Potential role of somatomedin inhibitors in the production of diabetic embryopathies

Mouse conceptuses at the 18-21-somite stage were grown for 2-24 h in vitro in the presence of a serum fraction (Mr = 800-1,080 daltons) possessing somatomedin-inhibitory activity (SI) isolated from diabetic rats. Following an 8-h exposure to the SI, DNA and incorporation of 3H-thymidine were reduced in the embryos while 12 h was required to observe a reduction in total protein and RNA. At the 24-h time point, the neurectoderm was thinner than in controls, and autoradiograms of this region showed a substantial decrease in grain density with 3H-thymidine, but not 3H-leucine or -uridine. Effects of the visceral yolk sac (VYS) preceded those on the embryo. The cytoplasm of the VYS endoderm cells from conceptuses exposed to the SI contained many vacuoles by 4 h, which were larger by 24 h. Total protein was greater than in controls from 4 h onward, although 3H-leucine incorporation, which had increased after 2 h of SI exposure, returned to control levels by 8 h. As seen by SDS-polyacrylamide gel electrophoresis, VYSs from conceptuses exposed to the SI for 4 or 24 h were enriched (compared to control VYSs) in four protein bands also present in the culture medium (primarily rat serum), suggesting that protein degradation and/or transfer of amino acids and peptides to the embryo was inhibited in these VYSs. Such a conclusion was supported by a quantitative decrease in proteins and amino acids in the exocoelomic fluid of conceptuses exposed to the SI for 24 h. The altered processing of proteins may therefore represent a primary cause of the SI-induced embryonic abnormalities.     

Role of the mouse visceral yolk sac in nutrition: inhibition by a somatomedin inhibitor

A low molecular weight somatomedin inhibitory serum fraction (SI), obtained from streptozotocin-induced diabetic rats, causes morphological abnormalities and growth reduction in mouse embryos grown in whole embryo culture (WEC). These abnormalities are thought to be caused, at least in part, by a failure of the visceral yolk sac (VYS) to properly degrade proteins, a process that normally provides the conceptus with amino acids and peptides for de novo protein synthesis (histiotrophic nutrition). To test this hypothesis, embryos exposed to the SI were provided with a mixture of ten essential amino acids (supplemented group) in an attempt to circumvent SI-induced VYS dysfunction. Results showed that 82.4% (14/17) of embryos in the amino acid-supplemented group exhibited improved growth and development compared to those embryos exposed to medium containing the SI alone (unsupplemented group). Supplemented embryos showed greater expansion of the brain regions, improved visceral arch development, and increased protein content compared to nonsupplemented SI-treated embryos. However, these parameters were still reduced compared to controls. VYSs from both the unsupplemented and amino acid-supplemented groups were identical with respect to alterations in morphology and increased protein content compared to VYSs from conceptuses cultured in control medium (with or without amino acid supplementation). The improvement in embryonic growth and development due to amino acid supplementation in spite of VYS abnormalities supports the hypothesis that nutritional deprivation is one aspect of SI-induced teratogenesis.     

Altered visceral yolk sac function produced by a low-molecular-weight somatomedin inhibitor

A fraction from diabetic rat serum containing a low-molecular-weight (800-1000) somatomedin inhibitor (SI) alters growth and development in both neurulation and early limb bud staged mouse embryos in vitro. Previous studies suggested that an accumulation of serum proteins and morphological changes of the visceral yolk sac (VYS) were produced following exposure to the SI in early limb bud staged conceptuses. The morphological changes, characterized by the presence of large endosomes in the endodermal cells, suggested that the SI altered histiotrophic nutrition, whereby proteins are pinocytosed by the endodermal VYS cells and degraded to constituent amino acids. Therefore, the effects of the SI on pinocytosis and protein degradation by the VYS were evaluated using the whole embryo culture system. Results showed that the SI reduced fluid phase pinocytosis as determined by the uptake of [U-14C]sucrose, but that accumulation of [3H]leucine-labeled hemoglobin ([3H]Hb) by the VYS was greater following exposure to the SI than in controls. In contrast, the accumulation of 3H-labeled amino acids in the embryo (produced from the degradation of [3H]Hb by the VYS) was reduced by the SI. The extent of amino acid reduction in embryonic accumulation is dependent upon the concentration of SI in the culture medium and correlates with the incidence of malformations produced by the SI, i.e., high rates of malformations occur with large reductions in embryonic 3H-labeled amino acid accumulation. The apparent paradox of high [3H]Hb accumulation in the presence of decreased pinocytosis appears to be the result of altered processing of the [3H]Hb in the endodermal cells. The altered processing decreases the "elimination" of the proteins from the VYS and results in the decrease in 3H-labeled amino acid present in the embryo proper. Therefore, the SI appears to alter two processes of VYS histiotrophic function. (1) decreased pinocytosis and (2) altered protein processing, ultimately resulting in a decreased availability of substrates for the embryo. During the early stages of embryogenesis in the human, the trophoblast cells of the placenta are responsible for the transport of nutrients from the maternal to embryonic systems. Since these cells show high phagocytic and pinocytotic activities, the SI may also disrupt these processes in the chorioallantoic placenta and contribute to diabetes-induced embryopathies.     

In vivo and in vitro effect of liver on somatomedin generation

The serum concentration of circulating somatomedins was measured in the blood of healthy donors and subjects with hepatic cirrhosis, and in culture media from in vitro explants of healthy and cirrhotic human liver. Serum levels of somatomedin bioactivity were significantly lower in cirrhotic subjects (0.42 +/- 0.03 U/ml; M +/- SEM) compared with age matched controls (0.99 +/- 0.03 U/ml). Radioreceptor assay of somatomedin concentrations confirmed this reduction in cirrhotic patients (0.89 +/- 0.06 U/ml) compared with controls (1.32 +/- 0.05 U/ml). A parallel reduction in somatomedin circulating binding ability was also observed (99.43 +/- 7.28% in cirrhotic and 123.5% +/- 10.8% in normal subjects). In vitro explants from normal human liver tissue produced a significant increase (0.57 +/- 0.09 U/ml) in somatomedin bioactivity contained in the medium (0.29 +/- 0.06 U/ml), while a decreased bioactivity (0.12 +/- 0.06 U/ml) was observed with explants of cirrhotic livers. These results support a role of liver in the biosynthesis of both somatomedin and somatomedin binding protein.     

Induction of embryonic dysmorphogenesis by high glucose concentration, disturbed inositol metabolism, and inhibited protein kinase C activity

BACKGROUND: Exposure to a diabetic environment causes excess reactive oxygen species (ROS), decreased prostaglandin E(2) (PGE(2)) concentration, and increased embryonic maldevelopment. The aim of the present work was to study whether embryonic dysmorphogenesis is also dependent on alterations of inositol and associated intracellular metabolites. METHODS: Day 9 rat embryos were cultured for 24 or 48 hr and evaluated for gene expression. Day 10 and day 11 embryos from normal and diabetic rats were also examined. RT-PCR was used to study embryonic gene expression of protein kinase C (PKC) and cytosolic phospholipase A(2) (cPLA(2)). RESULTS: Embryos exposed to 30 mmol/L glucose (30G), 500 or 750 micromol/L of scyllo-inositol (500SI or 750SI) had higher malformation score than control embryos cultured in 10 mmol/L glucose (10G). Adding 1.6 mmol/L inositol to the 30G or 750SI culture medium partly corrected these embryos, and completely normalized 500SI embryonic development. Adding 0.5 mmol/L N-acetylcysteine (NAC) or 280 nmol/L PGE(2) protected, and failed to protect, the SI-exposed embryos, respectively. 10G embryos exposed to the PKC inhibitor GF-109203X displayed dose-dependent dysmorphogenesis. Addition of 1.6 mmol/L inositol or 0.5 mmol/L NAC to the PKC-inhibitor-exposed 10G embryos largely normalized the outcome, whereas PGE(2) again failed to protect embryonic development. 30G culture tended to decrease the expression of cPLA(2) after 24 hr in vitro. We also found decreased mRNA levels of cPLA(2) in offspring of diabetic rats on gestational day 10 and of PKC on day 11, as compared with normal offspring. CONCLUSIONS: High glucose concentration causes dysmorphogenesis in embryos by an interaction of oxidative stress and inositol depletion.     

Retinol-binding protein: a major secretory product of the pig conceptus

Pig conceptuses and endometrial explants recovered from gilts between Days 10 and 15 of pregnancy were cultured in leucine-deficient or methionine-deficient medium supplemented with 3H-leucine or 35S-methionine, respectively, for 30 h. Conceptus and endometrial tissues from Day 15 of pregnancy were fixed in Bouin's fixative for immunocytochemistry and light microscopy. Conceptus culture medium from Day 15 of pregnancy was pooled, dialyzed, and fractionated by anion exchange and gel filtration chromatography. A family of 3-5 low molecular weight (Mr) acidic (Mr = 19,000-22,000; pI = 5.6-6.5) 3H-leu-labeled proteins were isolated and identified by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE), electroblotting, and fluorography. The two major proteins (pCSP-1 and pCSP-2) were excised from a polyvinylidene difluoride transfer membrane, and NH2-terminal amino acids were sequenced. One peptide was sequenced through 33 amino acids and the second, which shared 100% homology, was sequenced through 22 amino acids. Analysis of the larger sequence indicated that it shared 93.9% and 90.9% homology with the first 33 amino acids of human and rabbit plasma retinol-binding protein (RBP), respectively. Analyses of culture medium from pig conceptus incubations by 2D-PAGE and immunoprecipitation with rabbit anti-human RBP serum indicated that immunoreactive RBP was produced between Days 10 and 15 of pregnancy and was present in Day 30 allantoic fluid. Western blotting of enriched fractions of Day 15 conceptus RBP followed by immunostaining indicated that five isoforms of radiolabeled RBP were present. Immunoreactive RBP was detected in trophectoderm and yolk sac of conceptuses and endometrial surface and glandular epithelium at Day 15 of pregnancy. Results from this study demonstrate that pig conceptuses secrete RBP prior to onset of conceptus elongation and throughout the peri-implantation period, which suggests that RBP and associated retinoids influence conceptus development.     

Isolation, characterization and immunocytochemical localization of bovine trophoblast protein-1

Bovine trophoblast protein-1 (bTP-1) was isolated to 90% purity from culture medium of Day 18-20 conceptuses incubated in vitro (in the presence of L-[3H]leucine) by a combination of Sephacryl S-200 gel filtration chromatography and O-(diethylaminoethyl) (DEAE) anion-exchange high-performance liquid chromatography (DEAE-HPLC). The radiolabeled protein had an Mr of 21,200 +/- 800 by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and had three isoelectric variants (pI 5.7-6.5) by two-dimensional SDS-PAGE. DEAE-HPLC-enriched bTP-1 cross-reacted with anti-o TP-1 serum on Western blots. A monospecific antiserum against bTP-1 was produced by excising the bTP-1 polypeptide band from preparative SDS-PAGE gels. Antiserum reacted with a single polypeptide with an Mr of 21,200 as determined by Western blotting of SDS-PAGE-separated conceptus medium proteins and by immunoprecipitation from L-[35S]methionine-labeled medium proteins followed by SDS-PAGE and autoradiography. Bovine trophoblast protein-1 was localized by immunocytochemistry in the cytoplasm of both mono- and binuclear trophectoderm cells of Day 20 bovine conceptuses, indicating that it is a product of the trophoblast.     

Porcine conceptus proteins: antiviral activity and effect on 2',5'-oligoadenylate synthetase.

Interferon-like proteins synthesized by conceptuses of domestic ruminants inhibit luteolysis during early pregnancy. Although pig conceptuses secrete trophoblast interferons during the period of CL maintenance, estrogen is involved with maintenance of the CL. The principal purposes of this work were to confirm production of trophoblast interferons by porcine conceptuses and to compare the effect of trophoblast interferons on endometrium of pigs and cattle. When measured using Madin-Darby bovine kidney (MDBK) cells challenged with vesicular stomatitis virus, antiviral activity in uterine flushings from cyclic gilts was not detectable throughout the estrous cycle; however, in pregnant gilts, antiviral activity increased from undetectable amounts to 4-11 x 10(3) U on Days 14, 16, and 18. Porcine embryos in culture produced 1,100 U/embryo/ml/24 h. Porcine conceptus secretory proteins induced 2',5'-oligo(A) synthetase in MDBK cells and in endometrial explants of cows but had no measurable effect on 2',5'-oligo(A) synthetase activity of endometrial explants of pigs. Similarly, endometrial 2',5'-oligo(A) synthetase of pregnant pigs was unaffected in vivo during the period of maximal synthesis of conceptus secretory proteins. Porcine conceptus secretory proteins produced no detectable increase in serum antiviral activity or 2',5'-oligo(A) synthetase activity of blood mononuclear leukocytes in utero-ovarian venous blood. These results suggest that conceptus interferons of pigs play different roles in the establishment of pregnancy compared to their roles in ruminants.     

Aberrant fetal growth and development after in vitro culture of sheep zygotes.

The effects of in vitro culture systems for sheep zygotes on subsequent fetal growth and development to day 61 and day 125 of gestation were studied. Zygotes recovered from superovulated Scottish Blackface ewes approximately 36 h after intrauterine insemination using semen from a single Suffolk sire were cultured for 5 days in (a) a granulosa cell co-culture system (co-culture); (b) synthetic oviductal fluid medium without serum (SOF-); and (c) synthetic oviductal fluid medium supplemented with human serum (SOF+). Control embryos were recovered from superovulated donor ewes at day 6 after oestrus. Embryos were transferred at day 6 to synchronous Scottish Blackface recipient ewes. In total, 146 gravid uteri were recovered, comprising 97 at day 61 (20 co-culture, 27 SOF-, 25 SOF+ and 25 control) and 49 at day 125 (13 co-culture, 8 SOF-, 6 SOF+ and 22 control) of gestation. Fetuses derived from co-cultured embryos were 14% heavier (P < 0.01) by day 61 of gestation than those derived from control embryos. Growth coefficients derived from the linear allometric equation logey = logea + b logex (where y = organ mass; x = fetal mass) were significantly greater (P < 0.05) for liver, heart, kidneys and plantaris muscle in fetuses derived from co-cultured embryos, and for liver in fetuses derived from SOF+ embryos than those for control fetuses. Fetuses derived from co-cultured embryos were 34% heavier (P < 0.001) and fetuses derived from SOF+ embryos were 18% heavier (P < 0.01) by day 125 of gestation than those derived from control embryos. Growth coefficients for liver and heart for fetuses derived from co-culture and SOF+ embryos were also significantly greater (P < 0.05) at this stage of gestation than those for control group fetuses. In contrast, allometric coefficients for these organs in fetuses derived from embryos cultured in SOF without serum supplementation were not different from those for controls. Excessive volumes of amniotic fluid (polyhydramnios) were observed in 23% of conceptuses derived from co-cultured embryos. In vitro embryo culture can significantly influence fetal growth and this study provides quantitative evidence of major shifts in the patterns of organ and tissue development.     

Demonstration of the presence of an ultrafiltrable substance in human serum activating somatomedin A

Human serum contains an ultrafiltrable factor which stimulates the somatomedin activity measured by 35SO4 incorporation into pelvic cartilage of chick embryo, this ultrafiltrable factor activates native serum somatomedin or partially purified somatomedin. The molecular weight determined by fractionated ultrafiltration or chromatography on Biogel P2 is about 350-500 daltons.     

Sexual dimorphism in interferon-tau production by in vivo-derived bovine embryos

Interferon-tau (IFN-tau) is an anti-luteolytic factor responsible for preventing regression of the maternal corpus luteum (CL) during early pregnancy of cattle. In vitro-produced (IVP) bovine embryos first produce IFN-tau as blastocysts. In the present study, we have examined whether sexually dimorphic production of IFN-tau, which is observed among IVP blastocysts, also occurs among in vivo-produced blastocysts, and whether this difference between the sexes persists to day 14 when silencing of one of the X-chromosomes in the trophectoderm is complete. Embryos were flushed from cattle that had been superovulated and bred by AI. Blastocysts (63 male, 62 female) recovered between days 8.5 and 9.5 of pregnancy, were cultured individually. No differences were observed between males and females in either their developmental stage or quality at the beginning, during, and at the end of culture. Female embryos produced more IFN-tau than males by 24 hr (mean values, males: 16.6 +/- 3.7, females: 49.4 +/- 9.0 pg per embryo; P < 0.05) and 48 hr (male: 189.8 +/- 37.1, female: 410.9 +/- 66.6 pg per embryo; P < 0.05). However, the variability in IFN-tau production between individual blastocysts was so great that IFN-tau secretion is unlikely to be of value as a non-invasive means to predict embryo sex. When conceptuses were recovered at day 14, elongating males (n = 25) and females (n = 24) were similar in dimension and did not differ in their IFN-tau production after 4.5 hr (male: 2,550 +/- 607, female: 2,376 +/- 772 ng per conceptus) and 24 hr (male: 12,056 +/- 2,438, female: 8,447 +/- 1,630 ng per conceptus) of culture. Thus, sexual dimorphism in IFN-tau production is observed in both IVP and in vivo-produced expanded blastocysts, but is lost by day 14 of in vivo development.     

The development potential of ethanol-induced monosomic and trisomic conceptuses in the mouse

The development potential of fertilized embryos isolated from female mice previously given a single dose of either a dilute solution of ethanol or distilled water (controls) by mouth was studied. Exposure to ethanol occurred at various times during the cycle leading to ovulation and shortly after fertilization. The chromosome constitution of all preimplantation embryos isolated from these females was determined either at the first cleavage mitosis or at the morula stage. The incidence of aneuploidy in the ethanol-exposed groups at these times was approximately 19% and 13.5%, respectively, with a similar number of monosomic and trisomic conceptuses observed at these times. In addition, about 2% of all conceptuses examined were triploid. Further females were autopsied on the 10th or 11th day of gestation, though the chromosome constitution of only the morphologically abnormal or developmentally retarded embryos was determined. Eight embryos out of a total of 16 studied in the ethanol-exposed group were either aneuploid or triploid, whereas in the control group only one out of 11 examined proved to be aneuploid. The triploids and ethanol-induced aneuploid conceptuses appeared to be capable of surviving to the morula stage but generally failed to survive to the 10th/11th day. No monosomics were in fact observed in the postimplantation series. The present findings are briefly discussed with reference to the possible pathogenesis of spontaneous abortions in man, which often possess similar types of chromosomal anomalies.     

Continuous culture of the postimplantation rat conceptus

A procedure for continuous culture of rat conceptuses during organogenesis with a number of advantages over existing methods has been established. In this method, rat conceptuses of pregnancy Day 10 (embryonic age 9.5 days; Witschi Stage 13) with embryos at pre- or early somite neurula stage were cultured for 96 h in roller bottles fitted with New Brunswick swivel caps. These caps have 5 inlets which permit continuous gassing of culture bottles and withdrawal of samples or supply of growth medium. The culture medium used in this study was immediately centrifuged, heat-inactivated fresh male rat serum. Continuous gassing of roller bottles with humidified gas mixtures of 5% CO2 and increasing O2 concentrations (5, 20, 40 and 95%), and balanced N2 provided optimal progressive conceptus development and differentiation. The average pO2 of the medium rose from 73.4 to 427.3 mm Hg, while the pCO2 and pH remained relatively stable. During the 96-h culture period, growth and differentiation of conceptuses were considerable, reaching Witschi Stage 27/28. Cultured embryos developed 48-52 somites with extensive differentiation of various organs: brain and sensory organs, heart and circulatory system, limb bud and hepatic prominence, and numerous internal visceral organs. Embryonic DNA and protein contents increased 100- to 200-fold from the initial values. Therefore, this improved procedure with periodic progressive increases in pO2 and stable low pCO2 and physiologic pH in the medium permits growth and differentiation of rat conceptuses in vitro over a prolonged period of time.     

Recovery of intestinal membrane binding sites for K88 E. coli from pig mucosal organ cultures

Summary Putative receptors for K88+ E. coli from piglet intestinal epithelium were released into the organ culture medium and were demonstrated by direct binding with K88+ E. coli through the utilization of an in vitro binding procedure or by immunoprecipitation with K88 antigen.Incorporation of ¹⁴C-glucosamine by newborn to day old and 3-week to 6-week old piglet jejunal and ileal mucosa, in organ culture, occurred throughout the 24 hr culture period. Uptake in both age groups and both areas of the intestine was similar with a somewhat greater incorporation by the older age group.Secretion of ¹⁴C-glucosamine-labeled components into the culture medium was demonstrated by gel filtration of the concentrated medium. Some large molecular weight components eluted in the void volume in excess of 2 x 10⁶ daltons. A second peak of activity was spread from approximately 690K to 25K daltons. All eluted fractions demonstrated binding to K88+ E. coli.Antibodies to purified brush borders from susceptible pigs produced prominent precipitation bands following double diffusion with concentrated organ culture media which confirmed that the organ culture media contained labeled proteins of brush border origin.Immunoprecipitation of the intestinal mucosal organ culture media with K88+ pili and pilus antisera, followed by electrophoresis with SDS and reduced conditions, demonstrated a subunit of approximately 35K daltons.     

Requirement of serum components for the preservation of primordial germ cells in testis cords during early stages of testicular differentiation in vitro in the mouse

Mouse gonadal primordia were isolated from embryos on the 11th day of gestation and cultured in vitro. They developed into either testes or ovaries after 7 days of culture in Eagle's minimum essential medium (MEM) supplemented with horse serum, whereas they did not differentiate in MEM alone. We studied how serum components are required for testicular development in vitro. When gonadal primordia were cultured in MEM alone for the first 1-3 days and subsequently in MEM supplemented with serum, testis cords developed while germ cells disappeared or only a few remained in the testis cords. In contrast, when serum was present in the medium during the first day of culture and omitted thereafter, germ cells were retained within testis cords. These results suggested that some serum component(s) is specifically required by germ cells independent of testis cord organization. Of more than 10 serum components tested, low and very low density lipoprotein fractions increased the number of germ cells in testicular explants.     

N-glycosylated and unglycosylated forms of caprine trophoblast protein-1 are secreted by preimplantation goat conceptuses

Goat conceptuses secrete caprine trophoblast protein-1 (cTP-1) which is related antigenically to the abundant embryonic interferon-alpha II of sheep and cattle. Antiserum to ovine and bovine TP-1s immunoprecipitated three molecular weight classes (23,000, 21,000 and 17,000, each with two isotypes) of cTP-1 from goat conceptus culture medium. Cultures which contained tunicamycin resulted in a shift in the Mr = 23,000 and Mr = 21,000 forms to a Mr of 17,000. The Mr = 23,000 and 21,000 forms, but not the Mr = 17,000 form, bound to Concanaval in A-Sepharose and were eluted under conditions selective for glycoproteins bearing complex-type oligosaccharide(s). Thus cTP-1 is a mixture of glycosylated and unglycosylated polypeptides.     

Cadherin mRNAs during rat embryo development in vivo and in vitro.

Whole rat embryo cultures are being used in increasing numbers of laboratories to study the mechanisms by which teratogens disturb development. The development of early somite stage embryos in vitro is very similar morphologically to that in vivo, yet few biochemical comparisons have been made. The purpose of this study was to determine the steady-state mRNA concentrations of a family of Ca(2+)-dependent cell adhesion molecules, the cadherins, during rat embryonic development in vivo and in vitro. Embryos and yolk sacs were collected on days 10, 11, and 12 of gestation (in vivo); they were also obtained from day 10 embryos after growth in culture for 24 hr (day 11 in vitro) or 45 hr (day 12 in vitro). Total RNAs isolated from embryos and yolk sacs were studied by Northern blot analysis using specific cDNA probes for three cadherins, E-cadherin, N-cadherin, and P-cadherin. Although E-cadherin mRNA was detected in embryos, it was present at much higher concentrations in yolk sacs. In addition, multiple species of E-cadherin mRNA ranging from 3.0 to 13 kb were detected. Interestingly, the concentration of the major 4.5-kb E-cadherin mRNA species in yolk sac after 45 hr in culture was increased 2.8-fold over that on day 12 of gestation in vivo. Second, two species (4.3 and 3.5 kb) of N-cadherin mRNA were detected, almost exclusively in embryos. In yolk sac, N-cadherin mRNA was detected only after 45 hr in culture. Third, P-cadherin mRNA was detected as a single 3.5-kb species, mainly in embryos. P-cadherin mRNA concentrations in yolk sac after 45 hr in culture were 5.6-fold higher than in vivo. Thus, these results demonstrate that there is a differential distribution of cadherin mRNAs in rat embryos and yolk sacs. Further, there appear to be multiple species of mRNAs for E-cadherin and N-cadherin. Finally, while whole embryo culture in vitro did not significantly alter the steady-state concentrations of cadherin mRNAs in the embryo, these concentrations were dramatically increased in the yolk sac.     

Intraspecific blastocyst reconstitution in mice using giant trophectodermal vesicles produced by multiple embryo aggregation

Giant trophectodermal (TE) vesicles, produced by aggregating multiple embryos, were evaluated as a means of enhancing the viability of reconstituted murine blastocysts. Previous studies have indicated that the development of chimeric conceptuses produced by multiple embryo aggregation is impaired, thus the initial objective here was to examine how this is affected by 1) differences in developmental rates of individual embryos comprising the aggregates, 2) lengths of in vitro culture, and 3) incompatibilities between maternal hosts and chimeric fetal allografts. The results indicate that the viability of aggregates was influenced by embryo genotype and length of in vitro culture. The average number of B6D2-F1 x BL/6 offspring resulting from aggregates cultured for 0.7 day was not significantly different (p greater than 0.05) from that obtained from either embryo singletons cultured for 0.7 and 1.7 days (2.9 +/- 0.3 and 3.9 +/- 0.4, respectively) or from nonmanipulated controls (3.2 +/- 0.2 and 4.3 +/- 0.3, respectively). Blastocyst reconstitution studies were then conducted using giant TE vesicles from B6D2-F1 x BL/6 mice and inner cell masses from C3H mice. The average number of C3H offspring produced (2.7 +/- 0.1) was not significantly different (p greater than 0.05) from that of B6D2-F1 x BL/6 embryo aggregates (3.2 +/- 0.6) or of nonmanipulated controls (4.3 +/- 0.3). The results demonstrate that giant TE vesicles can be effectively used for intraspecific blastocyst reconstitution in mice.     

Expression of progesterone and oestrogen receptors by early intrauterine equine conceptuses

Progesterone and oestrogen play essential roles in the maintenance of pregnancy in eutherian mammals and are thought to exert their effects on the developing conceptus indirectly, via the endometrium. In some species, early embryos have themselves been shown to express steroid receptors, thereby suggesting that reproductive steroids may also influence embryonic development directly. The aim of this study was to determine whether early intrauterine equine conceptuses express either the classical intracellular progesterone (PR) and oestrogen receptors (ERalpha and ERbeta) or the more recently characterised membrane-bound progesterone receptors (PGRMC1 and mPR). Horse conceptuses recovered on days 7, 10 and 14 after ovulation (n=8 at each stage) were examined for steroid receptor mRNA expression using quantitative rtPCR. Where commercial antibodies were available (PR, ERbeta), receptor localisation was examined immunohistochemically in day 10, 12, 14, 15 and 16 conceptuses (n=2 at each stage). mRNA for PR, PGRMC1 and mPR was detected at all stages examined, but while PGRMC1 and mPR expression increased during the day 7-14 period, PR expression decreased. ERalpha mRNA was not detected at any stage examined, whereas ERbeta mRNA was detected in all day 14, some day 10 and no day 7 conceptuses. Immunoreactive ERbeta receptors were localised to the trophectoderm of day 14-16 conceptuses; PR were not detected immunohistochemically in conceptus tissue. In summary, this study demonstrates that equine conceptuses express mRNA and, in the case of ERbeta, protein for steroid hormone receptors during the period encompassing rapid conceptus growth, differentiation and maternal pregnancy recognition.     

The retinol-binding protein of the expanding pig blastocyst: molecular cloning and expression in trophectoderm and embryonic disc.

Retinol-binding protein (RBP) is a major secretory product of the porcine conceptus. Using an oligonucleotide probe corresponding to a highly conserved region of all known mammalian RBP, we have isolated an apparently full-length cDNA clone for porcine conceptus RBP from a cDNA library constructed from pig conceptuses collected between days 13-17 of pregnancy. The cDNA was 937 base-pairs in length and coded for a protein whose inferred amino-terminal sequence was identical to that reported for both porcine conceptus RBP and porcine serum RBP. Its length was consistent with the size (approximately 1 kilobase) of the RBP message in porcine conceptuses. Porcine conceptus RBP and human serum RBP share 91% amino acid sequence identity. The inferred differences in sequence were evenly distributed throughout the length of the polypeptide. RBP mRNA was detectable within the trophoblast of day 11 porcine conceptuses by in situ hybridization with a 618-basepair 35S-labeled probe corresponding to the 3' end of porcine RBP. Silver grain density was distributed relatively uniformly over the trophoblast and the inner cell mass. Western blot analysis of conceptus culture medium demonstrated that the conceptuses of cattle (on day 19) and sheep (on day 15) as well as pigs secrete RBP during early pregnancy. Secretion of large quantities of RBP by the trophoblast of preimplantation pig conceptuses suggests important roles for vitamin A and RBP near the time of conceptus elongation.