresis, and the protein expression profiles were compared to the mRNA expression profiles made from serial analysis of gene expression (SAGE) in identical samples from a single patient. Image-to-image analysis of protein abundances together with protein identification by peptide mass fingerprinting yielded the protein expression profiles. A total of 188 proteins were identified, and the expression profiles of 164 proteins which had the corresponding SAGE data were compared to the mRNA expression profiles. Among them, 40 proteins showed significant differences in the mRNA expression levels between non HCC and HCC. We compared expression changes of proteins with those of mRNAs. We found that the expression tendency of 24 proteins were similar to that of mRNA, whereas 16 proteins showed different or opposite tendency to the mRNA expression.     

Kinetic Behavior of Native Alkaline Phosphatase from Human Placenta

The kinetic behavior of human placental alkaline phosphatase, which catalyses the hydrolysis of p-nitrophenyl and of o-carboxyphenyl phosphates, was studied by means of graphical and non-linear regression statistical fitting analysis of data of rate versus substrate concentration. Non linear Lineweaver-Burk and Eadie-Hofstee plots and rational functions of degree 2:2 (F-test assessing the goodness of fit) show non-Michaelian kinetic behavior. In the same way, the behavior of the enzyme was also non-Michaelian in the simultaneous presence of these two substrates.

Norlaudanosoline is a key intermediate in the biosynthesis of the benzylisoquinoline alkaloids providing the benzyl-isoquinoline portion of the morphinan skeleton. This study examines a coupled reaction system for the production of norlaudanosoline from dopamine. In this coupled system, dopamine is enzymatically converted by monoamine oxidase (MAO) to 3,4-dihydroxyphenylacetaldehyde (dopaldehyde). In the presence of dopamine, this aldehyde undergoes a spontaneous Pictet-Spengler condensation to form norlaudanosoline. Three potential sources of MAO were investigated: a fungal source (Aspergillus niger), a bacterial source (Sarcina lutea) and a commercial source isolated from bovine plasma. Kinetic studies with dopamine as the substrate gave Michaelis constants (K_m) of 1.81 × 10^-5 M, 6.94 × 10^-3, and 1.61 × 10^-3 M for A. niger, S. lutea and bovine plasma oxidase, respectively. The reaction system is complicated because of the effect of the condensation reaction, so a more rigorous model was developed to account for this effect. The model was suitable for showing the effect of dopamine concentration on norlaudanosoline production alghough there were some model inadequacies. Using the model a forward rate constant for the Pictet-Spengler condensation was determined to be 6.8 × 10^-2 M^-1 s^-1 and the reverse reaction appears to be negligible. Overall conversion was 14% which is 20 times that achieved in an in situ reaction system using whole cells of Aspergillus niger.     

Purification and Partial Characterization of the Phosphoglucomutase Isozyhes from Human Placenta

We have developed a simple procedure for the purification of phosphoglucomutase (PGM) isozymes from human placenta of healthy women. The technique involves the ammonium sulfate fractionation, ion-exchange and dye-ligand chromatographies. By this method we obtained homogeneous isozyme preparations of the products (“primary” and “secondary”) of the two PGM¹ and PGM² loci. The final specific activities were 1134.6–1441.8 units/mg for PGM¹ forms and 40.2–46.5 units/mg for PGM² forms. On SDS-polyacrylamide gel electrophoresis analysis, the final preparations gave a single protein band of 58,500 and 69,000 Mr for PGM¹ and PGM² isozymes, respectively. These forms have the same kinetic properties, but from the substrate specificity experiments we have found that PGM² forms are more effective for catalyzing the phosphoribomutase and glucose 1,6-bisphosphate synthase reaction than PGM¹ forms. All these properties are shared by the same isozymes previously isolated from human erythrocytes but in this procedure the use of human placenta for the PGM isozymes purification takes advantage of high specific activity of PGM in the extracts of this tissue as well as obtaining highly homogeneous protein suitable for studies at molecular level.     

17b-Estradiol and Tamoxifen Regulate a Maxi-Chloride Channel from Human Placenta

Steroid hormones have been implicated in the modulation of several transport processes, including conductive chloride transport in epithelial cells. Micromolar concentrations of these hormones have been determined in blood of pregnant women. The purpose of this work was to explore the effects of 17beta-Estradiol, a steroid hormone, on the biophysical properties of the Maxi chloride channel present in apical membranes from human placental syncytiotrophoblast. Apical membrane chloride channels from human term placentas were reconstituted in giant liposomes suitable for electrophysiologic studies by the patch-clamp method. Low micromolar concentrations of 17beta-Estradiol inhibit the Maxi chloride channels in excised patches in a potential-dependent manner. The addition of 1 mM 17beta-Estradiol to the bath solution decreased the total current in the patch from 100% control to 71% at -40 mV holding potential and the current was not affected by 17beta-Estradiol at + 40 mV. However, the presence of the hormone did not affect the single-channel conductance, therefore its effect must be due to modulation of its open probability (Po). Interestingly, 17alpha-Estradiol did not change the total current in the patch. Tamoxifen, an antiestrogen, also showed inhibition, but in a voltage-independent manner. Our results suggest that the Maxi Cl- channel from human term placenta may be regulated by direct interaction of both compounds with the channel. From a functional point of view, the control of these channels by steroid hormones may be of great importance in placental physiology and their regulation may help to unravel their possible role in transplacental transport.     

A Comparative Analysis of Embryo and Endosperm Proteome from Seeds of Jatropha curcas

Jatropha curcas is an important economic plant for biodiesel, which is extracted mainly from the endosperm of its mature seeds. Despite the morphological and functional differences between the embryo and endosperm, proteomic characteristics of the two tissues are not yet known. Similar proteomic profiles were observed in the two-dimensional gel electrophoresis maps from the two tissues. There were 380 and 533 major protein spots in the embryo and endosperm, respectively. Fourteen identical spots, showing a notable change, were selected and identified by tandem mass spectrometry. Among these proteins, dihydrolipoamide acetyltransferase （spot 27） participates in tricarboxylic acid cycle, which is an amphibolic pathway. The two parts both included proteins related to stress （spots 8, 115, 118, 125, 130） and signal transduction （spots 7, 100, 108）. According to the volume percentage of proteins in embryo and endosperm, the proteins in endosperm （spots 54, 61, 73） were catabolism-related enzymes and reserves to provide the nutrition for seed germination; the proteins in embryo （spots 27, 62, 122） were inclined to anabolism and utilized the nutrition from the endosperm to generate a new life.