CHANGES IN LIVER CELLS PLOIDY OF YOUNG RATS FOLLOWING ISOPRENALINE TREATMENT

Cell proliferation induced by isoprenaline (IPR) stimulation in very high doses was assayed in the liver of young rats, and the formation of polyploid cells was studied from the 15th to the 70th day of life. A general stimulatory effect on a complex process of cellular multiplication, leading to a population of tetraploid cells, was found to be accelerated; the earlier appearance of binucleate cells and the subsequent significant variations in their incidence confirmed the role of this cell type as an intermediate step in the process of polyploidization. Evidence was found of concomitant size changes of the hepato-cytes, which might be partially independent of the effect on DNA content. The stimulation was no longer evident 20–30 days from the end of treatment, by when the cells which had come into contact with IPR should have completed the whole sequence of events leading to the formation of tetraploid mononucleate cells.     

Occurrence of ploidy shift in a strain of the imperfect yeast Candida albicans

A clinical isolate of Candida albicans, a member of the Fungi Imperfecti, was polyploid as shown by the fact that it contained two kinds of nuclei, one of diploid and one of tetraploid DNA content. These determinations were made by fluorescence microscopy-photometry. The nucleus-associated organelles (NAOs), or spindle pole bodies, of yeast cells in this isolate were classified into two groups, one diploid and the other tetraploid, according to their dimensions as determined by serial thin-sectioning electron microscopy. A ploidy shift from diploid to tetraploid was found in individual cells of a culture of this isolate undergoing diphasic growth in minimal salts medium. A process of shift-down or reduction of ploidy from tetraploid to diploid was also observed by electron microscopy during these growth conditions: this appeared to occur in large cells which showed multiple spindle formation during nuclear division, a phenomenon apparently similar to the process of meiosis II during sporogenesis of Saccharomyces cerevisiae, but differing in that it produces diploid daughter nuclei by the vegetative process.     

Effects of beta-adrenergic stimulation on bone-marrow function in normal and sublethally irradiated mice. I. The effect of isoproterenol on cAMP content in bone-marrow cells in vivo and in vitro.

The effect of isoproterenol (IPR) on bone-marrow cAMP content was investigated in vivo and in vitro. In unirradiated CFW mice, the bone-marrow cAMP content was found to be elevated by the administration of noradrenaline, adrenaline and isoproterenol. After IPR administration, the increase in cAMP was biphasic with maxima at 1 and 15 min. An increase in cAMP content was also noted in bone-marrow of sublethally-irradiated mice, but no further increase was observed 15 min after the administration of IPR. Elevation of cAMP by either IPR or radiation was prevented by pretreatment with the beta-adrenergic blocking agent--propranolol. IPR was also effective in increasing the cAMP content when added to suspension of bone-marrow cells. This effect was abolished by propranolol. IPR did not increase cAMP levels in bone-marrow cells isolated from irradiated animals. The results suggest that the differentiated bone-marrow cells have beta-adrenergic receptors.     

Exocytosis in living salivary glands: direct visualization by video-enhanced microscopy and confocal laser microscopy

Although exocytosis is widely believed to involve granule movement, membrane fusion and the emptying of granule content, direct study of these processes has been difficult in living cells because of the limited resolution of conventional light microscopy. Using video-enhanced microscopy and confocal laser microscopy, we have now studied these processes in living rat parotid and submandibular gland acinar cells. Under a differential interference contrast (DIC) microscope equipped with a CCD camera and a high speed image processor, secretory granules were in general stationary even after secretory stimulation with isoproterenol (IPR). Following IPR stimulation, however, there were abrupt changes in light intensity of secretory granules, and many granules disappeared. Confocal microscopy was then performed to confirm whether the observed changes in granules were related to membrane fusion and content release. For this, cells were perfused with the fluid-phase tracer Lucifer Yellow; confocal images thus obtained clearly demonstrated the appearance of fluorescence in omega-shaped invaginations of the apical plasma membrane which corresponded to the sites at which changes were observed in DIC images. The time sequence analyses of confocal images showed that there was a repetitive appearance and disappearance of omega-shaped fluorescent foci at the apical plasma membrane until most of the granules were depleted. During this time, there did not appear to be any significant expansion of the apical plasma membrane and if endocytic uptake of the tracer occurred, it was below the limit of detection. These observations provide new insights into the exocytotic process in salivary glands and are at variance in some respects with previous interpretations made from electron microscopy.     

Chromosome instability in Spodoptera frugiperda Sf-9 cell line

Homogeneous cell lines are essential in industry and research if reliable and reproducible data are to be obtained. The Spodoptera frugiperda (Sf-9) cell line routinely used for the production of recombinant proteins was found to be heterogeneous, containing a mixture of diploid and tetraploid cells. Using dilution-cloning techniques, diploid and tetraploid subpopulations were isolated from a Sf-9 parental cell line, and their cytogenetic state was monitored using Vinblastine to arrest cells in mitosis. Flow cytometry was used to obtain a snapshot of the predominant subpopulations present to verify the karyological results. The rate at which clonal populations digress into the heterogeneous state was found to be more rapid for the diploid subpopulation, with the emergence of tetraploid cells after only 11 passages, than for the tetraploid subpopulation, where diploid clones appeared after 18 passages. The chromosomes in both diploid and tetraploid subpopulations as well as the parental cell line were found to spontaneously fragment during growth and expansion processes, giving rise to variable chromosome numbers. DNA analysis of cell lines obtained from laboratories worldwide have shown that the Sf-9 cell line used for the production of many recombinant proteins is cytologically unstable, leading to varying degrees of polyploidal state depending on its culture history and supplier.     

The role of ras proteins in insulin signal transduction.

Ras-proteins are guanine nucleotide binding proteins, which, in the GTP bound state emit a strong mitogenic signal. In the GDP bound state, the protein appears inactive. We have found that stimulation by insulin of cells expressing elevated levels of insulin receptors results in a rapid conversion of Ras-GDP into Ras-GTP. This process is part of the signalling pathway leading to immediate-early gene expression and a mitogenic response. There seems to be no involvement of Ras-GTP formation in the process of insulin stimulated glucose transport. Though the precise mechanism by which Ras is converted to the GTP bound state remains to be established, a tight correlation exists between receptor autophosphorylation and Ras-GTP formation.     

INDUCTION OF CELL PROLIFERATION IN THE MOUSE BLADDER BY 4-ETHYLSULPHONYL-NAPHTHALENE-1 -SULPHONAMIDE

The reaction of the bladder epithelium of mice, following stimulation with a carcinogen, 4-ethylsulphonylnaphthalene-1-sulphonamide (ENS), was studied. A wave of cell division was induced in the resting epithelium, diploid and tetraploid cells being the main dividing elements; some of the high ploidy surface cells also underwent division. The cell cycle time for the diploid and tetraploid cells appeared to be identical. There was considerable variation in the intensity and timing of the onset of cell division in the bladder epithelium of individual animals. ENS caused severe damage to the surface cells of the bladder epithelium as indicated by increased lysosomes and the formation of large vacuoles.     

复合四倍体异育银鲫两种不同生殖方式的细胞学观察

在复合四倍体异育银鲫（）×银鲫（）的受精过程中,精子入卵后经过解凝、核化,最终形成雄性原核,并可与卵子的雌性原核融合,证明了复合四倍体异育银鲫卵子具有与两性融合生殖极为相似的拟两性融合生殖的能力;而在复合四倍体异育银鲫（）×兴国红鲤（）的组合中,精子入卵后以固缩状态存在,又表现出典型的雌核发育型生殖行为。因此我们认为复合四倍体异育银鲫具有两种不同的生殖发育机制。此外,我们还观察到在第一次有丝分裂中期有核物质被排斥到纺锤体之外的现象。本文就复合四倍体异育银鲫生殖发育的机制进行了初步的探讨。     

When 2 + 2 = 5: The origins and fates of aneuploid and tetraploid cells

Aneuploid cells are frequently observed in human tumors, suggesting that aneuploidy may play an important role in the development of cancer. In this review, I discuss the processes that may give rise to aneuploid cells in normal tissue and in tumors. Aneuploid cells may arise directly from diploid cells through errors in chromosome segregation, as a consequence of incorrect microtubule-kinetochore attachments, or through failure of the spindle checkpoint. A second route to formation of aneuploid cells is through a tetraploid intermediate, where division of tetraploid cells can yield very high rates of chromosome missegregation as a consequence of multipolar spindle formation. Diploid cells may become tetraploid through a variety of mechanisms, including endoreduplication, cell fusion, and cytokinesis failure. Although aneuploid cells may arise from either diploid or tetraploid cells, the fate of the resulting aneuploid cells may be distinct. It is therefore important to understand the different pathways that can give rise to aneuploid cells, and how the varied origins of these cells affect their subsequent ability to survive or proliferate.     

Isolation of tetraploid clones with high efficiency from diploid 3Y1 rat fibroblasts treated with sodium butyrate

Summary Sodium butyrate causes proliferation arrest with a G2 (4C) DNA content and induces formation of tetraploid cells upon removal of the inhibitor, in rat 3Y1 diploid fibroblasts. We isolated tetraploid clones from the butyrate-treated 3Y1 cells with high efficiency; among 21 clones randomly isolated, 5 were pure diploid, 7 were mainly tetraploid with a small contaminating diploid population, and 7 were pure tetraploid. Among the pure tetraploid clones, two showed doubled chromosome numbers with slightly broader distributions than that seen in parental 3Y1 cells. Butyrate further induced polyploid formation in the tetraploid cells thus produced, but octaploid cells that resulted could not be maintained for prolongeed, cultivation. We found no difference between the tetraploid and the (parental and parallel isolated) diploid clones in terms of colony-forming ability, proliferation rate, and sensitivity to density-dependent inhibition of proliferation. These results suggest that doubling of chromosome number by itself does not cause a change in proliferation property. The tetraploid clones had lower average saturation densities possibly due to enlargement of cell size represented by higher cellular protein content.     

When 2+2=5: the origins and fates of aneuploid and tetraploid cells

Aneuploid cells are frequently observed in human tumors, suggesting that aneuploidy may play an important role in the development of cancer. In this review, I discuss the processes that may give rise to aneuploid cells in normal tissue and in tumors. Aneuploid cells may arise directly from diploid cells through errors in chromosome segregation, as a consequence of incorrect microtubule-kinetochore attachments, or through failure of the spindle checkpoint. A second route to formation of aneuploid cells is through a tetraploid intermediate, where division of tetraploid cells can yield very high rates of chromosome missegregation as a consequence of multipolar spindle formation. Diploid cells may become tetraploid through a variety of mechanisms, including endoreduplication, cell fusion, and cytokinesis failure. Although aneuploid cells may arise from either diploid or tetraploid cells, the fate of the resulting aneuploid cells may be distinct. It is therefore important to understand the different pathways that can give rise to aneuploid cells, and how the varied origins of these cells affect their subsequent ability to survive or proliferate.     

Effect of DL-alpha-hydrazino-delta-aminovaleric acid, an inhibitor of ornithine decarboxylase, on polyamine metabolism in isoproterenol-stimulated mouse parotid glands.

The effects of DL-alpha-hydrazino-delta-aminovaleric acid (DL-HAVA) on polyamine metabolism in isoproterenol(IPR)-stimulated mouse parotid glands were investigated both in vitro and in vivo. Using partially enzyme preparations, it was found that DL-HAVA strongly inhibited ornithine decarboxylase (EC 4.1.1.17) by competing with L-ornithine. Other enzymes metabolizing ornithine and pyridoxal phosphate-dependent enzymes were at least 2-3 orders of magnitude less sensitive to DL-HAVA than ornithine decarboxylase. Administration of DL-HAVA greatly depressed the increases in both the putrescine level and putrescine formation from L-ornithine induced by IPR in the mouse parotid glands. Under the same conditions, the stimulation of DNA synthesis and subsequent cell proliferation in the glands were also suppressed. However, the IPR-dependent increases in S-adenosyl-L-methionine decarboxylase (EC 4.1.1.50) activity, synthesis and the tissue concentration of spermidine, and RNA synthesis in the parotid glands were not affected appreciably by DL-HAVA. The inhibition of DNA synthesis by DL-HAVA was effectively prevented by putrescine, but not by spermidine or 1,7-diaminoheptane, given at the same time when DL-HAVA inhibited stimulation of putrescine formation by IPR. From these results, it is proposed that putrescine is involved in cell proliferation besides being a precursor of spermidine. The effects of methylglyoxal bis(guanylhydrazone) (MGBG), an inhibitor of S-adenosyl-L-methionine decarboxylase, on the metabolism of polyamines and nucleic acids in growing parotid glands were also examined.     

Stimulation of protein synthesis and Met-tRNAf binding by phosphorylated sugars: studies on their mechanism of action.

It has been previously reported by J. R. Lenz et al. [(1978) Biochemistry 17, 80--87] that certain phosphorylated sugars stimulate protein synthesis in extracts of mammalian cells. This effect was found to be due to a stimulation of Met-tRNAf binding to 40S ribosomal subunits, both in whole extracts and with isolated ribosomes. However, formation of a ternary complex of Met-tRNAf, initiation factor eIF-2, and GTP was not stimulated. It was also shown that the stimulation is not due solely to metabolism of the sugars. The present communication further characterizes the stimulatory effect of the sugars. They were found to prevent the inactivation of ribosomes that occurs during protein synthesis incubations. The sugars were also found to inhibit cAMP-dependent protein kinases noncompetitively. However, they stimulate Met-tRNAf binding to 40S ribosomal subunits even under conditions in which an inhibition of protein kinase has no effect. Although it has bot been possible to demonstrate a direct association of the sugars with the 40S initiation complex, the evidence suggests that their effect is mediated by an interaction with one of the components involved in the formation of this complex.     

A and D genomes spatial separation at somatic metaphase in tetraploid cotton: evidence for genomic disposition in a polyploid plant

Chromosomal dispositions were analyzed on the metaphase plate of tetraploid cotton (AADD). At metaphase, the two subgenomes, A and D, were separated in a radial pattern in which the small D subgenome chromosomes tended to concentrate at the center and the large A subgenome chromosomes were scattered about the periphery on the metaphase plate. Although the ordered chromosome arrangement was disturbed in an artificial hexaploid (AADDGG), the separation pattern could be recovered after the majority of the additional genome (GG) chromosomes were removed by backcrossing the artificial hexaploid with the tetraploid cotton (AADD). A similar genome separation phenomenon was also found in synthesized tetraploid cotton (AAGG). These results indicate that the genome separation pattern could be established immediately after tetraploid cotton formation and could be stably inherited in tetraploid cotton. Given the evidence of parental genome separation in other plants and animals, we speculated that genome separation might be a normal phenomenon in diploid and polyploid species. These finding will shed light on the chromosome conformation in plant cells.     

EPI64 protein functions as a physiological GTPase-activating protein for Rab27 protein and regulates amylase release in rat parotid acinar cells

Rab27, a small GTPase, is generally recognized as an important regulator of secretion that interacts with Rab27-specific effectors to regulate events in a wide variety of cells, including endocrine and exocrine cells. However, the mechanisms governing the spatio-temporal regulation of GTPase activity of Rab27 are not firmly established, and no GTPase-activating protein (GAP) specific for Rab27 has been identified in secretory cells. We previously showed that expression of EPI64, a Tre-2/Bub2/Cdc16 (TBC)-domain-containing protein, in melanocytes inactivates endogenous Rab27A on melanosomes (Itoh, T., and Fukuda, M. (2006) J. Biol. Chem. 281, 31823-31831), but the EPI64 role in secretory cells has never been investigated. In this study, we investigated the effect of EPI64 on Rab27 in isoproterenol (IPR)-stimulated amylase release from rat parotid acinar cells. Subcellular fractionation and immunohistochemical analyses indicated that EPI64 was enriched on the apical plasma membrane of parotid acinar cells. We found that an antibody against the TBC/Rab-GAP domain of EPI64 inhibited the reduction in levels of the endogenous GTP-Rab27 in streptolysin-O-permeabilized parotid acinar cells and suppressed amylase release in a dose-dependent manner. We also found that the levels of EPI64 mRNA and EPI64 protein increased after IPR stimulation, and that treatment with actinomycin D or antisense-EPI64 oligonucleotides suppressed the increase of EPI64 mRNA/EPI64 protein and the amount of amylase released. Our findings indicated that EPI64 acted as a physiological Rab27-GAP that enhanced GTPase activity of Rab27 in response to IPR stimulation, and that this activity is required for IPR-induced amylase release.     

Electrofusion of mouse embryos results in uniform tetraploidy and not tetraploid/diploid mosaicism.

Some previous attempts to produce tetraploids experimentally have resulted in a proportion of treated embryos becoming 2n/4n mosaics at a frequency which may be as high as 20%, when using cytochalasin B as a fusigenic stimulus and cytogenetic techniques to identify putative tetraploid embryos. To investigate the possible occurrence of 4n/2n mosaicism, tetraploid embryos were produced by electrofusion, a process which allows adjacent blastomeres at the 2-cell stage to fuse following exposure to electric field pulses. Embryos used for electrofusion were hemizygous for a transgene consisting of approximately 1000 copies of the mouse beta-globin gene. After in situ hybridization, one hybridization signal is expected per diploid genome. Tetraploid cells in 7.5-, 8.5-, 9.5- and 10.5-day-old conceptuses were distinguished from diploid cells by performing in situ hybridization on histological sections. The frequency of nuclei with two hybridization signals in the 'hemizygous' tetraploid embryos was compared to diploid embryos which were either hemizygous or homozygous for the beta-globin transgene. Comparison of the frequency of nuclei with two hybridization signals between tissues of 'hemizygous' tetraploid conceptuses and homozygous diploid conceptuses showed no significant difference, which implies that the tissues in the tetraploid conceptuses were uniformly tetraploid. No evidence was found to suggest that electrofusion results in 2n/4n mosaicism.     

p53 represses the polyploidization of primary mammary epithelial cells by activating apoptosis

Tetraploidy may constitute a metastable state leading to numeric and structural chromosome abnormalities that are associated with cancer. Here, we show that cultured primary p53-/- (but not wild type, WT) mouse mammary epithelial cells (MMECs) accumulate a tetraploid sub-population in vitro. This occurs spontaneously, yet can be exacerbated by the addition of microtubule inhibitors as well as of inhibitors of cytokinesis. As compared to WT cells, tetraploid p53-/- MMECs contain supernumerary centrosomes and exhibit a reduced propensity to initiate the mitochondrial pathway of apoptosis. Moreover, tetraploid p53-/- MMECs are more resistant against anthracyclin-induced cell killing than their diploid counterparts. Altogether, these data indicate that p53 normally suppresses the generation of tetraploid cells, presumably by activating the intrinsic pathway of apoptosis. In the absence of p53, tetraploid cells accumulate as a result of inhibited apoptosis, which contributes to the acquisition of chemotherapy resistance.     

Polyploid formation via chromosome duplication induced by CTP:phosphocholine cytidylyltransferase deficiency and Bcl-2 overexpression: identification of two novel endogenous factors.

Polyploidy is a profound phenotype found in tumors and its mechanism is unknown. We report here that when B-cell lymphoma gene-2 (Bcl-2) was overexpressed in a Chinese hamster ovary cell line that was deficient in CTP:phosphocholine cytidylyltransferase (CT), cellular DNA content doubled. The higher DNA content was due to a permanent conversion from diploid cells to tetraploid cells. The mechanism of polyploid formation could be attributed to the duplication of 18 parental chromosomes. The rate of conversion from diploid to tetraploid was Bcl-2 dose dependent. The diploid genome was not affected by Bcl-2 expression or by CT deficiency alone. Endogenous CT or expression of recombinant rat liver CTalpha prior to Bcl-2 expression prevented the formation of polyploid cells. This conversion was irreversible even when both initiating factors were removed. In this study, we have identified Bcl-2 as a positive regulator and CTalpha as a negative regulator of polyploid formation.     

Quantitative immunocytochemistry of rat submandibular secretory proteins during chronic isoproterenol administration and recovery

We utilized quantitative electron microscopic immunogold labeling procedures to follow changes in the intragranular content of five secretory proteins of the rat submandibular gland (SMG) during and after chronic treatment with the beta-adrenergic agonist isoproterenol (IPR). Labeling intensities (gold particles/microns2) of acinar cell secretory granules for mucin and glutamine/glutamic acid-rich proteins, major secretory proteins of the normal SMG, showed opposite responses to IPR. Labeling intensities increased for mucin and decreased for glutamine/glutamic acid-rich proteins immediately after IPR injections began, then rapidly returned to control levels after cessation of IPR treatment. SMG Protein C immunoreactivity, found in both acinar and intercalated duct granules, was less affected by IPR. However, opposite changes in labeling intensity were observed between acinar and intercalated duct granules. Labeling intensities for proline-rich proteins, IPR-inducible secretory proteins, increased only after 10 days of stimulation and maintained a high level even after cessation of drug treatment. Type 2 cystatin, another IPR-inducible protein, increased gradually with chronic IPR treatment and decreased slowly during the recovery phase. These results suggest that chronic beta-adrenergic stimulation affects the expression of genes for several rat SMG secretory proteins in a different manner.