Morphological and chromosomal characterization of three new continuous cell lines of Drosophila melanogaster

Three continuous cell lines (GM₁, GM₂ and GM₃) were obtained from embryos of Drosophila melanogaster. Karyotypic analysis revealed characteristics distinguishing each line. Except for some minor variations GM₁ cells had an X and a centric heterochromatic fragment (which is a portion of the Y). GM₂ line was characterized by XO cells showing two new telocentric chromosomes while an autosome of the II pair was missing. GM₃ cells were XY; the Y chromosome, however, was shorter than the normal, having a deletion of the terminal section of the short arm. Several problems concerning the origin of these different genomes are discussed.This work was supported by a grant of the Consiglio Nazionale delle Ricerche, Roma.     

Spontaneous chromosome rearrangements in an established cell line of Drosophila melanogaster

The chromosomal situation of the GM₃ line of Drosophila melanogaster was observed over a period of one year. From an initial homogeneous condition a karyotypic polymorphism evolved; four different karyotypes, identified by fluorescence patterns, emerged in the population and continued to multiply. The chromosomal rearrangements giving rise to the new karyotypes involved only heterochromatic sections.     

Gangliosides and their cell density-dependent changes in control and chemically transformed C3H/10T1/2 cells

The cloned C3H/10T1/2 mouse embryo cells contained a complex pattern of gangliosides. Two cloned chemical transformants obtained from the C3H/10T1/2 cell line by treatment with 7,12-dimethylbenz(a) anthracene (DMBA-TCL1) and 3-methylcholanthrene (MCA-TCL15) also had complex ganglioside patterns; but the transformants had increased levels of the simplest ganglioside, N-acetylneuraminylgalactosylglucosylceramide (GM₃), and reduced levels of more complex gangliosides. Incorporation of [¹⁴C]glucosamine into gangliosides, as cell-to-cell contact increased in C3H/10T1/2 cells, showed that GM₃ synthesis was decreased and that the synthesis of the more complex ganglioside N-acetylneuraminylgalactosyl-N-acetylgalactosaminyl-(N-acetylneuraminyl)-galactosylglucosylceramide (GD_1a) was increased. In the two transformants the percentage each individual ganglioside was of total labeled gangliosides was only slightly altered with changing cell density. Turnover of [¹⁴C]glucosamine-labeled gangliosides, as cell density increased, was approximately equal in C3H/10T1/2 cells and MCA-TCL15 cells, but more rapid in the DMBA-TCL1 cells. Most individual gangliosides turned over at about the same rate in the respective cell lines. However, GD_1a increased slightly as a percentage of total labeled gangliosides with increasing cell density in both C3H/10T1/2 cells and transformed cells. The labeling data indicated that the majority of GD_1a synthesis was de novo and only a small part occurred by transfer of sialyl or glycosyl residues to simpler gangliosides or catabolism of more complex gangliosides already present in the outer membrane. Exogenous complex gangliosides added to the medium were more effective inhibitors of DMBA-TCL1 cell growth than of C3H/10T1/2 cell growth. Furthermore, gangliosides added to exponentially growing C3H/10T1/2 and DMBA-TCL1 cells caused both cell lines to incorporate a greater percentage of [¹⁴C]glucosamine into gangliosides more complex than GM₃.     

The distribution of repetitive DNA in the chromosomes of cultured cells of Drosophila melanogaster

The distribution patterns of different stains (orcein, quinacrine and Giemsa) in an established cell line of Drosophila melanogaster (GM₃ WS) were compared. Each chromosome stained both with quinacrine and with Giemsa shows up a specific banding pattern for heterochromatin. The comparison between the two patterns suggests a hypothesis concerning the significance of the fluorescence; moreover it permits the conclusion that heterochromatin in D. melanogaster mitotic chromosomes is all constitutive and that there is a correspondence between repetitive DNA and sections poor in mappable genes.This work was supported by a grant of the Consiglio Nazionale delle Ricerche Roma.     

Composition and Metabolism of Gangliosides in Rat Peripheral Nervous System During Development

Abstract: Ganglioside composition of rat trigeminal nerve was studied during development in order to understand the changes that occur as a result of cellular differentiation in the nerve. The ganglioside composition of the trigeminal nerve was entirely different from that of brain. The major gangliosides in adult trigeminal nerve were GM₃, GD₃, and LM₁ (sialosyl-lactoneotetraosylceramide or sialosylparagloboside). The structure of LM₁ and other gangliosides was established by enzymatic degradation and by analysis of the products of acid hydrolysis. At 2 days after birth, when the Schwann cells were immature, GM₃ and GD₃ were the major gangliosides in the nerve, 50 and 18 mol %, respectively. As the nerve developed and Schwann cells proliferated and myelinated the axons, the mol % of GM₃ and GD₃ reduced and that of LM₁ steadily increased. Polysialogangliosides did not change drastically with nerve development. The rate of deposition of LM₁ in the nerve with age was very similar to that of myelin marker lipids, cerebrosides, and sulfatides; thus, deposition appears to be localized mainly in the rat nerve myelin. LM₁ also had long-chain fatty acids 22:0 and 24:0, which are not usually found in CNS gangliosides. The ganglioside pattern of the rat trigeminal nerve was very similar to that of rat sciatic nerve, but was different from that of rabbit and chicken sciatic nerve. The activity of the two key enzymes involved in the metabolism of GM₃, viz., CMP-N-acetylneuraminic acid:lactosylceramide sialyltransferase and UDP-N-acetylgalactosamine:GM₃-N-acetylgalactosaminyltransferase, was also studied during development of the nerve and brain. The developmental profiles of both enzymes were consistent with the amounts of GM₃ present in the nerve.     

GM3 ganglioside induces hamster fibroblast growth inhibition in chemically-defined medium: ganglioside may regulate growth factor receptor function

GM₃ or GM₁ ganglioside exogenously added in chemically-defined medium incorporate equally into cells. However, only GM₃ showed a significant growth inhibition to hamster fibroblasts (BHK). The GM₃-fed cells became refractory to growth stimulation by fibroblast growth factor (FGF) in chemically-defined media. Radiolabeled FGF accumulated on GM₃-fed cells, but not on GM₁-fed cells. Both GM₃ and GM₁ did not directly interact with FGF. These data suggest that GM₃ may regulate the function of the receptors for growth hormones.     

Substitution of inosine for yeastolate in the culture medium forDrosophila cells

Summary The nutritional requirement ofDrosophila cells (GM₁ and GM₂) was studied. TC Yeastolate contained in the medium forDrosophila cell culture was found to be replaceable with adenosine or inosine without appreciable changes in the generation time of cells. The optimal concentration of either adenosine or inosine was 0.01 mM. Whereas adenosine manifested cell toxicity at concentrations higher than 0.1 mM, in the case of inosine, such an inhibitory effect was not observed up to and at the concentration of 1.0 mM. Further-more, the plating efficiency at cell densities as low as 2×10³ cells per cm² was raised from 0 to 10% by supplementing inosine (0.1 mM) for the TC Yeastolate. Therefore inosine is in practice more useful than adenosine. Experiments using radioactive nucleosides suggested that both adenosine and inosine were exclusively incorporated into RNA as adenosine-monophosphate.     

Effects of Cell Density on Lipids of Human Glioma and Fetal Neural Cells

Abstract: Gangliosides, phospholipids, and cholesterol of human glioma (12-18) and fetal neural cells (CH) were analyzed at specified cell densities, from sparse to confluent. Total ganglioside sialic acid, phospholipid phosphorus, and cholesterol increased in the glioma cells on a per cell, mg protein, or mg total lipid basis two- to threefold as cell density increased 25-fold. These same three constituents in the fetal cells increased with cell density on a per cell and mg protein basis but not on a per mg total lipid basis. In glioma cells, the di- and trisialogangliosides (GD₂+ GD_lb+ GT₁) increased from 1–2% of total ganglioside sialic acid at sparse densities to 7–8% at intermediate (logarithmic phase) densities to 10–13% at confluent densities. The set of simpler gangliosides (GM₄+ GM₃+ GM₂) decreased from 50% of total ganglioside sialic acid at sparse glioma cell densities, to 36% at intermediate and 30% at confluent densities. In the fetal neural cells, the set of gangliosides (GM₄+ GM₃+ GM₂) had about 48% of total ganglioside sialic acid in both sparse and confluent preparations. The fetal cells were twofold higher in GM₃ (32.4 ± 2.1%) than the glioma cells (16.8 ± 1.6%), but lower in GM_t (9.1 ± 0.9% versus 18.2 ± 1.8%), cell densities notwithstanding. Confluent cell preparations of both cell lines were consistently higher in ethanolamine plasmalogen than sparse cells. We conclude that in these two neural cell lines quantitative changes in ganglioside and phospholipid species occurred correlatively as cell densities increased. Higher glioma cell densities were associated with greater proportions of complex ganglioside species. These changes in cell membrane constituents during growth may result from cell contact and may indicate a role for them in cell growth regulation and/or differentiation.     

The control of wheat malate dehydrogenase by rye chromosomes

A quantitative analysis of malate dehydrogenase isozymes has been carried out in a hexaploid wheat Triticum aestivum variety Holdfast, a diploid rye Secale cereale variety King II, a series of seven addition lines each having the Holdfast wheat chromosome complement, and also a different homologous pair of King II rye chromosomes. In young shoots of three of these addition lines grown in a defined salts medium lacking sucrose, at least one isozyme activity was elevated. This did not occur in shoots grown in a medium containing 0.5% sucrose or in the Triticale possessing the full wheat and rye chromosomal complements grown in the absence of exogenous sucrose. On the basis of cellular localization and substrate inhibition studies, the particular isozyme activities enhanced by the rye chromosomes were indistinguishable from isozyme activities in Holdfast wheat and dissimilar to all malate dehydrogenase isozyme activities observed in King II rye. These results suggest that three different rye chromosomes produce gene products which can interact with the wheat malate dehydrogenase regulatory system.     

Multiple sex chromosome system of X1X1X2X2/X1X2)Y type in lutjanid fish, Lutjanus quinquelineatus (Perciformes)

The karyotype and other chromosomal markers as revealed by C-banding and Ag-staining were studied in Lutjanus quinquelineatus and L. kasmira (Lutjanidae, Perciformes). While in latter species, the karyotype was invariably composed of 48 acrocentric chromosomes in both sexes, in L. quinquelineatus the female karyotype had exclusively 48 acrocentric chromosomes (2n = 48) but that of the male consisted of one large metacentric and 46 acrocentric chromosomes (2n = 47). The chromosomes in the first meiotic division in males showed 22 bivalents and one trivalent, which was formed by an end-to-end association and a chiasmatic association. Multiple sex chromosome system of X₁X₁X₂X₂/X₁X₂Y type resulting from single Robertsonian fusion between the original Y chromosome and an autosome was hypothesized to produce neo-Y sex chromosome. The multiple sex chromosome system of L. quinquelineatus appears to be at the early stage of the differentiation. The positive C-banded heterochromatin was situated exclusively in centromeric regions of all chromosomes in both species. Similarly, nucleolus organizer region sites were identified in the pericentromeric region of one middle-sized pair of chromosomes in both species. The cellular DNA contents were the same (3.3 pg) between the sexes and among this species and related species.     

Glycosphingolipids in detergent-insoluble substrate attachment matrix (DISAM) prepared from substrate attachment material (SAM) : Their possible role in regulating cell adhesion

The glycosphingolipids isolated from the detergent-insoluble material (DIM) of whole cells as well as from a similar detergent-insoluble substrate attachment matrix (DISAM) have been investigated in comparison with the glycosphingolipids of whole cells. The proportion of glycolipids in the total lipid extract was enriched in the DISAM as well as DIM fractions as compared to whole cells. The ratio of ganglioside (GM₃) to neutral glycolipids was also higher in the DISAM fractions than in whole cells. The radioactivity incorporated into DISAM glycolipids of BHK cells, metabolically labeled with radioactive glucosamine, was greater in confluent cells than in sparsely growing cells; however, label incorporation into glycolipids of the DISAM fraction of BHKpy cells was 2–3-fold higher than that of confluent BHK cells, although the chemical quantity of GM₃ in whole cells was much lower in BHKpy cells than in BHK cells. In order to confirm the enhanced label in DISAM glycolipids of BHKpy cells by other procedures, the labeled cells were detached by EGTA, washed, and reattached on plates. The amount of label in DISAM glycolipids of the reattached matrix of BHKpy cells was much higher than that of BHK cells.Cell spreading and cell attachment on plastic plate were inhibited by inclusion of GM₃ in the medium. These data suggest that: (i) glycolipids, particularly GM₃, at the cell attachment site have different metabolic activity from those of whole cells; the label in glycolipids goes preferentially into cell attachment sites, and may have some functional role in regulating cell attachment of BHK cells; (ii) metabolic activity and turnover of GM₃ in cell attachment sites of confluent cells are higher than actively growing cells, yet those of transformed cells are much higher than any state of non-transformed cells.     

RFLP analysis of rice (Oryza sativa L.) introgression lines

Summary Fifty-two introgression lines (BC₂F₈) from crosses between two Oryza sativa parents and five accessions of O. officinalis were analyzed for the introgression of O. officinalis chromosome segments. DNA from the parents and introgression lines was analyzed with 177 RFLP markers located at approximately 10-cM intervals over the rice chromosomes. Most probe/enzyme combinations detected RFLPs between the parents. Of the 174 informative markers, 28 identified putative O. officinalis introgressed chromosome segments in 1 or more of the introgression lines. Introgressed segments were found on 11 of the 12 rice chromosomes. In most cases of introgression, O. sativa RFLP alleles were replaced by O. officinalis alleles. Introgressed segments were very small in size and similar in plants derived from early and later generations. Some nonconventional recombination mechanism may be involved in the transfer of such small chromosomal segments from O. officinalis chromosomes to those of O. sativa. Some of the introgressed segments show association with genes for brown planthopper (BPH) resistance in some introgressed lines, but not in others. Thus, none of the RFLP markers could be unambiguously associated with BPH resistance.     

Anti-GM3-lactam monoclonal antibodies of the IgG type recognize natural GM3-ganglioside lactone but not GM3-ganglioside

Immunization of mice with a synthetic GM₃-lactam-BSA (bovine serum albumin) conjugate (designed to emulate the corresponding natural GM₃-lactone conjugate), followed by fusion of splenocytes with myeloma cells, gave rise to more than 300 monoclonal hybridomas producing antibodies to GM₃-lactam-BSA, which did not react with Glc-BSA and BSA. Eight antibody clones were randomly chosen from the positive 300 hybridomas. The eight clones, all belonging to the IgG class, were unreactive against GM₃-ganglioside, whereas two antibodies (P5-1 and P5-3, both IgG₁, ) reacted with GM₃-ganglioside lactone. Binding of these two antibodies to the GM₃-lactam-BSA conjugate was inhibited by soluble glycosides of GM₂-, GM₃-, and GM₄-lactam and by GM₃- and GM₄-lactam, respectively, but not by Gb₃ or asialo-GM₁ and GM₂-saccharides. A third antibody (P3; IgG_2b, ) was inhibited by GM₂-, GM₃-, and GM₄-lactam, but did not recognize GM₃-ganglioside lactone.     

Mapping quantitative trait loci associated with regeneration ability of seed callus in rice, Oryza sativa L.

 Quantitative trait loci (QTL) controlling the regeneration ability of rice seed callus were detected using 245 RFLP markers and 98 BC₁F₅ lines derived from two varieties, ‘Nipponbare’ and ‘Kasalath’. Regeneration ability was evaluated by two indices: average number of regenerated shoots per callus (NRS) and regeneration rate (RR). The BC₁F₅ lines showed continuous segregation for both indices. Five putative QTL for NRS (tentatively named qRg1, qRg2, qRg4a, qRg4b and qRg4c) located on chromosomes 1, 2 and 4 were detected. Digenic interaction among these detected QTL was not significant (P<0.01). Among the five QTL detected, four ‘Kasalath’ alleles and one ‘Nipponbare’ allele increased NRS. According to an estimate based on the nearest marker loci, the five QTL accounted for 38.5% of the total phenotypic variation of the BC₁F₅ lines. For RR, four putative QTL were detected on chromosomes 2 and 4, and all of these were in the same chromosomal regions as the NRS QTL. The four RR QTL accounted for 32.6% of the total phenotypic variation. Received: 7 November 1996 / Accepted: 25 April 1997     

Chromosomal mapping of the major and minor ribosomal genes, (GATA)n and (TTAGGG)n by one-color and double-color FISH in the toadfish Halobatrachus didactylus (Teleostei: Batrachoididae)

The karyotype of Halobatrachus didactylus presents 46 chromosomes, composed of eight metacentric, 18 submetacentric, four subtelocentric, and 16 acrocentric chromosomes. The results of FISH showed that the major ribosomal genes were located in the terminal position of the short arm of a large submetacentric chromosome. They also showed a high variation in the hybridization signals. The products of amplification of 5S rDNA produced bands of about 420 pb. The PCR labeled products showed hybridization signals in the subcentromeric position of the long arm of a submetacentric chromosome of medium size. Double-color FISH indicated that the two ribosomal families are not co-located since they hybridizated in different chromosomal pairs. Telomeres of all the chromosomes hybridized with the (TTAGGG) _n probe. The GATA probe displayed a strong signal in the long arm of a submetacentric chromosome of medium size, in the subcentromeric position. The double-color FISH showed that the microsatellite GATA and the 5S rDNA gene are located in different chromosomal pairs. The majority presence of GATA probes in one pair of chromosomes is unusual and considering its distribution through different taxa it could be due to evolutionary mechanisms of heterochromatine accumulation, leading to the formation of differentiated sex chromosomes.     

Monomer of the B Subunit of Heat-Labile Enterotoxin from Enterotoxigenic Escherichia coli Has Little Ability to Bind to GM1 Ganglioside Compared to Its Coligenoid

Coligenoid, composed of the B subunit of heat-labile enterotoxin from enterotoxigenic Escherichia coli, was separated into monomers in the presence of 2% propionic acid containing 6 M urea (pH 3.8). Monomers equilibrated against 0.75% or 0.5% propionic acid containing 3 M urea (pH 3.8) did not reassemble into coligenoid. Complexes of GM₁ ganglioside and coligenoid in these buffers were detected by SDS-polyacrylamide gel electrophoresis, but those of the GM₁ ganglioside and monomers were not. The binding ability of monomer to GM₁ ganglioside in these buffers was about 1% of that of normal coligenoid by GM₁-enzyme-linked immunosorbent assay. Moreover, monomers in these buffers reassembled into coligenoid by buffering against original TEAN buffer, and the binding ability of the resulting coligenoid to GM₁ ganglioside was identical to that of native coligenoid. These data suggest that although coligenoid formation is important for the receptor binding of the B subunit, little binding ability to GM₁ ganglioside remains in monomer of the B subunit.     

Ganglioside GM1 beta-galactosidase: studies in human liver and brain

A microcolumn assay for ganglioside GM₁ β-galactosidase (EC 3.2.1.23) has been developed using GM₁ tritiated exclusively in the terminal galactose residue. The reaction is stimulated up to 100-fold by anionic and cationic detergents; this stimulation is inhibited by neutral detergents. 4-Methylumbelliferyl β-d-galactopyranoside is hydrolyzed about seven times more rapidly than GM₁ in human brain (gray matter) and liver. Agarose gel filtration separated two forms of GM₁ β-galactosidase in both brain and liver. The major form (ganglioside GM₁ β-galactosidase A) had a molecular weight of 60–70 × 10³ and the minor form (ganglioside GM₁ β-galactosidase B) 600–800 × 10³. The liver and brain GM₁ β-galactosidases and 4-methylumbelliferyl β-galactosidase A cochromatographed on fractionation. The two forms of the enzyme in liver isolated by gel filtration corresponded to the two major forms found on starch gel electrophoresis and were converted to electrophoretically slower-moving forms after treatment with neuraminidase (EC 3.2.1.8, Cl. perfringens) suggesting that both are sialylated glycoproteins. The activity of GM₁ β-galactosidase in the brain and liver tissue of patients with GM₁ gangliosidosis Types I and II was less than 2% of control values. The mutation in each GM₁ gangliosidosis appears to result in a severe reduction of activity of two ganglioside GM₁ β-galactosidases.     

Heterochromatin variation in chromosome X in a natural population of Anopheles willmori (Diptera: Culicidae) of Thailand

Among the eight families of Anopheles willmori derived from individual wild-caught females collected from Chiangmai Province (northern Thailand) and examined, four isofemale lines showed variation in the X chromosome, including the normal X₁ and three aberrant types (X₃, X₄ and X_L). It is postulated that these different types of X chromosomes could have arisen as a result of spontaneous chromosomal rearrangements involving tandem translocation and paracentric inversion followed by acquisition of constitutive heterochromatin. Such rare events of chromosomal changes have become established in the natural population of An. willmori in northern Thailand.     

Reactivity of glycoconjugate in membrane system II: Can a neutral glycolipid function as lectin receptor in the presence of gangliosides in plasma membrane?

To examine how surface Potential controls the reactivity of glycoconjugates at cell surface, the interaction of galactose-sPecific lectinse.g. peanut agglutinin,Ricinus cummunis agglutinin with liPosomes bearing asialo GM₁ were studied in the Presence of varying amount of ganglioside mixture, GM_n. The Presence of 5% GM_n causes comPlete slowing down of PreciPitin reaction and thereby make carbohydrate moiety of asialo GM₁ comPletely inaccessiblei.e. ‘cryPtic’. In contrast the Presence of 1–2% GM_n enhances the aPParent rate and amPlitude of the PreciPitin reaction as surface Potential becomes more negative. The relevance of the findings has been discussed in relation to the exPression and involvement of the cell-surface sialic acid residues during develoPment and differentiation.     

Studies of mammalian chromosome replication

Sister chromatids of metaphase chromosomes can be differentially stained if the cells have replicated their DNA semiconservatively for two cell cycles in a medium containing 5-bromodeoxyuridine (BrdU). When prematurely condensed chromosomes (PCC) are induced in cells during the second S phase after BrdU is added to the medium, the replicated chromosome segments show sister chromatid differential (SCD) staining. Employing this PCC-SCD system on synchronous and asynchronous Chinese hamster ovary (CHO) cells, we have demonstrated that the replication patterns of the CHO cells can be categorized into G₁/S, early, early-mid, mid-late, and late S phase patterns according to the amount of replicated chromosomes. During the first 4 h of the S phase, the replication patterns show SCD staining in chains of small chromosome segments. The amount of replicated chromosomes increase during the mid-late and late S categories (last 4 h). Significantly, small SCD segments are also present during these late intervals of the S phase. Measurements of these replicated segments indicate the presence of characteristic chromosome fragment sizes between 0.2 to 1.2 m in all S phase cells except those at G₁/S which contain no SCD fragments. These small segments are operationally defined as chromosome replicating units or chromosomal replicons. They are interpreted to be composed of clusters of molecular DNA replicons. The larger SCD segments in the late S cells may arise by the joining of adjacent chromosomal replicons. Further application of this PCC-SCD method to study the chromosome replication process of two other rodents, Peromyscus eremicus and Microtus agrestis, with peculiar chromosomal locations of heterochromatin has demonstrated an ordered sequence of chromosome replication. The euchromatin and heterochromatin of the two species undergo two separate sequences of decondensation, replication, and condensation during the early-mid and mid-late intervals respectively of the S phase. Similar-sized chromosomal replicons are present in both types of chromatin. These data suggest that mammalian chromosomes are replicated in groups of replicating units, or chromosomal replicons, along their lengths. The organization and structure of these chromosomal replicons with respect to those of the interphase nucleus and metaphase chromosomes are discussed.