Changes in lectin binding pattern of gonalds of developing mice

Summary Changes in lectin binding of developing fetal mouse testes and ovaries were examined by light and electron microscopy, with much attention paid particularly to those in carbohydrates of germ cells. Characteristic binding patterns were observed with three lectins (BPA, GS-I, and GS-II) in the germ cells and the somatic cells during the process of testicular and ovarian development. GS-I and BPA, which showed similar binding patterns, preferentially bound to the plasma membrane and small dense bodies (SDB) of germ cells in both testes and ovaries during the 12th to 14th day post coitum (p.c.). In the fetal testes on day 16 p.c., the reaction with both GS-I and BPA completely disappeared. While, in the ovaries, a weak reaction with these lectins was retained as it was in germ cells until the 16th day p.c. The reaction with GS-II was restricted to Sertoli cells in the fetal testes during the 12th to 14th day p.c., and thereafter disappeared on day 16 p.c. The distribution of GS-II binding sites was in agreement with that of the glycogen granules. No positive staining with GS-II was seen in the ovaries throughout their development. These results indicate that certain glycoconjugates containing d-galactose and N-acetyl-d-galactosamine residues are expressed on the cell surface and in the SDB of germ cells during the period of the 12th to 14th day p.c., and that striking changes in function as well as in structure may take place in both germ cells and somatic cells during the 14th to 16th day p.c. in association with testicular and ovarjan development.     

Localization of Forssman glycolipid and GM1 ganglioside intracellularly and on the surface of germ cells during fetal testicular and ovarian development of mice

Changes in the expression pattern and intracellular localization of Forssman glycolipid (FA) and GM1 ganglioside (GM1) in fetal mouse gonads were examined during germ cell differentiation by immunofluorescence microscopy and immunoelectron microscopy. In male germ cells from the 12th to 14th day p.c., anti-FA binding was localized in granular structures aggregated on one side of the cytoplasm and/or in the plasma membrane. On day 16 p.c., some germ cells still showed patch-like positive reactions in the plasma membrane, but by day 18 p.c., positive reactions for FA had completely disappeared. The female germ cells showed granular bindings of anti-FA scattered throughout their cytoplasm during the 13th to 16th day p.c., although the positive reactions in female germ cells on day 12 p.c. tended to be found in one side of cytoplasm and/or plasma membrane similar to those in male germ cells from 12th to 14th day p.c. On day 18 p.c., positive reactions remained in the plasma membrane of some germ cells, but these positive reactions disappeared before birth. Immunoelectron microscopic observation showed that the sites of anti-FA bindings were equivalent to the "small dense bodies" (SDB) and the Golgi lamellae both in male and female germ cells. On the other hand, GM1 was not detected in male germ cells at any time during fetal testicular development, whereas an anti-GM1 reaction was detected in the plasma membrane of female germ cells from the 16th to 18th day p.c. (oocytes in the first meiotic prophase).(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes in lectin binding patterns of Leydig cells during fetal and postnatal development in mice

Summary Changes in the lectin binding of mouse Leydig cells during fetal and postnatal development were examined by light- and electron-microscopy using eight different biotinylated lectins (ConA, WGA, RCA-I, UEA-I, GS-I, PNA, SBA and GS-II). At the light-microscopic level, ConA, WGA, RCA-I, UEA-I and GS-I showed the same binding pattern in which all five lectins bound to the plasma membrane and cytoplasm of Leydig cells from the 13th day post coitum (p.c.) to the 8th postnatal week. PNA, SBA and GS-II reactions were positive in the plasma membrane and cytoplasm of Leydig cells from the 13th day p.c. to 15th day post partum (p.p.) but disappeared completely by day 20. At the electron-microscopic level, gold particles representing the GS-I or GS-II binding sites were distributed primarily along the cell surface membrane, including that of microvilli, as well as in the cytoplasm. These results indicate that certain glycoconjugates bearingD-galactose,N-acetyl-D-galactosamine, andN-acetyl-D-glucosamine residues are expressed on the cell surface and in the cytoplasm of Leydig cells during the period from the 13th day p.c. to around the 20th day p.p. The results suggest that these glycoconjugates might play some role in modulating hormone-receptor interaction in the Leydig cells before the 20th day. Furthermore, these results may indicate that sugar residues expressed on the cell surface and in the cytoplasm of Leydig cells are different from those in the fetal-neonatal and adult phases.     

Localization of forssman glycolipid and GM1 ganglioside intracellularly and on the surface of germ cells during fetal testicular and ovarian development of mice

Summary Changes in the expression pattern and intracellular localization of Forssman glycolipid (FA) and GM1 ganglioside (GM1) in fetal mouse gonads were examined during germ cell differentiation by immunofluorescence microscopy and immunoelectron microscopy.In male germ cells from the 12th to 14th day p.c., anti-FA binding was localized in granular structures aggregated on one side of the cytoplasm and/or in the plasma membrane. On day 16 p.c., some germ cells still showed patch-like positive reactions in the plasma membrane, but by day 18 p.c., positive reactions for FA had completely disappeared. The female germ cells showed granular bindings of anti-FA scattered throughout their cytoplasm during the 13th to 16th day p.c., although the positive reactions in female germ cells on day 12 p.c. tended to be found in one side of cytoplasm and/or plasma membrane similar to those in male germ cells from 12th to 14th day p.c. On day 18 p.c., positive reactions remained in the plasma membrane of some germ cells, but these positive reactions disappeared before birth. Immunoelectron microscopic observation showed that the sites of anti-FA bindings were equivalent to the small dense bodies (SDB) and the Golgi lamellae both in male and female germ cells. On the other hand, GM1 was not detected in male germ cells at any time during fetal testicular development, whereas an anti-GM1 reaction was detected in the plasma membrane of female germ cells from the 16th to 18th day p.c. (oocytes in the first meiotic prophase).Therefore, these results indicate that kinetic translocation of FA between the plasma membrane and the SDB and Golgi lamellae takes place during germ cell differentiation in fetal gonads. Moreover, the ganglioside composition containing GM1 seems to change in association with the first meiotic prophase.     

Changes in cell surface and intracellular glycoproteins of trophoblastic giant cells during mouse placentation

Changes in lectin bindings of mouse trophoblastic giant cells (TGCs) were examined by light and electron microscopy. Neither Griffonia simplicifolia agglutinin (GS)-II nor succinyl-wheat germ agglutinin (s-WGA) bound to the 1st and 2nd TGCs on day 6.5 post coitum (p.c.), but did so from days 8.5 to 12.5 p.c. Positive reactions with s-WGA were localized in the perinuclear region and cell surface of both 1st and 2nd TGCs; while GS-II bound only to the perinuclear region, where it appeared as network-like deposits. This region was identified as well-developed Golgi lamellae by electron microscopy. Moreover, SDS-PAGE and lectin-blot analysis of the 1st TGCs indicated that the intensity of s-WGA and GS-II bindings increased in the glycoproteins of approximately 43, 40, 37, and 26 kDa and in those of 43 and 38 kDa, respectively, during the 8.5th to 10.5th day p.c. The reaction with GS-I was detected on cell surface of both the 1st and 2nd TGCs on day 6.5 p.c. The reaction in the 1st TGCs was intensely positive throughout their development, whereas the reactivity decreased in the 2nd TGCs on day 10.5 p.c. and completely disappeared on day 12.5 p.c. The GS-I reaction in TGCs was more intense at the maternal side than at the embryonic side. These results suggest that certain Gal and/or GlcNAc glycoproteins on the cell surface and in Golgi lamellae of TGCs dynamically change from the 8.5th to 10.5th day p.c. in association with mouse placentation.     

Changes in cell surface and intracellular glycoproteins of trophoblastic giant cells during mouse placentation

Summary Changes in lectin bindings of mouse trophoblastic giant cells (TGCs) were examined by light and electron microscopy. Neither Griffonia simplicifolia agglutinin (GS)-II nor succinyl-wheat germ agglutinin (s-WGA) bound to the 1st and 2nd TGCs on day 6.5 post coitum (p.c.), but did so from days 8.5 to 12.5 p.c. Positive reactions with s-WGA were localized in the perinuclear region and cell surface of both 1st and 2nd TGCs; while GS-II bound only to the perinuclear region, where it appeared as network-like deposits. This region was identified as well-developed Golgi lamellae by electron microscopy. Moreover, SDS-PAGE and lectin-blot analysis of the 1st TGCs indicated that the intensity of s-WGA and GS-II bindings increased in the glycoproteins of approximately 43, 40, 37, and 26 kDa and in those of 43 and 38 kDa, respectively, during the 8.5th to 10.5th day p.c. The reaction with GS-I was detected on cell surface of both the 1st and 2nd TGCs on day 6.5 p.c. The reaction in the 1st TGCs was intensely positive throughout their development, whereas the reactivity decreased in the 2nd TGCs on day 10.5 p.c. and completely disappeared on day 12.5 p.c. The GS-I reaction in TGCs was more intense at the maternal side than at the embryonic side. These results suggest that certain Gal and/or GlcNAc glycoproteins on the cell surface and in Golgi lamellae of TGCs dynamically change from the 8.5th to 10.5th day p.c. in association with mouse placentation.     

Flow cytometric analyses of lectin binding to rat alveolar macrophages

The binding characteristics of ten FITC-labeled plant lectins (Con-A, MPA, BPA, PNA, WGA, SBA, UEA-I, DBA, GS-I, GS-II) to lavaged rat alveolar macrophages were assessed by flow cytometry. The alveolar macrophages (AM) were incubated with varying concentrations of each lectin in a pinocytosis-inhibiting buffer. In addition to measuring lectin-associated green fluorescence, the electronic cell volumes and axial light loss characteristics of the AM were also measured flow cytometrically. These latter parameters were found to be good indicators of cell agglutination caused by some of the lectins, and, in conjunction with green fluorescence measurements, usefully serve to determine optimal or nonagglutinating lectin concentrations for flow cytometric studies. With the exception of UEA-I, all of the lectins examined bound to AM, although a wide range of binding was observed among the lectins. At subagglutinating concentrations, Con A, MPA, BPA, PNA, WGA, SBA, and GS-I bound to the AM with unimodal patterns. Histograms of lectin-associated fluorescence intensity obtained with DBA clearly presented a pattern consistent with a more complex, bimodal distribution of labeled AM, suggesting the presence of at least two subset populations. The low-intensity distribution of AM represented congruent to 70% of the cells, while the more strongly labeled subset represented congruent to 15% of the parent AM population. The remaining balance of the AM was identified as another subpopulation by the failure to detectably bind to the DBA. While GS-II bound to all of the AM, this lectin labeled about 5% of the cells much more intensely than the bulk of the population. Thus, two subset populations of AM could be resolved according to their differing avidities for the GS-II lectin.     

Purification and Characterization of Griffonia simplicifolia Leaf Lectins

Leaves from mature Griffonia simplicifolia plants were examined for the presence of leaf lectins possessing sugar binding specificities similar to the four known seed lectins (GS-I, GS-II, GS-III, GS-IV). Three (GS-I, -II, -IV) of the four known G. simplicifolia seed lectins were present in the leaves. Leaf G. simplicifolia lectins I and IV were similar to the respective seed lectins. Leaf GS-II, however, was composed of two types of subunits (M_r = 33,000 and 19,000), whereas the seed lectin consists of only one type of subunit (M_r 32,500). Seed and leaf GS-II lectins also had different isoelectric points. All leaf and seed lectins were similar with respect to their hemagglutination and glycoconjugate precipitation properties and all subunits contained covalently bound carbohydrate. Leaf GS-IV appeared slightly under-glycosylated compared to seed GS-IV.

The fate of GS-I and GS-II seed lectins in aging cotyledons was investigated. GS-I isolectins usually contain isolectin subtypes associated with each main isolectin. Upon inbibition and germination, these GS-I isolectin subtypes disappeared. Over time, GS-II lectin did not change its disc gel electrophoretic properties.

     

Cellular heterogeneity in normal human urothelium: Quantitative studies of lectin binding

Summary A panel of 10 FITC-labelled lectins (MPA, PNA, ConA, DBA, SBA, RCA-120, WGA, UEA, GS-I, GS-II) was applied to cryosections of seven specimens of normal urothelium. Seven of the lectins (MPA, ConA, RCA, WGA, UEA, GS-I and GS-II) showed a pattern of increasing fluorescence intensity from basal to superficial cells of the urothelium whereas PNA, DBA and SBA showed more uniform binding throughout the urothelium. Urothelial cell suspensions labelled with FITC-lectins were studied by flow cytometry to quantify the variation in binding to different cells types. Three cellular subpopulations were identified in normal urothelium on the basis of their optical properties. Fluorescence intensity due to specific lectin binding was then measured separately for each subpopulation. Although there was some variation among individual cases, a general pattern emerged in this small series. WGA, RCA, and GS-II bind in large quantities to all urothelial cells while PNA, SBA, ConA and DBA show little binding. MPA, RCA, UEA and GS-I showed the most marked increase in fluorescence intensity from basal to superficial cells as observed microscopically and quantified by flow cytometry.     

A comparison of lectin binding in rat and human peripheral nerve

Eleven different fluorescein- or peroxidase-conjugated lectins with different sugar-binding affinities were employed to analyze and compare glycoconjugates of rat and human peripheral nerves at the light microscopic level. A majority of lectins showed a distinct binding pattern in different structures of the nerve. Lectin binding was similar but not identical in rat and human nerves. Limulus polyhemus agglutinin did not stain any structures in rat or human nerves. In both species, all other lectins bound to the perineurium. Perineurial staining was intense with Canavalia ensiformis (Con A), Triticum vulgaris (WGA), Maclura pomifera (MPA); moderate with Glycine max (SBA), Griffonia simplicifolia-I (GS-I) and GS-II; weak with Ulex europaeus (UEA), Dolichos biflorus (DBA), and Ricinus communis (RCA). In the endoneurium of both species, ConA staining was intense, MPA and WGA moderate, SBA, GS-II, PNA, and RCA weak, and UEA and DBA absent. Interestingly, GS-I stained rat but not human endoneurium. Most lectins bound to blood vessels. GS-I bound to rat but not human, whereas UEA bound to human but not rat vessels. The results show that lectins can be used to reveal heterogeneity in sugar residues of glycoconjugates within neural and vascular components of nerves. They may therefore be potentially useful in detecting changes in glycoconjugates during nerve degeneration and subsequent regeneration after trauma or in pathological states.     

Influence of age and medium on formation of epithelial cords in the rat fetal ovary in vitro

Fetal ovaries of 14.5-day-old rats were cultured for periods of up to 19 days in control medium or in medium conditioned by the preliminary culture of testes from fetal or young rats. In all ovaries, after 12 days of culture in either medium, epithelial cords were noted having an aspect identical to that of seminiferous cords present in fetal testes explanted at 14.5 days and also cultured for 12 days, i.e. the epithelial cords appeared in ovaries when there was no 'male' or testicular influence. The appearance of histological preparations suggested that the disappearance of the germ cells might bring about a reorganization of the follicular cells in epithelial cords during the differentiation period of the first follicles. With ovaries cultured in conditioned medium, degeneration of the germ cells was more marked, follicles were rare and intra-ovarian cords were greater in number than in ovaries cultured in control medium. The ovaries thus transformed produced the anti-Müllerian hormone (AMH) although they lacked the "germinostatic activity" normally developed by testes of fetal or young rats. This germinostatic activity prevents the multiplication of oogonia when the testes and ovaries are co-cultured in vitro. The transformed ovaries therefore do not have all the functional capacities of fetal testes.     

Germ cell deficiency causes testis cord differentiation in reconstituted mouse fetal ovaries

Sex-reversal in fetal ovaries was studied by using a dissociation-reconstitution technique. Gonads of 12.5 gestation-day male and female mouse fetuses were dissociated into single cells. To eliminate germ cells, the dissociated cells were cultured for 14 h, and then somatic cells attached to culture dishes were harvested and aggregated by gyratory culture for 24 h. The aggregates were then transplanted into ovarian bursa in ovary-ectomized nude mice. The recovered explants were examined histologically. Male somatic cells developed into testes containing Sertoli cells, Leidig cells, and tunica albuginea. Female somatic cells formed testis cords and differentiated into Sertoli cells, but they did not differentiate into other testis components or ovarian tissues. However, aggregates consisting of both female and male somatic cells differentiated into well-developed testes containing Leidig cells and tunica albuginea as well as Sertoli cells. Enzyme marker analysis showed significant contributions of female cells in these organized testes. In contrast, aggregates containing both female germ cells and somatic cells developed into ovaries and did not differentiate into any testicular tissues. The results indicate that female somatic cells in fetal gonads at 12.5 gestation day have the potency to form testis cords and differentiate into Sertoli cells. The subsequent steps in testis development require the contributions of male cells. The present study also suggests that testicular differentiation is independent of germ cells but ovarian development involves the interaction between germ cells and somatic cells.     

Influence of adenosine 3':5'-cyclic monophosphate analogues on testicular organization of fetal mouse gonads in vitro

Gonadal primordia, isolated from fetal mice on the 11th or 12th day of gestation, differentiated in vitro into morphologically distinct testes or ovaries after 7 days in culture. The addition of cAMP analogues into culture media prevented the differentiation of testis cords. Histological examination indicated that the basement membranes of testis cords disintegrated after treatment with cAMP analogues, while development of germ cells and Leydig cells appeared to be unaffected. Fetal testes in culture secreted testosterone which increased following addition of dibutyryl-cAMP (Bt2 c-AMP). Primordial germ cells reached prespermatogonial stage in the presence or absence of Bt2 cAMP, suggesting that progressive differentiation of primordial germ cells is independent of testis cord organization. The Bt2 cAMP-treated explants resumed testicular development after transplantation into a site beneath the kidney capsules of adult mice, although the inhibitory effect appeared irreversible in vitro. The testicular organization-preventing effect of cAMP analogues was mimicked by prostaglandins or forskolin, which are known to stimulate adenylate cyclase. The inhibitory effect of either cAMP analogues or prostaglandins was potentiated when added in combination with phosphodiesterase inhibitors. The present results suggest that increase of intracellular cAMP prevents the development of basement membrane and the assembly of cells to form testicular structures.     

Induction of meiosis in fetal mouse testis in vitro

Fetal mouse testes and ovaries with their urogenital connections were cultured singly or in pairs on Nuclepore filters. When a testis in which the sex was not yet morphologically detectable was cultured together with older ovaries containing germ cells which were progressing through the meiotic prophase, the male germ cells were triggered to enter meiosis. When older fetal testes in which the testicular cords have developed were cultured together with ovaries of the same age with germ cells in meiosis, the oocytes were prevented from reaching diplotene stage. It was concluded that the fetal male and female gonads secrete diffusable substances which influence germ cell differentiation. The male gonad secretes a "meiosis-preventing substance" (MPS) which can arrest the female germ cells within the meiotic prophase. The female gonad secretes a "meiosis-inducing substance" (MIS) which can trigger the nondifferentiated male germ cells to enter meiosis.     

Meiosis-inducing and meiosis-preventing effects of sex steroid hormones on hamster fetal ovaries in organ culture

Day 11 to day 15 p.c. female gonads were cultured for 6-8 days in chemically-defined media. In day 11 and day 12 p.c. ovaries grown in a non-hormonal medium, the germ cells were unable to enter meiosis; they were retained at a stage of oogonia or more frequently at a preleptotene stage. Ovaries of the same ages cultured in an estradiol-containing medium showed germ cells progressing through meiotic prophase in a way close to that in ovaries of equivalent age in vivo. That was the case of the germ cells in day 13 to day 15 p.c. ovaries maintained in a non-hormonal medium. In a testosterone-containing medium, the germ cells in day 13 and day 14 p.c. ovaries were prevented from entering meiosis; by contrast, those in day 15 p.c. ovaries underwent meiotic prophase normally. These results indicated that each of both hormones was able to exert its corresponding (meiosis-inducing or meiosis-preventing) effect before a definite critical time of ovarian development. The possibility is suggested that the germ cell differentiation in the female and male gonads in vivo would also depend on estrogens or androgens precociously synthesized in the gonads or supplied from other organs via the fetal blood.     

Effect of the fetal testis on the number of germ cells in the fetal ovary of rats in vitro

When ovaries from 13.5-day-old fetuses are explained and cultured in vitro for 4 days in a synthetic medium, the number of germ cells increases 6 fold, on average. This increase is only approximately 2 fold if a pair of 16.5-day fetal testes is cultured together with the ovaries or if the ovaries are cultured in a medium in which testes have previously been grown for 4 days. The effect of the latter medium persists if it is dialysed against fresh medium, which suggests that the conditioned medium contains one or several substance(s) of molecular weight superior to the cut-off of the membrane. The testicular effect seems to be effective mainly during the final phase of intense multiplication of the germ cells.     

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.     

Characterization and Solubilization of β-Glucan Synthases from Cultured Rice Cells

Two types of β-glucan synthases, GS-I and GS-II, were found in cultured rice cells (Oryza sativa L.). In glycerol density gradient centrifugation, GS-I activity peak co-migrated with a marker enzyme of the Golgi membrane, while GS-II co-migrated with the plasma membrane. Analysis of the reaction products of GS-I and GS-II, suggested that GS-I and GS-II were mainly β-1,4,- and β-1,3-glucosyltransferases, respectively. GS-I had a higher substrate affinity for UDP-glucose than GS-II, and needed divalent cations for its activity. Effects of nucleotides on the activity were also considerably different between GS-I and GS-II. GS-I was solubilized well with CHAPS and digitonin, and GS-II was solubilized effectively with sucrose monolaurate.     

Apoptosis of fetal testicular cells is regulated by both p53-dependent and independent mechanisms

A portion of fetal germ cells undergoes apoptosis in the physiological context, but the molecular mechanisms of their apoptosis are largely unknown. Because p53 tumor suppressor gene product promotes apoptosis in various types of cells, we have investigated the expression of p53 in fetal gonads and examined the influence of loss of p53 function in fetal gonad cells using mice deficient in the p53 gene. We found that the expression of p53 protein in fetal testis was induced after 15.5 dpc (days post coitum), while the expression was not detected in fetal ovary. The number of apoptotic cells found in the seminiferous tubules of fetal testes was not significantly different between p53-deficient and wild-type mice until 16.5 dpc. At 17.5 dpc, however, more apoptotic cells were observed in wild-type testes than in the p53-deficient mice. In contrast, a similar number of apoptotic cells was found in fetal ovaries throughout these developmental stages. These observations indicate that p53 promotes apoptosis of fetal testicular cells after 16.5 dpc.     

Bisphenol A exposure modifies DNA methylation of imprint genes in mouse fetal germ cells

Bisphenol A (BPA) is an estrogenic environmental toxin widely used for the production of plastics. Human frequent exposure to this chemical has been proposed to be a potential public health risk. The objective of this study was to assess the effects of BPA on DNA methylation of imprinting genes in fetal mouse germ cell. Pregnant mice were treated with BPA at doses of 0, 40, 80 and 160 μg BPA/kg body weight/day from 0.5 day post coitum. DNA methylation of imprinting genes, Igf2r, Peg3 and H19, was decreased with the increase of BPA concentration in fetal mouse germ cells (p < 0.01).The relative mRNA levels of Nobox were lower in BPA-treated group compared to control (BPA free) in female fetal germ cells, but in male fetal germ cells, a significant higher in Nobox expression was observed in BPA-treated group compared to control. Decreased mRNA expression of specific meiotic genes including Stimulated by Stra8 and Dazl were obtained in the female fetal germ cells. In conclusion, BPA exposure can affect the DNA methylation of imprinting genes in fetal mouse germ cells.