The effect of fetal hypophysectomy and fetal death in gilts with small litters on concentrations of relaxin,progesterone and estradiol-17β

During late pregnancy concentrations of relaxin, progesterone (P) and estradiol-17β (E) in maternal plasma were measured in gilts with small litters of intact, hypophysectomized, partially hypophysectomized or dead fetuses and in gilts with litters of normal fetuses and numbers. To achieve a small litter size at parturition all but one or two fetuses were killed at surgery at Day 30 to 40 of gestation. Fetal hypophysectomy or sham procedures were attempted on Day 90 to 95. Gestation was prolonged in gilts carrying hypophysectomized or partially hypophysectomized fetuses (P<0.01). Lactation and farrowing did not occur if hypophysectomy was complete. Basal concentrations of E in plasma were lower (P<0.01), basal P appeared higher and basal relaxin was unchanged in gilts carrying hypophysectomized or dead fetuses as compared to gilts with intact fetuses. Near the end of pregnancy the concentration of E was 119.8 pg/ml in gilts with the normal number of fetuses, 32.6 pg/ml in the group with hypophysectomized fetuses, and 7.3 pg/ml in gilts with dead fetuses. The relaxin peak occurred near term in control pigs and was delayed in the groups with hypophysectomized and partially hypophysectomized fetuses. The concentration of relaxin at the peak in gilts with normal sized litters was 181.4±75.8 ng/ml as compared with 25.3±16.0 ng/ml in gilts with partially hypophysectomized fetuses and was 9.5±1.4 ng/ml in gilts with hypophysectomized fetuses and 10.6±3.3 ng/ml in gilts with one or two fetuses. In gilts with intact or partially hypophysectomized fetuses, or litters containing both types, which came into labor, the patterns of P and E were similar. In gilts with hypophysectomized fetuses, P and E at term showed little change from basal concentrations. The results confirm that the fetus influences basal concentrations of E and possibly P in late normal gestations. In addition, the presence of the fetal pituitary is associated with the peak in relaxin expected at term. These associations are likely to be related to pituitary function and/or the mass of the conceptus. Fetal hypophysectomy is clearly associated with maternal concentrations of P and E at Day 114 that are different from those in normal sows, suggesting that these two hormones may have an effect on the initiation of parturition in the pig.     

The role of pleiotrophin and β-catenin in fetal lung development

Mammalian lung development is a complex biological process, which is temporally and spatially regulated by growth factors, hormones, and extracellular matrix proteins. Abnormal changes of these molecules often lead to impaired lung development, and thus pulmonary diseases. Epithelial-mesenchymal interactions are crucial for fetal lung development. This paper reviews two interconnected pathways, pleiotrophin and Wnt/β-catenin, which are involved in fibroblast and epithelial cell communication during fetal lung development.     

Molecular screening and fetal diagnosis of β-thalassemia in the Italian population

Summary This paper reports our experience of molecular screening and fetal diagnosis of -thalassemia in 457 at risk couples of Italian descent. Molecular screening was carried out by dot blot analysis on amplified DNA with oligonucleotide probes complementary to the eight most common mutations in Italians [39 (CT); 6 (-A); ⁺-87 (CG); ⁺ IVSI nt 110 (GA); IVSI nt 1 (GA); ⁺ IVSI nt 6 (TC); IVSII nt 1 (GA); ⁺ IVSII nt 745 (CG)]. By using this approach, we have been able to define the mutation in 92.8% of cases. The rest (all but four) were defined by direct sequencing and this led to the detection of nine rare mutations [76 (-C); ⁺ IVSI nt 5 (GA); ⁺ IVSI nt 5 (GC); ⁺ IVSI -1 (cod 30) (GC); ⁺-87 (CT), -290 bp del.; ⁺-101 (CT)], and to the characterization of a novel mutation consisting of the deletion of the G at the invariant AG of the IVSII splice acceptor site of the -globin gene ( IVSII nt 850-1 bp). In the remaining four cases, the -globin gene showed entirely normal sequences and the -globin gene cluster was intact, as indicated by Southern blot analysis. Fetal diagnosis was carried out by dot blot analysis with the oligonucleotide probes defined in the parents. The procedure is simple and reliable, and the results can be obtained within 1 week of sampling. No misdiagnosis has so far occurred. The results indicate that fetal diagnosis of -thalassemia by DNA analysis may be obtained in practically all cases (even in a population showing marked heterogeneity of -thalassemia) by the combination of dot blot analysis for detecting common mutations, and direct sequencing for defining those that are uncommon.     

Tissue distribution of the laminin β1 and β2 chain during embryonic and fetal human development

Laminins are the major glycoproteins present in all basement membranes. Previously, we showed that perlecan is present during human development. Although an overview of mRNA-expression of the laminin β1 and β2 chains in various developing fetal organs is already available, a systematic localization of the laminin β1 and β2 chains on the protein level during embryonic and fetal human development is missing. Therefore, we studied the immunohistochemical expression and tissue distribution of the laminin β1 and β2 chains in various developing embryonic and fetal human organs between gestational weeks 8 and 12. The laminin β1 chain was ubiquitously expressed in the basement membrane zones of the brain, ganglia, blood vessels, liver, kidney, skin, pancreas, intestine, heart and skeletal system. Furthermore, the laminin β2 chain was present in the basement membrane zones of the brain, ganglia, skin, heart and skeletal system. The findings of this study support and expand upon the theory that these two laminin chains are important during human development.     

Caffeine and reduction of fetal ossification in the rat: fact or artifact?

This study was done to determine the gestational period during which the rat fetus is susceptible to reduction of skeletal ossification by caffeine. Caffeine, 100 mg/kg/day by gavage, caused the greatest reduction in ossification, as assessed by staining with alizarin red S, in fetuses exposed between day 16 to 19 of gestation, less in those treated between day 7 to 19, and markedly less in those receiving it between day 7 to 16; a single dose on day 19 had very little effect. This indicates that the fetus is most susceptible late in pregnancy. Bones in early stages of mineralization on day 20 showed a greater reduction in staining than those in later stages. Thus, caffeine appears to lower the rate of ossification rather than reduce its final extent. In the day 7 to 19 caffeine treatment group, but not in the day 16 to 19 group, maternal and fetal body weights were reduced, and 1.6% of the fetuses had aphalangia. The day 7 to 16 caffeine treatment reduced fetal body weight. This argues against an association between reduction in fetal weight and ossification. None of the treatments affected rates of resorption or litter size. A novel and important observation made is that the different caffeine treatments affected the staining by alizarin of both claws and bones in a qualitatively and quantitatively similar manner. Since claws are devoid of osteoid, this observation questions the specificity of alizarin for the assessment of the state of fetal ossification and raises doubt as to the significance of the observed action of caffeine on ossification.     

Absence of messenger RNA and gene DNA for β-globin chains in hereditary persistence of fetal hemoglobin

The relative amounts of α- and β-globin mRNA and globin gene DNA were measured in reticulocyte RNA and lymphocyte DNA of an individual with homozygous hereditary persistence of fetal hemoglobin whose red blood cells contain 100% fetal hemoglobin (Hb F: α₂γ₂). Molecular hybridization assays used as probes full-length DNA copies of human α- and β-globin messenger RNA. The results of these hybridization assays demonstrated the expected amounts of α-globin mRNA and gene DNA, but absence of β-globin mRNA and absence of β-globin gene DNA. In the individual studied, hereditary persistence of fetal hemoglobin is associated with total deletion of the β-globin structural gene.     

Cotranslation of L and L′ pyruvate kinase messenger RNAs from human fetal liver

Human fetal liver RNA translated in a rabbit reticulocyte cell-free system directed synthesis of two polypeptides which could be identified by immunological competition as L and L′ pyruvate kinase subunits. Messenger RNAs specifying synthesis of both types of subunits exhibited a sedimentation coefficient of 21–22 S.     

Detection of fetal RHD pseudogene (RHDΨ) and hybrid RHD-CE-Ds from RHD-negative pregnant women with a free DNA fetal kit

Hemolytic disease of the newborn is a clinical condition in which maternal and paternal Rh blood group antigens are incompatible and the mother is negative for the antigen whereas the father is positive. Analysis of fetal cells recovered from maternal plasma can provide a highly sensitive prenatal diagnosis. The fetal RHD gene in plasma DNA is detected by real-time PCR amplification of two different segments of the RHD gene (exons 7 and 10). Each amplicon is revealed with specific probes. We examined 40 female blood samples to verify the specificity of RHD exons (7 and 10) amplified by real-time PCR. Thirty fetuses were predicted to be RHD-positive based on analysis of plasma DNA. Seven fetuses were predicted to be RHD-negative. One fetus was negative for RHD on exon 10, and positive for RHD on exon 7 (early gestation age); two fetuses were RHD-negative on exon 7, and RHD-positive on exon 10 (RHD-CE-D(s) or RHDΨ), indicative of a maternal RHD allele. We conclude that it is necessary to analyze at least two exon regions in the RHD gene.     

The vγ chain of fetal hemoglobin of the orangutan

Previous studies suggested that orangutans have nonallelic structural genes for their γ chains, because either a threonyl or an alanyl residue may occupy position 135. Further investigation has now detected that position 75 may have either an isoleucyl or a valyl residue. From available evidence, the isoleucyl and threonyl residues are in one chain and the valyl and alanyl in the other. Orangutans appear to be homozygous for the two types of nonallelic genes.     

Involvement of signaling of VEGF and TGF-β in differentiation of sinusoidal endothelial cells during culture of fetal rat liver cells

Embryonic development of the liver is closely associated with vascular organization. However, little is known about the mechanisms of vascular differentiation during liver development. Our previous study showed that the maturation of sinusoidal endothelial cells (SECs) occurred during embryonic day 13.0 (E13.0) to E15.0. To improve our understanding of SEC differentiation, we examined here the expression of maturation markers, SE-1 and stabilin-2, in fetal livers and also attempted to establish an in vitro SEC differentiation system by culturing E13.5 fetal liver cells. Immunohistochemical examination of SE-1 and stabilin-2 expression during fetal rat liver development revealed that these differentiation markers were co-expressed in SECs in the late stage of liver development, although stabilin-2 was expressed in almost all vascular endothelial cells in the early stage. Liver cells from the E13.5 rat fetus were cultured in EBM-2 medium containing vascular endothelial growth factor (VEGF), transforming growth factor β1 (TGF-β1) and VEGF plus SB-431542 (an inhibitor of the TGF-β1 receptor, activin receptor-like kinase 5 [ALK-5]). In vitro SEC differentiation, as indicated by the appearance of cells co-expressing SE-1 and stabilin-2 and of cells with cytoplasmic fenestrae in endothelial sheets, was induced by the addition of both VEGF and SB-431542, an inhibitor of the phosphorylation of Smad2/3 but not that of Smad1/5/8 in the cultured cells. These results indicate for the first time that both VEGF signaling and the blocking of the ALK-5-Smad2/3 signal pathway are important for the fetal differentiation of SECs.     

Comparison of in-vitro and in-vivo response to fetal hemoglobin production and γ-mRNA expression by hydroxyurea in Hemoglobinopathies

BACKGROUND:

Hydroxyurea, which induces Fetal hemoglobin (HbF) synthesis, is the only drug widely used in different hemoglobinopathies; however, the response is very variable. We compared the efficacy of hydroxyurea in-vitro in erythroid cultures and in-vivo in the same patients with different hemoglobinopathies to induce HbF production and enhance γ-messenger RNA expression.

MATERIALS AND METHODS:

A total of 24-patients with different Hemoglobinopathies were given hydroxyurea and their response was studied in-vivo and in-vitro on mononuclear cells collected from them simultaneously.

RESULTS:

A total of 57.7% of patients (responders) showed no further crisis or transfusion requirements after hydroxyurea therapy with a mean increase in fetal cells (F-cells) of 63.8 ± 59.1% and γ-mRNA expression of 205.5 ± 120.8%. In-vitro results also showed a mean increase in F-cells of 27.2 ± 24.7% and γ-mRNA expression of 119.6% ± 65.4% among the treated cells. Nearly 19.0% of the partial-responders reduced their transfusion requirements by 50% with a mean increase in F-cells of 61.2 ± 25.0% and 28.4 ± 25.3% and γ-mRNA-expression of 21.0% ± 1.4% and 80.0% ± 14.1% in-vivo and in-vitro respectively. The non-responders (15.3%) showed no change in their clinical status and there was no significant increase in F-cells levels and γ-mRNA expression in-vivo or in-vitro.

CONCLUSION:

Thus, this method may help to predict the in-vivo response to hydroxyurea therapy; however, a much larger study is required.     

5′-Nucleotidase and adenosine deaminase in developing fetal guinea pig brain and the effect of maternal hypoxia

The activity of key enzymes of adenosine metabolism was studied in the developing fetal guinea pig brain. The activities of 5-nucleotidase and adenosine deaminase were determined in the brains of fetal guinea pigs at 30, 35, 40, 45, 50, 55, and 60 days of gestation. The level of 5-nucleotidase activity was extremely low at 30 and 35 days of gestation but increased rapidly during the 40 to 60 day period. The enzyme activity increased in the presence of Mg²⁺ with the Mg²⁺-dependent activation increasing with the age of gestation. This Mg²⁺-dependent activity was primarily associated with the membrane fraction. Prenatal hypoxia significantly increased the fetal brain M²⁺-independent 5-nucleotidase activity at 45 days of gestational age and beyond. Prior to this age, no effect was evident. Furthermore, following hypoxia, the Mg²⁺-dependent activation of 5-nucleotidase activity was lost. The activity of adenosine deaminase was present at 30 days of gestation and, unlike 5-nucleotidase, it remained at the same level until 60 days. The results indicate that the term fetal guinea pig brain has the enzymatic mechanisms of adenosine metabolism and thus the potential for adenosine-mediated regulation of cerebrovasculature during hypoxia.     

Role of α-glucosidase in fetal lung maturation

The role of lysosomal enzyme acid α-glucosidase in fetal lung development was investigated with the aid of a specific inhibitor, the pseudosaccharide acarbose. The drug was added to a Waymouth culture medium of fetal rat lung expiants cultivated for 48 h from gestational stage 19.5 days, an in vitro system previously shown to allow morphological and biochemical maturation of alveolar epithelium. Glycogenolysis was reduced by 40% as compared with tissue cultivated on control medium, which means that α-glucosidase could account for as much as 40% of fetal lung glycogenolysis, the remaining 60% being presumably achieved by cytosolic phosphorylase and by a microsomal neutral α-glucosidase. By the same time, the increase of phospholipids of surfactant fraction extracted from cultivated expiants was partially inhibited: total and saturated phosphatidylcholine, phosphatidylethanolamine, phosphatidylglycerol and phosphatidylinositol were about 30–40% lower than in lungs cultivated on control medium. It should be emphasized that DNA concentration and increases in non-surfactant phospholipids were unchanged by the drug. α-Glucosidase activity was evidenced in the lysosomal fraction, in the microsomal fraction and, although in lower amounts, in the surfactant fraction extracted from term fetal lung. The results suggest that lysosomal α-glucosidase plays a major role in lung maturation and could facilitate glycogenolysis for the specific use of glycogen stores in providing substrates for surfactant phospholipid biosynthesis.     

Heterogeneity in the molecular basis of three types of hereditary persistence of fetal hemoglobin and the relative synthesis of the Gγ and Aγ types of γ chain

Restriction endonuclease analyses of DNA from one Black ^GA-HPFH homozygote and four Black and one Indian ^GA-HPFH heterozygotes have identified three different HPFH types which are the result of large deletions including the and genes. Two of the types are comparable to those characterized previously, but the third, which is present in the Indian heterozygote, shows a distinct difference in the size of the deletion. The 5 end point of the deletion in this type III ^GA-HPFH extends 0.5–1.0 kb beyond the 5 end point of one of the Black types of HPFH (type I). Each of the three types is associated with a distinct ratio between the ^G and the ^A chains, an observation supported by family data. The highest ratio is found in the heterozygote with the Indian type III ^GA-HPFH, with 69.3% ^G chains, while the averages for the other types were 50.7% ^G (type I) and 32.3% ^G (type II).This research was supported in part by USPHS Research Grants HLB-05168 and HLB-15158 and by designated research funds of the Veterans Administration. This is Contribution 0764 of the Department of Cell and Molecular Biology, Medical College of Georgia, Augusta, Georgia 30912. P. K. Sukumaran was on leave from the Bai Jerbai Wadia Hospital for Children, Parel, Bombay, India.     

IGF2 DNA methylation is a modulator of newborn’s fetal growth and development

The insulin-like growth factor 2 (IGF2) gene, located within a cluster of imprinted genes on chromosome 11p15, encodes a fetal and placental growth factor affecting birth weight. DNA methylation variability at the IGF2 gene locus has been previously reported but its consequences on fetal growth and development are still mostly unknown in normal pediatric population. We collected one hundred placenta biopsies from 50 women with corresponding maternal and cord blood samples and measured anthropometric indices, blood pressure and metabolic phenotypes using standardized procedures. IGF2/H19 DNA methylation and IGF2 circulating levels were assessed using sodium bisulfite pyrosequencing and ELISA, respectively. Placental IGF2 (DMR0 and DMR2) DNA methylation levels were correlated with newborn’s fetal growth indices, such as weight, and with maternal IGF2 circulating concentration at the third trimester of pregnancy, whereas H19 (DMR) DNA methylation levels were correlated with IGF2 levels in cord blood. The maternal genotype of a known IGF2/H19 polymorphism (rs2107425) was associated with birth weight. Taken together, we showed that IGF2/H19 epigenotype and genotypes independently account for 31% of the newborn’s weight variance. No association was observed with maternal diabetic status, glucose concentrations or prenatal maternal body mass index. This is the first study showing that DNA methylation at the IGF2/H19 genes locus may act as a modulator of IGF2 newborn’s fetal growth and development within normal range. IGF2/H19 DNA methylation could represent a cornerstone in linking birth weight and fetal metabolic programming of late onset obesity.     

Extent and high frequency of a short conversion between the human Aγ and Gγ fetal globin genes

Summary Southern blotting and DNA sequencing after polymerase chain reaction (PCR) amplification provide evidence for the frequent occurrence (in 7 out of 24 chromosomes) of a short conversion GA in the 3 end of the human fetal A globin gene. This short conversion is characterized by the presence, 3 nucleotides downstream from the termination codon of the A gene, of the TCAC sequence that is normally present at the equivalent position at the 3 end of the G gene; it is therefore identical to a conversion already described. Interestingly, we have found that this conversion is associated with the presence of theHindIII polymorphic restriction site in the A IVS2, occuppying an equivalent position in both the G and A genes. Our observations strengthen the hypothesis that the presence of the HindIII polymorphic restriction site in A IVS2 and the presence of the sequence TCAC at the 3 end of the A gene might be the result of a single conversion event.