Diploid and tetraploid clonal cells in culture: gene ploidy and synthesis of collagen

ApoER2 (Apolipoprotein E Receptor-2) Deficiency Accelerates Smooth Muscle Cell Senescence via Cytokinesis Impairment and Promotes Fibrotic Neointima After Vascular Injury

OBJECTIVE

Genome-wide studies showed that mutation in apoER2 (apolipoprotein E receptor-2) is additive with ε4 polymorphism in the APOE gene on cardiovascular disease risk in humans. ApoE or apoER2 deficiency also accelerates atherosclerosis lesion necrosis in hypercholesterolemic mice and promotes neointima formation after vascular injury. This study tests the hypothesis that apoE and apoER2 modulate vascular occlusive diseases through distinct mechanisms. Approach and Results: Carotid endothelial denudation induced robust neointima formation in both apoE-/- and apoER2-deficient Lrp8-/- mice. The intima in apoE-/- mice was rich in smooth muscle cells, but the intima in Lrp8-/- mice was cell-poor and rich in extracellular matrix. Vascular smooth muscle cells isolated from apoE-/- mice were hyperplastic whereas Lrp8-/- smooth muscle cells showed reduced proliferation but responded robustly to TGF (transforming growth factor)-β-induced fibronectin synthesis indicative of a senescence-associated secretory phenotype, which was confirmed by increased β-galactosidase activity, p16INK4a immunofluorescence, and number of multinucleated cells. Western blot analysis of cell cycle-associated proteins showed that apoER2 deficiency promotes cell cycle arrest at the metaphase/anaphase. Coimmunoprecipitation experiments revealed that apoER2 interacts with the catalytic subunit of protein phosphatase 2A. In the absence of apoER2, PP2A-C (protein phosphatase 2A catalytic subunit) failed to interact with CDC20 (cell-division cycle protein 20) thus resulting in inactive anaphase-promoting complex and impaired cell cycle exit.

CONCLUSIONS

This study showed that apoER2 participates in APC (anaphase-promoting complex)/CDC20 complex formation during mitosis, and its absence impedes cytokinesis abscission thereby accelerating premature cell senescence and vascular disease. This mechanism is distinct from apoE deficiency, which causes smooth muscle cell hyperplasia to accelerate vascular disease.

Toxic effects of copper sulfate on diploid and triploid fin cell lines in Misgurnus anguillicaudatus

The effects of different concentrations of copper sulfate on diploid and triploid fin cell lines (named DIMF and TRMF, respectively) in Misgurnus anguillicaudatus were studied. The LC₅₀ of copper sulfate estimated by an MTT assay was 268.39 in DIMF cells, and 311.54 μmol/L in TRMF cells, respectively. Activity of superoxide dismutase (SOD) in DIMF cells gradually increased as the concentration of copper sulfate increased (up to 200 μmol/L), and then gradually decreased. SOD activity in triploid loach fin cells, as well as glutathione peroxidase (GSH-Px) and glutathione-S-transferase (GST) activity in both diploid and triploid cells, decreased as the concentration of copper sulfate increased, which suggested that excessive copper exposure at the concentrations tested in this study was detrimental to anti-oxidative capability. In general, SOD, GST and GSH-Px activity was higher in triploid fin cells than in diploid cells. DNA breaks were observed by comet assays after 24 h exposure to 400 and 800 μM copper; DNA percent in the comet's tail was lower in TRMF than in DIMF. Ultrastructurally, there were no significant differences in the organelles of both cells, although a higher number of vesicles were observed in TRMF cells after copper exposure. Pathological changes induced by copper sulfate were similar in DIMF and TRMF cells, and were indicative of cell necrosis. Results above suggested that excessive copper sulfate exposure would lead to antioxidant enzymes activity reduction, along with antioxidant defenses disruption and superoxide radicals increasing, and then to DNA damage, ultrastructural changes and necrosis features in DIMF and TRMF M. anguillicaudatus fin cells. Triploid cell lines had higher resistance to copper than their diploid counterparts especially at higher concentrations of copper due to larger cells and higher intracellular content of detoxification enzymes to resist the toxicity of heavy metals.

Alterations in juvenile diploid and triploid African catfish skin gelatin yield and amino acid composition: Effects of chlorpyrifos and butachlor exposures

Skin is a major by-product of the fisheries and aquaculture industries and is a valuable source of gelatin. This study examined the effect of triploidization on gelatin yield and proximate composition of the skin of African catfish (Clarias gariepinus). We further investigated the effects of two commonly used pesticides, chlorpyrifos (CPF) and butachlor (BUC), on the skin gelatin yield and amino acid composition in juvenile full-sibling diploid and triploid African catfish. In two separate experiments, diploid and triploid C. gariepinus were exposed for 21 days to graded CPF [mean measured: 10, 16, or 31 μg/L] or BUC concentrations [Mean measured: 22, 44, or 60 μg/L]. No differences in skin gelatin yield, amino acid or proximate compositions were observed between diploid and triploid control groups. None of the pesticide treatments affected the measured parameters in diploid fish. In triploids, however, gelatin yield was affected by CPF treatments while amino acid composition remained unchanged. Butachlor treatments did not alter any of the measured variables in triploid fish. To our knowledge, this study is the first to investigate changes in the skin gelatin yield and amino acid composition in any animal as a response to polyploidization and/or contaminant exposure.

Acute phenanthrene toxicity to juvenile diploid and triploid African catfish (Clarias gariepinus): Molecular, biochemical, and histopathological alterations

Information on the biological responses of polyploid animals towards environmental contaminants is scarce. This study aimed to compare reproductive axis-related gene expressions in the brain, plasma biochemical responses, and the liver and gill histopathological alterations in diploid and triploid full-sibling juvenile African catfish (Clarias gariepinus). Fish were exposed for 96 h to one of the two waterborne phenanthrene (Phe) concentrations [mean measured (SD): 6.2 (2.4) and 76 (4.2) μg/L]. In triploids, exposure to 76 μg/L Phe increased mRNA level of fushi tarazu-factor 1 (ftz-f1). Expression of tryptophan hydroxylase2 (tph2) was also elevated in both ploidies following the exposure to 76 μg/L Phe compared to the solvent control. In triploids, 76 μg/L Phe increased plasma alkaline phosphatase (ALP) and lactate dehydrogenase (LDH) levels compared to the other Phe-exposed group. It also elevated lactate and glucose contents relative to the other groups. In diploids, however, biochemical biomarkers did not change. Phenanthrene exposures elevated glycogen contents and the prevalence of histopathological lesions in the liver and gills of both ploidies. This study showed substantial differences between diploids and triploids on biochemical and molecular biomarker responses, but similar histopathological alterations following acute Phe exposures.

Modulation of protein levels in chromosomal dosage series of maize: the biochemical basis of aneuploid syndromes

Genetically defined dosage series of chromosome arms 1L, 3L, 4S, 5L, 7L, 9S, 10L and combinations of 1L-3L, collectively spanning approximately one-third of the maize genome, were examined for alterations in the expression of total protein profiles in scutellar tissue. The major effects found were negative correlations of specific proteins with the dosage of particular regions in a manner similar to that previously described for enzyme activity levels (Birchler 1979). Chromosome arms 1L, 4S and 5L produced the most severe negative effects, with 3L and 7L exhibiting this phenomenon to a lesser degree. Positive correlations of certain proteins were observed with the dosage of the 1L, 3L, 5L and 7L regions. The structural locus of one of the major scutellar proteins (PRO) is present in the long arm of chromosome 1 (Schwartz 1979), but exhibits compensation in a dosage series involving whole-arm comparisons. Multiple factors in 1L affect the level of the protein. The compound TB-1La-3L4759-3 (1L 0.20-0.39) has a slight negative effect on PRO, while TB-1La-3Le (1L 0.20-0.58) and TB-1La-3L5267 (1L 0.20-0.72) have a more pronounced negative influence. The level of this protein is not altered by the dosage of 3L. These observations suggest that compensation is brought about by the cancellation of a positive structural gene dosage effect by the negative inverse effect. Other regions of the genome that contribute to the control of PRO levels are 4S and 5L. Total protein profiles were also compared in haploid, diploid and tetraploid maize as a comparison to the aneuploid series. Most proteins exhibit structural-gene-dosage effects through the ploidy series, but others show a positive effect greater than expected from varying the structural genes. Still others are negatively affected by ploidy changes. In general, the ploidy alterations are not as great as predicted from the cumulative action of the aneuploid effects. The bearing of these observations on the biochemical basis of aneuploid syndromes is discussed.

The influence of triploidy on gene expression in the silkworm, bombyx mori

In Bombyx mori, it is well established that polyploids are easily induced when newly laid eggs are exposed to a variety of conditions, such as high or low temperature, centrifugal force, or chemicals like colchicine. To investigate gene dosage effects by varying the ploidy, the transcription levels of six genes expressed in various tissues were analysed in the diploid and two different genetically produced triploids (PPC and CCP). In the PPC triploid, the transcription level per cell of two genes was directly proportional to the structural gene dosage, whereas two other genes showed the mRNA level expected if compensation occurred. In the CCP triploid, three genes displayed dose-dependent levels of expression, whereas one gene showed the same expression level as the diploid strains. In both triploids, exceptional cases showed a negative correlation of expression with ploidy or a positive correlation greater than expected from the structural gene dosage. Interestingly, the transcription levels of most tested genes were significantly different from the strains which were used as parents of the triploids, and also widely divergent expression patterns were found for some genes in the diploid offspring. In this study, the cause of the unexpected expression patterns observed in the euploid series is discussed in relation to the difference between the two parental strains in expression level of genes and in trans-acting regulatory effects on their target genes.

Establishment and some mutational characteristics of 3T3-like near-diploid mouse cell line

A stable and nonmalignant near-diploid cell line, designated m5S, has been established by serial in vitro transfers of embryonic skin cells of ICR mouse. The cells are stable in karyotype and growth, display high sensitivity to contact inhibition of cell division, are nontumorigenic in nude mice, and the transformation and mutation may be reproducibly tested. Unlike most of the mouse cell lines, the m5S underwent a unique karyotypic change during establishment and showed high stability in a diploid range, making amenable to the study of mutagenesis. The m5S is nearly unique; it represents the second near-diploid cell line sensitive to postconfluence inhibition of cell division derived from mouse embryo cells to be reported and characterized. These cells are being successfully used for qualitative and quantitative studies of oncogenic transformation as well as mutation to drug resistance by radiation and chemicals.

Gene dosage effects in human diploid and tetraploid fibroblasts

The effects of cell ploidy on the biochemical characteristics of cultured cells were compared using human diploid vs tetraploid fibroblasts isolated with a non-selective method. Their DNA replication was compared by thymidine incorporation, and DNA content by Feulgen staining and quantitative analysis. Their RNA and protein content, cell sizes and the specific activities of glucose-6-phosphate dehydrogenase (G-6-PD) and 6-phosphogluconate dehydrogenase (6-PGD) were assayed quantitatively. With the exception of RNA content, all other parameters demonstrated a 2-fold increase reflecting the increase in cell ploidy. These direct gene dosage effects on the genetic material and functional expression of the human genome were in contrast to previous observations in other species and validate the use of human intraspecific euploid hybrids for biochemical and genetic studies.

Alcohol dehydrogenase activity in diploid and autotetraploid Phlox

The effect of polyploidy on the activity of alcohol dehydrogenase was examined in a series of diploid and synthetic autotetraploid Phlox drummondii. In most cases autotetraploids had about twice as much activity as the corresponding diploids, in two cases autotetraploids had about 1.5 times more activity, and in one wild seed pair the activity of the tetraploid was somewhat lower.

Euploid somatic recombinants with two active X or XY (1)Y(I) chromosomes isolated from cultured male Indian Muntjac cells after HVJ virus fusion, and their use for gene assignment

Four diploid somatic recombinants were isolated from hybrids either between or within two diploid cell lines of a male Indian muntjac after HVJ virus-mediated cell fusion. Both parental lines had a normal male karyotype, 7,X,Y1,Y2, in which the largest autosomal pair was heteromorphic with respect to the size of the secondary constriction (1h+/1h-), C bands, and nucleolar organizers. Of the four recombinants, three showed a 6,XX,1h+/1h+ or 1h+/1h- karyotype, the remaining one a 7,XY1Y2,1h+/1h+. No late-replicating X chromosome was found in the XX recombinants, although it was demonstrated in the natural XX line, suggesting the presence of two active X chromosomes in the former. The G6PD, PGK, and HPRT activities were proportional to the number of active X chromosomes present in all cell types examined, indicating their X-linkage, whereas the same level of activities obtained for LDH and 6PGD indicated their autosomal linkage.

The relationship between induced mutation frequency and chromosome dosage in established mouse fibroblast lines

The frequencies of induced mutation to ouabain (OUA) and 6-thioguanine (6TG) resistance were compared in two established mouse fibroblast lines with different doses of the active X chromosome. The activity states of the X chromosomes were determined by DNA replication studies. Mutation frequency to 6TG R, an X-linked recessive phenotype, was inversely related to dosage whereas OUA R, a codominant phenotpye, occurred with equal frequency in both lines. 6TG R clones isolated from the line containing a majority of cells with two active X chromosomes were monosomic for the active X chromosome. Enzyme activity studies of these cytologically monosomic lines yieled results that were consistent with the presence of a single active X chromosome. The findings strongly support the hypothesis that mutation frequency is dependent on gene dosage.

Genetic linkage studies of the human glycosphingolipid beta-galactosidases

The genetic linkage relationships of the human glycosphingolipid beta-galactosidases were determined using human--mouse somatic cell hybrids. A new method was devised for the estimation of human galactosylceramide, lactosylceramide, and GMI-ganglioside beta-galactosidase activities in the presence of their mouse counterparts, which takes advantage of the reproducible specific activity of lysosomal hydrolases under a given set of culture conditions and is based on differences in both pH optima and sensitivity to chloride ion. Human and mouse chromosomes were identified by their characteristic banding patterns obtained after quinacrine staining, and the optimum glycolipid beta-galactosidase activity was determined for three different substrates. A ratio was defined for each activity which was the specific activity at the human pH optimum divided by the specific activity at the mouse pH optimum. Linear regression analysis was used to test for concordant segregation between pH ratios for each enzyme and the frequency of occurrence of different human chromosomes in the man--mouse somatic hybrid clones. The results obtained from two independent series of hybrid clones indicated that human beta-galactosidase activities consistently segregated with human chromosome 12 in these somatic cell hybrids.

Erythrocyte enzyme activities in diploid and triploid salamanders (Pleurodeles waltlii) of both sexes

Studies of several enzyme activities and of some metabolites in erythrocytes of the newt Pleurodels waltilii are described. The results indicate that differences exist between enzyme activities in males and females and in diploid and triploid animals. Females have higher erythrocyte enzyme activities than males. However, triploid animals have lower enzyme activites in their erythrocytes than diploid animals; this observation is more striking in females than in males.

Evidence for the lack of feedback regulation of gene activity and for the absence of subunit exchange between lactate dehydrogenase tetramers in vivo

Frog and rat lactate dehydrogenase (LDH, L-lactate:NAD+ oxidoreductase, EC 1.1.1.27) isozymes, highly purfied by affinity chromatography, were injected into newly fertilized from (Rana pipiens) eggs to study the effect of the injected isozymes on the expression of the LDH genes of the developing frog embryo. From these experiments three conclusions can be drawn: (i) homologous and heterologous LDH, even when present in more than twice the normal amount of LDH, does not play any role in the switching on or off of the frog LDH genes or in regulating the level of gene activity. No evidence was found in support of any feedback regulation of LDH synthesis by the LDH molecule itself. (ii) Injected rat LDH is very stable in the frog embryo, and the contrary to what can be demonstrated in vitro, all the isozymes show the same stability. No evidence was found for selective degradation of any of the injected five isozymes. (iii) The fact that the injected isozymes disappear 12 days after the injection without forming hybrid molecules between themselves or with the stored or newly synthesized frog LDH is evidence in favor of the hypothesis that the tetramer is the degradative unit of LDH, not the monomer as others have postulated. The LDH tetramers do not dissociate the recombine under the physiological conditions present in frog cells.

Gene dosage: evidence for assignment of erythrocyte acid phosphatase locus to chromosome 2

A child, trisomic for the distal short arm of chromosome 2 due to a familial 2/18 translocation, has elevated levels of activity of erythrocyte acid phosphatase [orthophosphoric-monoester phosphohydrolase (acid optimum), 3.1.3.2] Ferguson-Smith et al. [(1973) Nature New Biol. 243, 271-274] previously had found decreased levels of activity and loss of expression of an erythrocyte acid phosphatase allele in a subject who lacked one of the two homologous regions containing the distal three bands of chromosome 2. They suggested that the locus for erythrocyte acid phosphatase is located on that segment. Our findings provide further evidence for this assignment and also suggest an in vivo gene dosage effect of this autosomal locus, which depends on both the type and number of alleles present.

Effect of ploidy on spontaneous mutation rate to asparagine non-requirement in cultured cells

Variations in ploidy do not affect the spontaneous mutation rate to asparagine non-requirement in Jensen rat sarcoma cells cultivated in vitro.