The ploidy variability of human cardiomyocytes

Unlike literature on ploidy of the human myocytes, DNA content and the number of nuclei have been revealed in the same cells. Besides, the cell ploidy were studied separately in the external, central and inner regions in the left ventricule. Considerable binucleation was revealed in normal and hypertrophic ventricles where 4c X2 was the modal cell class and there were 2c X 2, 8c X 2 and single 16c X 2 cells. Two alternative assumptions have been put forward concerning the genome differences: 1) myocytes enter in mitotic cycle under pathologic conditions or 2) the difference causes in genuine variability of the ploidy classes in normal hearts.     

Changes in the ultrastructure and DNA and protein content in human atrial myocytes in cardiac hyperfunction due to mitral valve defects

Biopsies from human right auricles were obtained during open heart surgery, prior to valve replacement, from six patients (aged from 20 to 49 years) with rheumatic heart disease. DNA and the total protein contents were measured in isolated myocytes by means of the two wave-length scanning cytophotometry after the double Feulgen and Naphthol yellow S staining procedure. In all the biopsies polyploid hypertrophied myocytes predominate. The hypertrophic, nondegenerated cells and the cells with degenerative changes of varying severity (in the first place, changes of contractile apparatus and membranes) are present. The highest degree of cell ploidy occurs in patients of functional class IV according to the New York Heart Association classification, 72 to 98% of cells displaying octaploid and higher DNA values. With the increase in ploidy of myocytes in series 2c----4c----8c----16c----32c----64c the protein content increases only as 2.0----3.0----5.8----7.8----13.0----16.8. Neither direct correlation between the ploidy level and the degree of cell degeneration, no inverse correlation between the degree of degeneration and the value of ejection fraction was observed.     

Protein mass in human cardiomyocytes does not correspond to gene content

Lack of proportionality between DNA and protein content has been revealed in the human cardiac myocytes. The proportion 2:4:8:16 was observed in DNA of di-, tetra-, octa- and hexadeca myocytes while the protein content of the same cells was 2:3.5:5.2:7.2 in the inner layer, 2:3.5:6.5:8.9 in the central layer and 2:3.1:5.6:9.1 in the outer layer of the normal left ventricle. The protein content of myocytes of the same ploidy was higher in the inner layer than in other ones.     

Nuclear size of myocardial cells in end-stage cardiomyopathies

OBJECTIVE: To determine the alteration of nuclear size in myocardial cells and the relationship between nuclear size and DNA ploidy classes in normal and cardiomyopathic human hearts. STUDY DESIGN: The study group consisted of 46 hearts obtained at biopsy. These patients had undergone cardiac transplantation for intractable congestive heart failure (18 cases with ischemic cardiomyopathy and 28 cases with idiopathic dilated cardiomyopathy). Another 10 hearts were collected at autopsy and used as control hearts according to preautopsy, autopsy and histology criteria. One hundred fibroblasts and 200 myocytes were evaluated in each ventricle. The nuclear area and DNA content were estimated using image cytometry. RESULTS: End-stage ischemic and dilated cardiomyopathies were characterized by an increase in nuclear size of both the myocyte and nonmyocyte population. The nuclear area of interstitial cells increased about 30% in cardiomyopathic hearts. Augmentation of average nuclear area of myocytes was 1.2-fold in the ischemic group and about 1.5-fold in the dilated group as compared with the control group. Also, a tendency was found for the coefficient of variation of average nuclear area to decrease in the interstitial cell population and increased in the myocyte population in cardiomyopathic situations. Furthermore, the nuclear area of myocytes enlarged as augmentation of nuclear DNA content. The relative nuclear areas of myocytes can be presented as: 2c:4c:8c:16c :32c:64c = 1:1.65:2.75:4.60:7.25:9.18. CONCLUSION: The increase in nuclear size follows either one of two different processes: the first does not involve an increase in DNA content, whereas the second is concomitant with an incremental increase in DNA content. In the first instance, the enlargement of nuclear size is limited. In the second, augmentation of nuclear size can become very impressive. In end-stage ischemic and dilated cardiomyopathies, the nuclear growth of myocytes and interstitial cells may be due to different mechanisms. Enlargement of the nuclear area of myocytes represents a complex process, including simple nuclear hypertrophy, polyploidization and multinucleation. The main pattern of nuclear growth of interstitial cells is nuclear hypertrophy without an increase in DNA content.     

Change n the ploidy classes of left ventricular myocytes in rats after ligation of the left coronary artery

Heterogeneous response of cardiomyocytes in left atria of rats to ligation of the left coronary artery was observed. Ploidy may greatly increase reaching 32 c per cell. More than 90% of myocytes are normally mononuclear diploid cells, while after the ligation the number of such cells diminishes to 10%. The majority of cells become polyploid: above 50% of cells are 2 X 2 c ploid, about 30% of cells are 4 X 2 c ploid and a great number of cells are highly ploid.     

Morphofunctional parameters of the nucleoli during development of polyploid nutrient cells of gonads from the snail Succinea lauta

Ag-protein contents, integral area and number of nucleoli in polyploidizing nuclei of gonadal nutrient cells of the snail Succinea lauta were estimated on the squashed preparations by means of morphometry and cytophotometry. 8 NORs of different size were found in haploid chromosome set of prophase spermatocytes (n = 22), but usually 1-2 nucleoli per 2c DNA are present in the nutrient cell nuclei. During genome multiplication from 2c to 32c-64c the Ag-proteins content of nucleoli increased proportionally to gene dosage, but irregularly: before 8c-level the coefficient of increasing in each endocycle was more than 2; from 8c to 16c it was 2; after 16c-level it usually decreased to 1.6-1.3. This dynamics reflects the effects of several factors on nucleolar activity: endomitotic polyploidy (gene dosage effect), differentiation and rhythmic functioning of tissue. Increasing indexes of integral area and the number of nucleoli during polyploidization were significantly less, than increasing index of Ag-proteins. The lag of nucleolar area for 4 cycles (2c-32c) was 32%, and number of nucleoli per diploid set decreased from 2 to 1. It may be due to NOR aggregation corresponding chromosomes. The photometric index of Ag-protein content more adequately reflects in the nucleolar activity during development and functioning of tissues.     

Morpho-functional parameters of nucleoli in polyploid mucous and albumen cells of salivary gland in the snail Succinea lauta

Variation of some characteristics of nucleoli of polyploid mucous and albumen cells was examined in salivary glands of the snail Succinea lauta. The number, total area and Ag-protein content of nucleoli, and DNA content in each nucleus were estimated on squashed preparations incubated with AgNO3, decolorized and then Feulgen stained. The ultrastructure of nucleoli was studied by electron microscopy. Differentiated mucous cells had 4c-8c-16c-32c nuclei; albumen cells had 8c-16c-32c-64c-128c nuclei. The ultrastructure of nucleoli of the two cell types was essentially the same. Normally, a large fibrous to granular zone was observed in the nucleoli, without a clear distinction between fibrous and granular components. At the same time, aggregations of granular matter could be discerned at the periphery of nucleoli. No fibrous centers were observed. Occassionally, nucleolonema-like structures occurred. Normally each nucleolus contacted several chromosomes. On squashed preparations, the least size of nucleoli was 2-3 microm, and the largest size amounted to 14 microm in mucous cells, and to 50-80 microm in albumen cells. The number of nucleoli rose from 1-2 in tetraploid nuclei to 2-3 in 32c-nuclei, and to 5-7 in 128c-nuclei. The disparity between the ploidy levels of nuclei and the numbers of nucleoli may be due, presumably, to aggregation of chromosome NORs. The Ag-protein content in the nucleoli, and the total nucleolar area displayed a strong mutual correlation. Both parameters differed significantly by 1.5-2.2 times in mucous and albumen cells of the same ploidy level. Thus, in albumen and mucous cells the total Ag-protein content in octaploid nuclei was 3.3 and 2.2 relative units (r. u.), respectively. In 16c- and 32c-nuclei of albumen cells, it was 7.6 and 15.1 r. u.; and in the same nuclei of mucous cells--3.8 and 6.8 r. u., respectively. On the whole, in albumen cells, in the course of 4 endocycles (4c-128c), the total Ag-protein content increased by 17 times. Therefore, the mean multiplication factor for this parameter was found to be 2.05 per endocycle. In mucous cells, in the course of 3 endocycles (4c-32c), the total Ag-protein content increased by 5.2 times against 8 times expected, with the mean multiplication factor equal to 1.75 per endocycle. Thus, in the course of polyploidization of albumen and mucous cell nuclei, the gene dosage effect was fully pronounced in the former, and only partly in the latter. This differtence is due obviously to peculiarities of differentiation of the two cell types, in particular, to differences in the number of activated ribosomal genes.     

Variability of the cardiomyocyte ploidy in normal human hearts.

We have performed cytophotometry for DNA in isolated myocytes of the left ventricle from 16 men, aged 19-39 years, who died from various non-cardiac or pulmonary causes. The mean ploidy of myocytes varied from 3.2-3.9 c to 6.6-7.3 c in different layers of the anterior wall of the left ventricle (where c is the haploid DNA content measured by cytophotometry in Feulgen-stained preparations). There was no correlation between the layers. The percentage of binuclear cells varied from 25 to 86% and correlated in every layer with the mean ploidy value of the whole myocyte population. Approximate calculation of total ploidy revealed low values in the ventricles of some individuals, and high values in others. Averaging the values for all the hearts studied obscures this variation. Mean myocyte ploidy in different layers of the anterior wall was similar: in the external layer it was 5.1 +/- 0.3 c, in the middle layer 5.5 +/- 0.3 c and in the inner layer 4.8 +/- 0.4 c. The mean percentage of binuclear myocytes in these three layers was also similar, being 61 +/- 3%, 63 +/- 4% and 54 +/- 5%, respectively. Myocyte ploidy in tissue from the posterior wall of the left ventricle also varied, but was always higher than for the same layer of the anterior wall in the same ventricle. We propose that high or low myocyte ploidy, as well as different proportions of mono- and binucleate cells, can be a factor affecting the course and result of cardiac pathology in the absence of any changes of myocyte genome determined during early ontogenesis and representing a stable characteristic of the individual.     

Similarities and differences in the growth of the heart in situ and in transplants

Growth and ploidy of rat ventricular myocytes were studied during development in situ and in grafts (1 day old rat ventricle transplanted under kidney capsule of syngenic adult animals). Both in situ and in the transplants polyploidization occurred on days 4-14 of postnatal life, and the modal group of myocytes was represented by binucleate diploid (2c x 2) cells. Minor quantities of 4c, 4c x 2, 8c and 2c x 4 myocytes were detected as well. In ventricles of 14 and 28 days old rats and in the transplants of the corresponding age the portion of polyploid myocytes was 90-96% and 32-63% respectively. The intensity of postmitotic myocyte transplants was decreased as compared with in situ development, and cells that exit proliferation cycle did not grow until day 14. The data on thymidine label dilution suggest that diploid myocytes of the transplant can divide two or three times but the majority of labeled diploids divided only once. Labeled 2c x 2 myocytes originated from the first, and less frequently, the second cell generation or resulted from initial acytokinetic mitosis. Mononucleate tetraploids 4c originated from 2c x 2 and mostly from 2c cells. Octaploids were formed after 3d or 4th labeled mitosis. The conclusion about cardiac myocyte polyploidization as an intrinsic developmental program is supported, implying the programming of onset, mode, duration and termination of polyploidization and its prolongation during early postnatal life.(ABSTRACT TRUNCATED AT 250 WORDS)     

Accelerated rates of ribosomal RNA synthesis during growth of contracting heart cells in culture

Contractile activity of neonatal cardiac myocytes stimulated hypertrophic growth as compared with nonbeating cells that were depolarized with 50 mM KCl. Growth of contracting myocytes was associated with an increased rRNA content as measured by the total RNA/DNA ratio. The fractional rates of rRNA synthesis (K8) and rRNA degradation were determined in contracting and nonbeating myocytes to assess their relative contributions in increasing rRNA content during growth. The values for K8 were calculated from the specific radioactivity of 3'-[3H]UMP in 18 and 28 S rRNA after purification by hybridization to cloned rDNA. The cellular [3H]UTP pool served as the precursor for rRNA synthesis in myocytes that were labeled with 50 microM [3H]uridine. K8 values for 18 and 28 S rRNA in contracting myocytes were accelerated by 59 and 53%, respectively, after 3 days as compared with nonbeating myocytes. Calculations of the rate of cellular rRNA synthesis, which took into account the increased content of myocyte rRNA, revealed that synthesis of both 18 and 28 S rRNA was accelerated 2-fold after 2 days of contraction. The derived values for degradation of 18 and 28 S rRNA were increased marginally in contracting myocytes, but cellular rRNA degradation rates averaged 57% higher. The difference between cellular rates of rRNA synthesis and degradation in contracting myocytes accounted for the 30% increase in rRNA content. These data demonstrated that increased rRNA content in contracting myocytes resulted from acceleration of the fractional rate of rRNA synthesis.     

Variability of the cardiomyocyte ploidy in normal human hearts

We have performed cytophotometry for DNA in isolated myocytes of the left ventricle from 16 men, aged 19–39 years, who died from various non-cardiac or pulmonary causes. The mean ploidy of myocytes varied from 3.2–3.9 c to 6.6–7.3 c in different layers of the anterior wall of the left ventricle (where c is the haploid DNA content measured by cytophotometry in Feulgenstained preparations). There was no correlation between the layers. The percentage of binuclear cells varied from 25 to 86% and correlated in every layer with the mean ploidy value of the whole myocyte population. Approximate calculation of total ploidy revealed low values in the ventricles of some individuals, and high values in others. Averaging the values for all the hearts studied obscures this variation. Mean myocyte ploidy in different layers of the anterior wall was similar: in the external layer it was 5.1±0.3 c, in the middle layer 5.5±0.3 c and in the inner layer 4.8±0.4 c. The mean percentage of binuclear myocytes in these three layers was also similar, being 61±3%, 63±4% and 54±5%, respectively. Myocyte ploidy in tissue from the posterior wall of the left ventricle also varied, but was always higher than for the same layer of the anterior wall in the same ventricle. We propose that high or low myocyte ploidy, as well as different proportions of mono- and binucleate cells, can be a factor affecting the course and result of cardiac pathology in the absence of any changes of myocyte genome determined during early ontogenesis and representing a stable characteristic of the individual.     

Effect of clomiphene on fatty acids, sterols and membrane fluidity in clavine producing Claviceps purpurea strains

Clomiphene depressed the growth and enhanced clavine production of Claviceps purpurea strains 129,35 and 59. Mycelial content of 18:2 and 16:0 fatty acids decreased, whereas that of 18:1 and 18:0 acids increased. In the mutant strain 59 clomiphene, triadimefon and ergosterol stimulated the impaired function of chanoclavine cyclase. Their effect was counteracted by plant oil. Clomiphene decreased the content of total lipids (44%), triglycerides (32%), sterols (22%) and sterol/phospholipid molar ratio. The PC/PE ratio was 9X increased. Clomiphene and triadimefon enhanced membrane fluidity of protoplasts, ergosterol and oil reverted their effect.     

Mitotic activity, ploidy and ultrastructure of cardiomyocytes from human embryo and fetuses

There is an evidence that mitotic activity of human cardiomyocytes in late fetal and early postnatal ontogenesis is very low. But little is known of the division of human cardiomyocytes at earlier stages of development. In this study mitotic activity of ventricular and atrial human cardiomyocytes of 4-8-week-old embryos and 17-32-week-old fetuses has been studied. On these stages the mitotic index is relatively low to reduce moderately within the 1st to the 3rd trimester of pregnancy from 1.4 to 0.7%. These findings are consistent with the data on cell ploidy demonstrating the presence of relatively small share of myocytes with 3c and 4c DNA in ventricles of 6-8-week-old embryos and 12-22-week-old fetuses. The share of such cells in the 1st and 2nd trimesters of pregnancy varies from 19 to 24% and from 8 to 18%, respectively. Cells with 3c and 4c DNA are most likely to be in mitotic cycle. This assumption is supported by electron microscope pictures showing all phases of typical mitosis. Cyclic changes of myofibrillar ultrastructure during mitosis of prenatal human cardiomyocytes are the same as during mitosis of low differentiated myocytes in mouse and rat hearts. These results suggest that in prenatal human cardiomyogenesis the level of myocyte differentiation and the cell number increase at slow rate.     

Determination of ploidy levels in Ipheion uniflorum (R. C. Graham) Rafin (Liliaceae)

In this study, chromosome number and ploidy levels of Ipheion uniflorum cv. "Wisley Blue" (spring starflower) were determined. In meristematic root tip cells, chromosome number was found as 2n = 12 and 4n = 24. The ratios of diploid and tetraploid cells were found as 80.74% and 19.26%, respectively. In differentiated root tissues and mature leaf tissues ploidy levels were analysed by flow cytometry and polysomaty were found in both organs. In differentiated root tissues, ploidy levels were found as 2C, 4C, 8C and 16C DNA. In root tissues percentages of 2C, 4C, 8C and 16C nuclear DNA content were observed as 57.2%, 33.1%, 2.47% and 7.23%, respectively. In mature leaf tissues, ploidy levels were determined 2C, 4C, 8C and 16C DNA. In this tissue the frequency of 4C DNA was found very higher (74.3%) and 2C DNA content was determined as 19.2%. In mature leaf tissue, 8C and 16C nuclear DNA contents were observed as 2.72% and 3.78%, respectively. When nuclear DNA contents in leaves and roots were compared, an apparent difference in 2C and 4C DNA contents was found.     

Morphometric analysis of cell types in the ovine corpus luteum throughout the estrous cycle

The cellular composition of ovine corpora lutea obtained during the early (Day 4), mid (Days 8 and 12), and late (Day 16) stages of the estrous cycle was determined by morphometric analysis. Individual corpora lutea were collected via midventral laparotomy from a total of 19 ewes. A center slice from each corpus luteum was processed for electron microscopy and subsequent morphometric analysis of the numbers and sizes of steroidogenic and nonsteroidogenic cells. Luteal weight progressively increased throughout the estrous cycle (p less than 0.05). Corpora lutea collected on Day 16 were assigned to one of two subgroups on the basis of gross appearance and weight: nonregressed (NR, 542 +/- 25 mg) or regressed (R, 260 +/- 2 mg). There were no significant changes in the proportion of the corpus luteum occupied by small luteal cells (19 +/- 2%) or large luteal cells (36 +/- 1%) throughout the estrous cycle. The total number of steroidogenic cells per corpus luteum increased from 21.8 +/- 3.7 (X 10(6)) on Day 4 to 61.7 +/- 5.4 (X 10(6)) on Day 8 (p less than 0.05) and remained elevated thereafter. The number of small luteal cells was 10.0 +/- 2.7 (X 10(6)), 39.7 +/- 1.4 (X 10(6)), 46.1 +/- 5.8 (X 10(6)), 49.0 +/- 13.7 (X 10(6)), and 29.9 +/- 8.6 (X 10(6)) on Days 4, 8, 12, 16 (NR), and 16 (R), respectively (p less than 0.05, Day 4 vs. Days 8, 12, 16 NR). In contrast, the number of large luteal cells was 11.8 +/- 1.5 (X 10(6)) on Day 4 and did not vary significantly during the remainder of the estrous cycle. The numbers of nonsteroidogenic cell types increased (p less than 0.05) from Day 4 to Day 16 (NR) but were decreased in regressed corpora lutea (Day 16 R). Regression was characterized by a 50% decrease (p less than 0.05) in the total number of cells per corpus luteum from 243 +/- 57 ( X 10(6)) on Day 16 (NR) to 125 +/- 14 ( X 10(6)) on Day 16 (R) (p less than 0.05). Small luteal cells remained constant in volume throughout the entire estrous cycle (2520 +/- 270 microns 3), whereas large luteal cells increased in size from 5300 +/- 800 microns 3 on Day 4 to 16,900 +/- 3300 microns 3 on Day 16 (NR) (p less than 0.05). In summary, small luteal cells increased in number but not size throughout the estrous cycle, whereas large luteal cells increased in size but not number.     

Development of binuclearity and DNA-polyploidization in the growing mouse liver

Summary Suspensions of intact liver cells were prepared from 36 male NMRI mice of different age after perfusion of the liver with ice-cold calcium- and magnesium-free phosphate buffer (CMF). The suspensions of the isolated hepatocytes were smeared on slides, fixed, hydrolized and stained by fluorescent acriflavine-Schiff-Feulgen reaction. The number of nuclei per cell was determined in a phase-contrast microscope. Quantitative fluorescent cytophotometric measurements of nuclear Feulgen-DNA were performed on individual nuclei. At the age of 0.5 month, 55% of the hepatocytes were found to be mononuclear, 45% binuclear. In the animal groups aged 1 month, 1.5 months, 3 months, 6 months and 12 months, the percentage of binuclear hepatocytes remained constant at about 80%. Very few liver cells with 3 or 4 nuclei were detected. Feulgen-DNA-measurements revealed a predominance of 2c and 4c nuclei at ages 1 month and 1.5 months with logarithmic increase of 8c nuclei and a decrease of the 2c nuclei. From 1.5 months on 16c nuclei were found, which never exceeded 8%. When total DNA-ploidy of the hepatocytes was calculated similar kinetics at a higher ploidy level were observed. 2c hepatocytes existed in small percentages at very young ages up to 1.5 months, but were also occasionally found in older animals. With increasing age the number of 16c hepatocytes increased logarithmically with a concomitant decrease of the 4c hepatocytes. The percentage of 8c liver cells remained more or less constant. Few hepatocytes with a 32c total DNA content were found in mice aged 3 months and older. In one-year-old mice the mean DNA-ploidy was calculated to be 5.8c per liver nucleus and 10.0c per whole hepatocyte.Supported by Deutsche Forschungsgemeinschaft, Grant No Bo 395/5     

Effect of cortisol on the cellular proliferation and maturation in the cerebrum and the cerebellum of the rat: Importance of the age of the animals at the beginning of treatment]

Young rats were given either a single subcutaneous injection (1 mg at 0, 1, 4 or 8 days), or four consecutive daily injections (0.2 mg/day between 0 and 3 days; 0.4 mg/day between 4 and 7 days; 0.6 mg/day between 8 and 11 days) of cortisol acetate in order to test the influence of age on the action of corticosteroids on the biochemical maturation of the cerebrum and cerebellum in terms of their DNA, RNA, and protein contents. The results showed that: 1 The diminution of the DNA content at 35 days was greater in the cerebellum (- 16 to - 32%) than in the cerebrum (- 9 to 20%); the DNA content of the cerebrum was more affected by treatment at birth, whereas that of the cerebellum was more affected by the delayed treatments. Results were different when expressed in terms of reduction of the normal increase: the gain of DNA decreased more in the cerebrum (-70%) than in the cerebellum (-40%); but the most delayed treatment induced a greater effect in both organs. These abnormalities were not always accompanied by a significant decrease of the body weight. 2 Generally, the treatments led to an increase of the mean cell territory, expressed either in terms of decrease of the DNA concentration, or in terms of increase of the organ weight/DNA ratio. Moreover, the increase of the RNA/DNA and the protein/DNA ratios constituted an indication of an accelerated cellular maturation.     

Studies on the Nucleic Acid and Protein Content in the Cotyledon Cells of Lotus Using Fluorescent Imaging System with a Scientific grade Charge Coupled Device

Enzyme dissociated cotyledon cells were obtained from red lotus ( Nelumbo sp. ) on the 5th day and 20th day after fertilization respectively. DNA, RNA and total protein content of individual 5 d and 20 d cell were measured correlatively by microfiuorescent imaging system with a cooled scientific-grade Charge coupled deviced (CCD) camera. The results showed that DNA content of the 20 day cell has become polyploidized from 4C to 8C approximately. The window analysis indicated that relative content of RNA and total protein of the 20 day cell was more than 11 times that of the 5 day cell in the same 4C DNA window respectively. The multiple in-creased of RNA and total protein content was about the same as that of DNA in 2 DNA windows (4C and 8C) of the 20 day cell. These data showed that the enormous accumulation of storage proteins in the cotyledon cells of red lotus depends on both DNA ploidy and selective expression of the subunit genes of the storage proteins during the developmental process.     

Accumulation of polyploid cells and G2-phase cells during ascites tumor growth

Ehrlich ascites tumor cells from the plateau phase of growth were transplanted into new hosts, pulse-labeled with tritiated thymidine and blocked with repeated injections of vinblastine. When unlabeled cells were analyzed for their cellular DNA content utilizing a cytophotometric technique it was found that in relation to the total number of cells (labeled plus unlabeled), 13% had a 2C DNA content, 36% a 4C DNA content and 5% an 8C DNA content at 0.5 hours after transplantation. By 24 hours the distributions changed dramatically: the initially unlabeled 2C cells were now 4C, the 36% of the cells that were initially 4C partitioned into 24% that were still 4C and 12% that progressed to 8C, and the initial 8C cells remained 8C. These studies indicate that the accumulation of 4C cells during the plateau phase of growth is due to a combination of G2 diploid and G1 tetraploid cells.