Proteomics analysis of human amniotic fluid

Amniotic fluid is a dynamic and complex mixture that reflects the physiological status of the developing fetus. In this study, the human amniotic fluid (AF) proteome of a 16-18-week normal pregnancy was profiled and analyzed to investigate the composition and functions of this fluid. Due to the complexity of AF, we utilized three different fractionation strategies to provide greater coverage. Two types of two-dimensional LC/MS/MS as well as an LC-SDS-PAGE-LC-MS/MS platform were used. A total of 16 AF samples between gestational ages of 16 and 18 weeks from women carrying chromosomally normal fetuses were analyzed by one of the three fractionation methods followed by a common reverse phase LC-MS/MS step. Mascot and The Global Proteome Machine engines were used to search the International Protein Index human database for peptide sequence identification. The list of proteins was generated by combining the results of both engines through the PeptideProphet of Scaffold software. All identified proteins were combined to generate the AF proteome comprising 1,026 unique gene matches or 842 non-redundant proteins. This list includes most of the currently used biomarkers for pregnancy-associated pathologic conditions such as preterm delivery, intra-amniotic infection, and chromosomal anomalies of the fetus. The subcellular localization, tissue expression, functions, and networks of the AF proteome were analyzed by various bioinformatic tools. These data will contribute to the better understanding of amniotic fluid function and to the discovery of novel biomarkers for prenatal diagnosis of fetal abnormalities.     

Stem cells in human amniotic fluid

Amniotic fluid (AF) contains a heterogeneous population of cells of fetal origin in which stem cells are present. These cells are characterized by the expression of mesenchymal (CD73, CD90, CD105) and neural (Nestin, β3-tubulin, NEFH) markers, and also some markers of pluripotency (Oct4, Nanog), and they are capable of differentiating into diverse derivatives in vitro. We have shown that epithelial markers (Keratin 19, Keratin 18, and p63) are expressed in AF stem cells simultaneously with mesenchymal ones. During cloning, colonies of cells with fibroblastoid and epithelioid cells are formed. The status and differentiation potential of stem cells from AF have been discussed.     

Effect of centrifugation on amniotic fluid phospholipid composition.

The first step in the determination of phospholipid in amniotic fluid is generally the removal of cells and debris from the fluid by centrifugation. Low-speed centrifugation of the supernatant is reported to have the same phospholipidic profile and L/S, PG/S and PI/S ratios similar to those of the uncentrifuged amniotic fluid sample. With high-speed centrifugation almost all the pulmonary surfactant seems to be recovered in pellet with the same characteristics as the uncentrifuged amniotic fluid.     

Occurrence of soluble glycosyltransferases in human amniotic fluid

Human amniotic fluid obtained by amniocentesis during the third trimester of pregnancy was found to contain glycosyltransferases for the transfer of galactose, N-acetylgalactosamine, N-acetylglucosamine and sialic acid from their nucleotide derivatives to various exogenous protein and small molecular weight acceptors. The specific activity of the galactosyl- and N-acetylgalactosaminyl transferases was found to be 30 to 40 times higher in amniotic fluid as compared to serum. The specific activity of N-acetylglucosaminyl- and sialyl transferases was only 3 to 6 fold higher in amniotic fluid.     

Glycosaminoglycan composition of anguilliform and elopiform leptocephali

Whole-body glycosaminoglycan (GAG) composition of leptocephalous larvae was studied in eight eel (Anguilliformes) species, representing five different families (Congridae, Moringuidae, Muraenidae, Nettastomatidae and Ophichthidae) and the bonefish (Elopiformes: Albulidae: Albula vulpes ). The extracted GAGs were identified by cellulose acetate electrophoresis, using standard GAGs as a reference, and by their susceptibility to GAG-degrading enzymes (keratanase, chondroitinase ABC, chondroitinase AC and testicular hyaluronidase). The principal GAG in bonefish larvae was keratan sulphate. However, keratan sulphate was not the main GAG in any of the eel leptocephali studied, althoughit was present in small amounts in most species. The identities of the principal GAGs in eel leptocephali are still unknown, but the most likely possibilities include hyaluronic acid, chondroitin, and chrondroitin sulphate. In addition, a high degree of variability existed in the total amount of GAG that could be extracted from the different eel species and in the electrophoretic migration patterns of the extracted GAGs. Although a basic similarity is thought to exist in the body plan and developmental strategy of all leptocephali, the present results indicate that the GAG composition of the gelatinous body matrix is variable.     

Maternal dehydration: impact on ovine amniotic fluid volume and composition

Maternal dehydration consistent with mild water deprivation or moderate exercise results in maternal and fetal plasma hyperosmolality and increased plasma arginine vasopressin (AVP). Previous studies have demonstrated a reduction in fetal urine and lung fluid production in response to maternal dehydration or exogenous fetal AVP. As fetal urine and perhaps lung liquid combine to produce amniotic fluid, maternal dehydration may affect the amniotic fluid volume and/or composition. In the present study, six chronically-prepared pregnant ewes with singleton fetuses (128 +/- 1 day) were water deprived for 54 h to determine the effect on amniotic fluid. Maternal plasma osmolality (306.5 +/- 0.9 to 315.6 +/- 1.9 mOsm/kg) and AVP (1.9 +/- 0.2 to 22.2 +/- 3.2 pg/ml) significantly increased during dehydration. Similarly, fetal plasma osmolality (300.0 +/- 0.9 to 312.7 +/- 1.7 mOsm/kg) and AVP (1.4 +/- 0.1 to 10.4 +/- 2.4 pg/ml) increased in parallel to maternal values. Amniotic fluid osmolality (276.8 +/- 5.7 to 311.6 +/- 6.5 mOsm/kg) and sodium (139.8 +/- 4.8 to 154.0 +/- 5.4 mEq/l) and potassium (9.1 +/- 1.3 to 13.9 +/- 2.4 mEq/l) concentrations increased while a significant (35%) reduction in amniotic fluid volume occurred (871 +/- 106 to 520 +/- 107 ml). These results indicate that maternal dehydration may have marked effects on maternal-fetal-amniotic fluid dynamics, possibly contributing to the development of oligohydramnios.     

In vitro survival of campylobacters in human amniotic fluid

Human amniotic fluids supported growth of Campylobacter fetus subsp. fetus, C. jejuni and C. coli. Campylobacters remained viable for up to 11–12 weeks in amniotic fluid.     

Nerve growth factor in human amniotic and cerebrospinal fluid

Nerve growth factor (NGF) is a polypeptide hormone involved in development of the sympathetic and central nervous systems. The detection and measurement of NGF in clinical samples would be useful in evaluating its role in various disease states. In this report, NGF activity and protein levels have been investigated in human amniotic fluid and cerebrospinal fluid samples. In amniotic fluid, NGF activity was found at levels ranging from less than 10 pM to nanomolar. The activity in all samples was blocked by polyclonal and monoclonal antibodies to mouse NGF. The finding of NGF in clinically obtainable samples raises the possibility of correlating NGF levels with a variety of disorders in which changes in NGF levels or activity have been implicated.     

Structure of the carbohydrate units of human amniotic fluid fibronectin

Human amniotic fluid fibronectin was found to contain three types of carbohydrates: complex-type N-glycosidic glycans, lactosaminoglycans, and O-glycosidic glycans. The structures of the complex-type glycans were established by carbohydrate and methylation analysis, Smith degradation, sequential exoglycosidase treatments, lectin chromatography, and DEAE-Sephadex chromatography. Lactosaminoglycans were analyzed by fast atom bombardment mass spectrometry, and the O-glycosidically-linked oligosaccharides by gas-liquid chromatography-mass spectrometry and high-pressure liquid chromatography. The results show that amniotic fluid fibronectin contains 2 mol of biantennary and 2-3 mol of triantennary, complex-type N-glycosidic glycans. Unlike the N-glycosidic glycans of human adult plasma fibronectin, which contain only traces of fucose and are completely sialylated, the glycans from amniotic fluid fibronectin are fucosylated and only partially sialylated. The complex-type N-glycosidic glycans present in amniotic fluid fibronectin also include a fractional amount (0.1 mol) of glycans with a polylactosaminyl structure. In addition, 4 mol of O-glycosidic oligosaccharides, which have not previously been described in fibronectins, were found in amniotic fluid fibronectin. The major oligosaccharides in this fraction have the structures Gal beta 1----3GalNAcol, NeuNAc alpha 2----3Gal beta 1----3GalNAcol and NeuNAc alpha 2----3Gal beta 1----3(NeuNAc alpha 2----6)GalNAcol. O-glycosidically linked oligosaccharides were also detected in human adult plasma fibronectin but in smaller amounts than in amniotic fluid fibronectin. These results show that amniotic fluid fibronectin differs from plasma fibronectin with regard to the number of glycans attached to the polypeptide and that the glycans present in these two fibronectins differ in structure.     

Charge properties of human pituitary and amniotic fluid prolactins.

The apparent isoelectric points (pI) in isoelectric focusing (IF) of human pituitary and amniotic fluid prolactin (hPRL), both non-iodinated and iodinated, were determined. Unresolved mixtures of pituitary hPRL isohormones E and F, and of at least five isohormones found in amniotic fluid, and plasma hPRL exhibit an average pI value of 6.5 - 6.7. Transient state pH values observed or previously reported for hPRL components range from pH 5.9 to 6.8 after correction to standard conditions. At pH 8.1, the major isohormone, hPRL-F, carriers a charge of 2.2 net protons per molecule. The net charge differences among isohormones E, F and G are compatible with acquisition or loss of single charged groups per 20,000 molecular weight. This net charge is similar to that of the least prolactin-bioactive major isohormone of human growth hormone (hGH-B), while the hGH with a bioactivity comparable to that of hPRL exhibits a net charge of 3.4 valence units. The "large" isohormones J and H increased net charges, by a factor of 2-3, in direct proportion to their size increments.     

Gas chromatographic determination of E prostaglandins in human amniotic fluid

A simple procedure is described for the extraction and purification of prostaglandins from amniotic fluid. Combined with gas chromatography with electron-capture detection, this provides a rapid and specific method for the determination of PGE in human amniotic fluid.     

Characterization of hCG regulation in cultured human amniotic fluid cells

Summary We showed previously that sodium butyrate stimulated human chorionic gonadotropin (hCG) measured by radioimmunoassay of medium from human second trimester amniotic fluid cell cultures, termed AF cells. We now find that stimulation of hCG in the presence of sodium butyrate takes as long as 20 h. When AF cells are preincubated with sodium butyrate, hCG levels increase in direct relation to length of the preincubation period. These findings suggest that elevation of hCG is not due merely to a release of hormone from the cells. Addition of cycloheximide or Actinomycin D inhibited protein synthesis and RNA synthesis, respectively, and prevented the stimulation of hCG by sodium butyrate. These results lend support for a mechanism of regulation involving protein and RNA synthesis, the increase in hCG levels being due to new synthesis of the hormone. Other agents reported to influence hCG production by different types of cell cultures include dibutyryl cyclic AMP, epidermal growth factor (EGF), methotrexate, and hydroxyurea. Dibutyryl cyclic AMP and EGF have no effect on hCG production in our AF cells: methotrexate causes a minimal increase, hydroxyurea causes a further increase, but sodium butyrate has the strongest stimulatory effect. We conclude that amniotic fluid cells in culture are susceptible to environmental agents capable of modulating synthesis of hCG by mechanisms involving synthesis of RNA and protein. Research supported by Grant HD 11379 from the National Institutes of Health.     

Biosynthesis of the cancer-associated sialyl-Lex determinant in human amniotic fluid

Biosynthesis of the sialyl-Lex determinant (NeuAc alpha 2-3Gal beta 1-4(Fuc alpha 1-3)-GlcNAc beta 1-3-R) in human amniotic fluid has been shown to proceed via the same sequence of glycosylation steps established previously for lung carcinoma PC 9 cells (Holmes, E. H., Ostrander, G.K. & Hakomori, S. (1986) J. Biol. Chem. 261, 3737-3743): sialylation of type-2-chain-precursor substrates (paragloboside) by an amniotic alpha 2-3-sialyltransferase precedes fucosylation of sialylated intermediates (sialosyl paragloboside) by an organ-characteristic alpha 1-3-L-fucosyltransferase.     

The measurement of phosphatidate phosphohydrolase in human amniotic fluid.

Phosphatidate phosphohydrolase (EC 3.1.3.4) activity can be found in late gestational human amniotic fluid and is thought to originate in type II alveolar cells of the fetal lungs where it plays an important role in lung surfactant synthesis. In the present study, phosphatidate phosphohydrolase activity was detected and characterized in a 105 000 X g pellet of amniotic fluid using either [32P]phosphatidate or a water-soluble analog, 1-O-hexadecyl-rac-[2-(3)H]glycerol 3-phosphate as substrate. With either substrate, enzyme activity was optimal at pH 6.0. The soluble analog was hydrolyzed with a Km value of 163 micrometer and a V of 30 nmole/min per mg of protein, and offered several advantages over phosphatidate as a substrate for assaying phosphatidate phosphohydrolase in amniotic fluid. Using the synthetic analog, phosphatidate phosphohydrolase activity was measured in the 700 X g supernatant fraction of 30 human amniocentesis samples and compared with another index of fetal lung maturity, the phosphatidylcholine/sphingomyelin ratio. The results suggest that the new phosphohydrolase assay may be clinically useful in the assessment of fetal lung development.