The centriolar cycle in polykaryons containing prematurely condensed chromosomes or telophase-like nuclei]

In fused interphase-mitotic cells, either interphase nuclei are induced to premature chromosome condensation (PCC) or mitotic chromosomes are induced to telophase-like nuclei (TLN) formation. This study concerns structural and functional changes in centrioles of fused cells in which PCC or TLN are induced. Embryonic pig kidney cells were fused using a modified PEG-DMSO-serum method. Cell cycle period of the nuclei was determined before cell fusion using double-labeling autoradiography. Polykaryons containing desirable type of PCC or interphase nuclear combination in TLN were selected on the basis of isotope labeling after being embedded in epon. Selected cells were cut into serial sections and studied under electron microscope. The data obtained showed that centrioles at every interphase period undergo mitotic activation when their nuclei are induced to PCC. They acquire fibrillar halo and form half-spindles. Daughter centrioles at G1, S and G2 periods are also capable of mitotic activation when separated from their mother centriole. Inert centrioles were found in some cells with G1-PCC. When mitotic nuclei are induced to TLN formation, their centrioles also become inactivated. They lose fibrillar halo and mitotic spindles break down. Some mitotic centrioles develop features characteristic of interphase period such as satellites and vacuoles. Induced nuclear and centriolar changes are simultaneous and may be controlled by the same factor. Mitotic factor of mitotic cell partner which induces PCC may also induce interphase centrioles to mitotic activation. Degradation of the mitotic factor leading to TLN formation may also cause the loss of the mitotic activity of centrioles and disorganization of mitotic spindles.     

Distribution of mosaicism in human placentae

Traditional first trimester chorionic villus sampling (CVS) for prenatal diagnosis can be performed by cytogenetic analysis of cytotrophoblast or chorionic villous stroma. Approximately 2% of pregnancies studied by CVS show confined placental mosaicism (CPM) involving either cytotrophoblast, stroma or both. We present the results of a cytogenetic study of nine term placentae from pregnancies with prenatally diagnosed CPM. The aneuploid cell lines involved trisomies for chromosomes 7,9,16, and X. The cytotrophoblast and villous stroma from multiple biopsies of these placentae were examined using a combination of interphase and metaphase cytogenetic analysis. CPM was detected in all nine of the term placentae and both tissue-specific and site-specific patterns of mosaicism could be discerned. These results indicate that the analysis of villous stroma and cytotrophoblast from multiple placental biopsies is necessary to improve our understanding of the evolution of CPM during pregnancy and its effect on the fetus. Received: 1 May 1995 / Revised: 11 August 1995     

Antibodies specific for mitotic human chromosomes

The induction of premature chromosome condensation in an interphase cell immediately following fusion with a mitotic cell suggests the presence of factors in the mitotic cell that are responsible for the transformation of an interphase nucleus into prematurely condensed chromosomes (PCC). Several lines of evidence suggest that these factors are proteins present in the cytoplasm of mitotic cells. The objective of this study was to raise antibodies to the factors responsible for PCC. Cytosol from synchronized mitotic HeLa cells was injected into rabbits in order to obtain antiserum. The IgG fraction from this antiserum reacted with 98% of mitotic HeLa cells when tested by indirect immunofluorescence. Most of the fluorescence was localized on the chromosomes. About 5% of the interphase nuclei also reacted with the antiserum, but 50% of these cells were in early G1. Antigenic reactivity was induced in the condensing interphase chromatin in 31% of the interphase nuclei found in mitotic-interphase fused cells. Rodent cells did not react with the antibody by indirect immunofluorescence. Mitotic HeLa cells were able to induce antigenic reactivity in 23 % of interphase Chinese hamster ovary (CHO) cell nuclei in fused binucleate cells, whereas the converse was not true of mitotic CHO cells. Enzyme digestion and incubation with denaturing agents suggested that antigenic reactivity depended on a DNA-non-histone protein complex.     

Loss of differences in mesangial cell phenotype between diabetic and normal rats: Role of culture passages

In mesangial cells (MC) isolated from streptozotocin (STZ)-induced diabetic rat kidneys, sensitivity to bradykinin (BK) for the induction of cell division and collagen synthesis, was found to be lower than in normal MC. Nevertheless, decreased activities could be reverted in vitro by insulin, at non-proliferative concentration (Girolami et al (1995), Can J Physiol Pharmacol 73, 848–853). The aim of the present study was to determine whether differences in the properties of diabetic MC could be ascribed to the diabetic state per se, and/or to experimental conditions, ie culture replating. Through successive cell replating, normal and diabetic types of MC were compared in terms of proliferation, contraction, free calcium concentration in response to KCl depolarization, and in relation to the expression of two cytoskeleton proteins specific to muscle cells, myosin and dystrophin. Studies of proliferation, contraction and free calcium concentration consistently showed that passage 5 was a limit beyond which differences between the two MC types were very small and sometimes non-significant. We found that the mean maximum contraction (MMC) and especially the proportion of contractile cells (PCC) among diabetic cells was lower than in normal MC. In addition, loss in proliferation activity and in [Ca²⁺]_i concentrations were also found to occur during these five early passages. Dystrophin, a new marker of contractile phenotype recently described in smooth muscle cell (Leis et al (1994) Cell Biol Toxicol 10, 305), was first localized in MC and was compared with myosin also expressed in MC. However, during the course of cell replating and/or with the diabetic state, no visible quantitative changes were detected in the expression of the two contractile proteins. We conclude that cultured mesangial cells undergo phenotype modulations, as observed in other cells, in particular smooth muscle cells and consequently, comparative studies between normal and diabetic MC should not be carried out after the 5th passage.     

Proliferation of villous trophoblast of the human placenta in normal and abnormal pregnancies.

The proliferation of villous trophoblast in the human placenta was estimated throughout normal gestation and in term placentae from preeclamptic and smoking mothers by two different methods. These were: 1) labeling of DNA producing cells by bromodeoxyuridine (BrdU) followed by immunohistochemistry using a monoclonal anti-BrdU antibody, and 2) immunohistochemical identification of all proliferating cells by the monoclonal antibody Ki67. Both methods revealed comparable results. In uncomplicated pregnancies there was a remarkable decrease in the labeling indices from early gestation to term. This was the result of a diminution of the number of Langhans' cells, although the cell division rate within the Langhans' cell layer remained nearly constant throughout gestation. A prolongation of the cell cycle in the cytotrophoblast cells at term was indicated by an increase in the Ki67/BrdU ratio. Compared with normal term placentae, there was an increase in the trophoblast proliferation rate in preeclampsia, but not in placentae from smoking mothers. Moreover, the number of Langhans' cells was diminished in placentae from smokers. The results indicate that there are different pathogenetic mechanisms of placental impairment in preeclampsia and in maternal smoking. In preeclampsia an injury to the syncytiotrophoblast seems to lead to a repair hyperplasia of the cytotrophoblast, whereas in maternal smoking, there seems to be a direct toxic effect on the cytotrophoblastic cells.     

Analysis of X-ray induced aberrations in mammalian chromosomes by electrofusion induced premature chromosome condensation

Summary Premature chromosome condensation (PCC) was induced by electrofusion of metaphase cells of an Ehrlich ascites tumor cell line with interphase cells of a Muntjac cell line or of a Chinese Hamster subline. Electrofusion was performed by cell alignment in a weakly inhomogeneous a.c. field of 200 V/cm amplitude (peak-to-peak value) and of 1.7 MHz frequency, followed by the application of a series of breakdown (fusion) pulses of 5 kV/cm strength and 15 µs duration. Most of the PCC's were of the G2 type despite the large proportion of G1 and S cells in the suspension. The number of chromatid aberrations observed in electrofused cells which had not been subjected to irradiation was not significantly above the spontaneous level. This indicates that electrofusion, at least as used here, did not lead to lesions expressed as structural aberrations. When interphase cells were irradiated by X-ray doses below 3 Gy before electrofusion PCC analysis showed chromosome damage consisting mainly of breaks and gaps. The frequency of aberrations recorded by PCC was 6 to 40 fold larger than that seen in conventional metaphase analysis. This large increase probably arose because of an effective suppression of the G2 repair of chromosomal lesions by the fast condensation process which took place within about 30 min. This assumption was supported by PCC experiments in which the time between X-irradiation and fusion with subsequent chromosome condensation was varied. The results demonstrated that G2 repair of chromosomal lesions was not detectable until 20 min after fusion with a half-time of the repair kinetics of about 1.5 h. The selectivity of premature chromosome condensation in G2 cells is discussed in terms of the differences between electrofusion and chemically or virally induced fusion. It is assumed that the concentration and the transfer rate of the chromosome condensation factor from the metaphase to the interphase cell are the limiting factors in achieving PCC. This is because the localised permeabilisation of the membrane and the dominance of two-cell fusions are characteristic of electrofusion.     

Premature chromosome condensation. I. Visualization of x-ray-induced chromosome damage in interphase cells

A new method is described to visualize chromosome damage in interphase cells immediately after exposure to mutagenic agents. This method involves the fusion of treated interphase cells with untreated mitotic cells which results in the induction of premature chromosome condensation (PCC). Chinese hamster ovary (CHO) cells were treated with X-rays and chromosome aberrations were scored in G2-PCC and the mitotic chromosomes. The incidence of aberrations was significantly higher in PCC than that observed in the mitotic chromosomes of the treated cells. Post-irradiation incubation for I h before fusion allowed the repair of some of the chromosome damage. Data are also presented which indicate that the extent of radiation damage visualized in PCC is inversely proportional to the degree of chromosome condensation. These results indicate that the PCC method has a greater senstivity in the detection of induced chromosome damage than the standard method of scoring metaphase chromosomes.     

Insulin receptors in syncytitrophoblast and fetal endothelium of human placenta. Immunohistochemical evidence for developmental changes in distribution pattern

The localisation of insulin receptors (IR) was investigated on cryosections of human non-pathologic first trimester and full term placentae by indirect immunohistochemistry with three different monoclonal antibodies (MABS). In placentae from 6 to 10 weeks post-menstruation (p-m.), only syncytiotrophoblast was stained, predominantly that of mesenchymal villi and syncytial sprouts, which are areas of high proliferative activity. In placentae from 11 to 14 weeks p-m., endothelial cells commenced to react with the IR MABS and the syncytiotrophoblast was less intensely labelled than at weeks 6 to 10 p-m. In term placentae, the microvillous membrane of the syncytiotrophoblast showed only patches of weak immunoreactivity. In contrast, the endothelial cells in the placenta but not in the umbilical cord were strongly stained. The amniotic epithelium in the chorionic plate and fibroblasts in the stroma were conspicuously labelled. The data indicate: (1) the receptor density on villous syncytiotrophoblast decreases and that of fetal endothelium increases throughout gestation; (2) syncytiotrophoblast of human term placentae expresses a low level per unit area of surface IR; and (3) the majority of IR in human term placentae is located in fetal endothelium. Apart from yet unknown functional effects of maternal and fetal insulin at the placental barrier, the results suggest a growth promoting effect on the trophoblast of maternal insulin in first trimester as well as developmental effects of fetal insulin on the feto-placental vessels at term.     

Sugar residues of glycoconjugates in the olfactory epithelium of the human fetus: histochemical study using peroxidase-conjugated lectins]

The oligosaccharide content of glycoconjugates was studied at the olfactory epithelium of human fetuses ranging from 8 to 12 weeks of gestation by mean of peroxidase labelled lectins (DBA, PNA, WGA, SBA, ConA, LTA, UEA I). The main results demonstrated that: 1-The olfactory epithelium (olfactory cells, supporting cells and basal cells) was generally characterized by different amount of a-D-mannose, a-D-galactosamine, a-D-glucose, D-galactose-(beta 1-3)-N-acetyl-galactosamine, sialic acid and a-L-fucose. 2-At the 11th-12th week of gestation the largest amount of sugar residues was detected at the olfactory cells and at some basal cells. 3-At the 12th week of gestation, UEA I may be considered a specific marker of the olfactory cells in different stages of development.     

Lymphocyte-mediated lysis of sheep chorion: susceptibility of chorionic cells to third-party and maternal cytotoxic lymphocytes and presence of cells in the endometrium exhibiting cytotoxicity toward natural-killer cell targets

In several species, the trophoblast is resistant to lysis by cytotoxic lymphocytes. Such resistance is believed to contribute to survival of the semiallogenic conceptus. We tested whether ovine chorionic cells are susceptible to lysis by specific and nonspecific cytotoxic lymphocytes in peripheral blood (PBL) and whether cytotoxic cells that can lyse target cells for natural-killer cells are present in the endometrium. Primary chorionic cells from pregnant ewes at Days 51-91 of gestation were labeled with 51Cr and incubated for 20 h at 50:1 and 100:1 ratios with PBL from the pregnant mother or from a third-party ewe. In the absence of interleukin-2 (IL-2), there was no killing of primary chorionic cells by third-party PBL even after infection of chorionic cells with bovine herpes virus-1. Incubation with IL-2-induced cytotoxic action in third-party PBL towards one of six primary chorionic cell preparations only. Primary chorionic cells from two of four placentae were lysed by maternal PBL. Luminal epithelial cells from cyclic ewes and from the pregnant and nonpregnant uterine horns of unilaterally-pregnant ewes were evaluated for the presence of cells capable of killing D17 target cells (a natural-killer cell target). Killing was observed but there was no difference in activity between physiological stages. In contrast, there was intense immunochemical localization of perforin in glandular and luminal endometrial epithelial cells in pregnant ewes, and less intense staining in nonpregnant animals. It is concluded that ovine chorionic cells are generally resistant to killing by natural-killer-like cells and lymphokine-activated killer cells. Generation of maternal cytotoxic lymphocytes against trophoblast can occur in some cases and may contribute to pregnancy loss.     

Fluorimetric measurements and chromatin condensation patterns of nuclei from 3T3 cells throughout G1

Using two cytological methods based on nuclear morphology, quinacrine dihydrochloride (QDH) staining and premature chromosome condensation (PCC), it has been possible to identify cell cyle positions within G1 of growing and arrested 3T3 cells. The fluorescent intensity of QDH-stained interphase cells appears to decrease as the cells pass from mitosis to S phase. Likewise, the length and thickness of prematurely condensed chromatids can be related to the cells' position within the G1 period. Data are presented that deal with three interrelated topics: (1) We determined by fluorometric measurements of nuclei from 3T3 cells that the visual observation of the decrease in QDH fluorescence during G1 reflects an actual decrease in total fluorescence and not a dispersion of the fluorescent chromatin in a larger nuclear area. (2) We correlated the results obtained by QDH staining with those of PCC on the same cell samples blocked in G1 by different conditions. Serum-starved and contact-inhibited cell nuclei had the highest intensity, hydroxyurea-treated ones had the lowest intensity, while that of isoleucine-deprived cells was in between. The same relative order of G1 positions was obtained based on PCC morphology. Thus, both methods monitor the state of chromatin condensation and can be used to identify cell cycle position within G1.(3) We showed with both methods that the states of chromatin resulting from the various G1 blocking conditions differ from each other.     

Expression pattern of tumor necrosis factor alpha in placentae of idiopathic fetal growth restriction

Tumor Necrosis Factor-Alpha (TNF-α) is one of the proinflammatory cytokines that provokes a variety of biological effects on the placenta. The increased placental exposure to TNF-α have induced impaired fetal development in experimental animals, but no data are available on the expression and localization of TNF-α in human placenta of idiopathic fetal growth restriction (FGR). The aim of this study was to characterize the immunohistochemical expression and localization of TNF-α in idiopathic FGR placentae in comparison with those of appropriate for gestational age (AGA) fetuses. 75 human placentae were collected between April, 2010 and March, 2011; 50 placentae were collected from pregnancies associated with idiopathic FGR and 25 placentae from AGA pregnancies. Histological and Immunohistochemical methodologies were employed in formalin fixed paraffin-embedded sections from the placentae of all subjects. Area percent of TNF-α immunostaining was evaluated using image analysis technique. In both AGA and idiopathic FGR placentae, cytoplasmic TNF-α was localized in the decidual and chorionic trophoblasts and in the endothelium of decidual and chorionic vessels. Trophoblast giant cells (TGC) in the decidua and chorionic villi of AGA specimens show deficient or negative TNF-α immunoexpression while those of idiopathic FGR show positive immunostaining. The mean area percent of TNF-α staining was greater in idiopathic FGR placentae (5.93 ± 0.69) compared to AGA ones (3.28 ± 0.41) (p = 0.001). Enhanced placental expression and specific cellular localization and of TNF-α are expected to contribute to impaired fetal development in idiopathic FGR and the TGCs are proposed to be an obvious source of this cytokine in such cases.     

High-resolution measurement of breaks in prematurely condensed chromosomes by differential staining

A relatively simple method has been developed to improve the resolution for measuring breaks produced in interphase chromosomes by X rays or other agents following the induction of premature chromosome condensation (PCC). Mitotic HeLa cells, which induce PCC when fused with interphase cells, were obtained from cultures grown for several generations in 5-bromodeoxyuridine (BrdU). These were fused to cells from low-passage confluent cultures of normal human fibroblasts and subsequently stained by a modified fluorescence-plus-Giemsa (FPG) technique. Following this protocol the prematurely condensed chromosomes stain intensely, whereas the mitotic chromosomes of the inducer cell(s), which are intermingled with them, stain very lightly. With this technique the interphase chromosomes and their fragments can be identified unequivocally, making scoring much easier and more accurate. The frequency of breaks produced in G1 phase AG1522 human fibroblasts immediately following X-ray doses of 58 and 117 rad was 3.68 and 7.38 per cell, respectively. Use of this technique should allow the detection of damage from ionizing radiation at doses lower than 10 rad.     

Ontogeny and postnatal persistence of a strong suppressor activity in man

We report here on the ontogeny and postnatal persistence of an inhibited human immune response in which lymphocytes from human newborns strongly suppress the proliferation of adults' lymphocytes stimulated by phytohemagglutinin (PHA) or alloantigens in vitro. For this research we used a 2-way mixed lymphocyte culture (MLC) supplemented with PHA, with sex chromosomes acting as markers for dividing male and female cells, or alternatively a double chamber system. The proliferation of maternal lymphocytes was significantly suppressed by fetal lymphoid cells from the liver as early as the 8th week of gestation and by those from fetal blood at the 14th week or later during gestation. This strong suppressor activity persisted in 11-mo-old infants but usually disappeared after that time.     

Changes in the organization of chromosomes during the cell cycle: response to ultraviolet light.

Fusion between mitotic and interphase cells results in the premature condensation of the interphase chromosomes into a morphology related to the position in the cell cycle at the time of fusion. These prematurely condensed chromosomes (PCC) have been used in conjunction with u.v. irradiation to examine the interphase chromosome condensation cycle of HeLa cells. The following observations have been made: (I) There is a progressive decondensation of the chromosomes during G1 which is accentuated by u.v. irradiation: (2) The chromosomes become more resistant to u.v.-induced decondensation during G2 and mitosis. (3) There is a close correlation between the degree of chromosome decondensation and the amount of unscheduled DNA synthesis induced by u.v. irradiation during G1 and mitosis: (4) Hydroxyurea enhances the ability of u.v. irradiation to promote the decondensation of chromosomes during G1, G2 and mitosis. Hydroxyurea also potentiates the lethal action of u.v. irradiation during mitosis and G1. These data are discussed in relation to the suggestion that chromosomes undergo a progressive decondensation during G1 and condensation during G2.     

Immunogold localisation of microcystins in cryosectioned cells of Microcystis

Insights into the origins, function(s), and fates of cyanobacterial toxins may be obtained by an understanding of their location within cyanobacterial cells. Here, we have localised microcystins in laboratory cultures of Microcystis PCC 7806 and PCC 7820 by immunogold labelling. Cryosectioning was used for immunoelectron microscopy since microcystins were extracted during the ethanol-based dehydration steps routinely used for sample preparation. Microcystins were specifically localised in the nucleoplasm and were associated with all major inclusions of the microcystin-producing strains Microcystis PCC 7806 (MC(+)) and Microcystis PCC 7820, and labelling was preferentially associated with the thylakoids and around polyphosphate bodies. A mutant strain of Microcystis PCC 7806 (MC(-)) which does not produce microcystins was used as a control. Distribution of total gold label within each cell region or associated with inclusions indicated that most of the cells' microcystin pool was associated with the thylakoids (69%, PCC 7806 (MC(+)); 78%, PCC 7820), followed by the nucleoplasmic region (19%, PCC 7806 (MC(+)); 12%, PCC 7820). Cryosectioning is a useful technique since it reduces the extraction of microcystins during sample preparation for electron microscopy.     

Cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. VII. Complementation analysis of X-irradiated wild-type CHO-K1 and xrs mutant cells using the premature chromosome condensation technique

The complementation effect of wild-type CHO-K1 and xrs mutants after fusion, as judged by the frequencies of X-ray-induced G1 and G2 premature chromosome condensation (PCC), was studied. For induction of PCC, X-irradiated interphase cells (G1 and G2) were fused immediately with untreated mitotic cells of the same cell line or with mitotic cells of another line. The frequencies of breaks in G1-PCC, or breaks and chromatid exchanges in G2-PCC were determined and the latter parameter was compared with the frequency of chromosomal aberrations in mitotic cells following G2 irradiation. CHO-K1 cells were capable of complementing the X-ray sensitivity of both xrs 5 and xrs 6 cells. However, full restoration of the repair defect in xrs cells could never be accomplished. The mutants failed to complement each other. In CHO-K1 cells, the incidence of chromosomal aberrations was significantly higher in G2-PCC (2.5-fold) than that observed in mitotic cells at 2.5 h after irradiation. The ratio of the induced frequency of aberrations in G2-PCC to that in mitotic cells was correlated with the degree of repair of DNA double-strand breaks (dsb) and reached almost 1 in xrs 5 cells indicating no repair. In addition the data indicated that, during the period of recovery of CHO-K1 cells, X-ray-induced breaks decreased but exchanges remained at the same level. In contrast, due to a deficiency in rejoining of dsb in xrs mutants, breaks remained open for a long period of time, allowing the formation of additional chromatid exchanges during recovery time.     

A three-dimensional study of the normal human placental villous core

Summary In order to study the three-dimensional ultrastructure of the Hofbauer cells, human placentae from the 6th to the 21 st week of gestation and also from the end of pregnancy were cryofractured and observed by scanning electron microscopy. Hofbauer cells were found in the villous core at all the gestation stages examined. Their surface morphology was characterized by lamellipodia, funnel-like structures, blebs and microplicae. This pleomorphic aspect was probably related to functional or environmental conditions. In addition, thin cytoplasmic processes connected the Hofbauer cells with each other and with the components of the villous stroma. Fractured Hofbauer cells revealed large vacuoles in the cytoplasm; the vacuoles were smaller in size both at the beginning and at the end of pregnancy. This study further attests to the macrophagic nature of these cells.