Macromolecular synthesis in the livers of aging mice as revealed by electron microscopic radioautography

For the purpose of studying the aging changes of macromolecular synthesis in animal cells, we studied many groups of aging mice during development and aging from fetal day 19 to postnatal newborn, juvenile, young adults, aged and senescent adults up to 12 and month 24 (2 years). They were injected with ³H-thymidine, ³H-uridine or ³H-leucine, precursors for DNA, RNA and proteins, as well as ³H-glucose, ³H-glucosamine, ³⁵S-sulfuric acid, or ³H-glycerol for glucide and lipid precursors, respectively, then sacrificed and the liver tissues were taken out, fixed and processed for light and electron microscopic radioautography. On many radioautograms the localization of silver grains demonstrating DNA, RNA and proteins in hepatocytes in respective aging groups were analyzed qualitatively. The number of silver grains and the number of cell organelles in each cell of each animal in respective aging groups were analyzed quantitatively in relation to the aging of individual animals. The results revealed that the localization of respective precursors as well as the number of silver grains in cell nuclei, cell organelles, changed with the aging of animals. The numbers of labeled nuclei and cell organelles, as well as the numbers of silver grains in nuclei and cell organelles changed due to aging of individual animals. The number of mitochondria, the number of labeled mitochondria and the mitochondrial labeling index labeled with silver grains were counted in each hepatocyte. It was demonstrated that the numbers of mitochondria, the numbers of labeled mitochondria and the labeling indices showing DNA, RNA and protein synthesis at various ages from embryonic day 19 to postnatal newborn day 1, 3, 9, 14, adult month 1, 2 and 6, reaching the maxima, then decreased to senile year 1 to 2, indicating the aging changes. The results indicated that mitochondria in hepatocytes synthesized nucleic acids and proteins independently from the nuclei, but their synthetic activities were affected from the aging of the individual animals.     

Electron microscopic and radioautographic study of the wall of the large bronchi in chronic inflammatory processes in the lungs

Synthesis of DNA, RNA and protein in the structures of large bronchi in patients with chronic inflammatory processes was studied. It was shown, that nuclei of all cell types of the tegmental bronchial epithelium, capillary endotheliocytes and stromal cells actively included 3H-uridine. By the intensification of bronchial wall sclerosis index and hardness of label with 3H-uridine were reduced in epitheliocytes, endotheliocytes, pericytes, labrocytes, macrophages, but were increased in fibroblasts which also had a high level of 3H-proline inclusion. High index of label with 3H-thymidine was found in basal cells of epithelium and capillary endotheliocytes. In conditions of chronic inflammation of bronchial wall the greatest metabolic and proliferative activity was found in the capillary endotheliocytes and cells of a pericapillary zone. In sclerosis the proliferative activity of basal cells was changed, that predetermined the character of tegmental epithelium reorganization.     

Effect of thiopyrimidine ribonucleosides on DNA and RNA synthesis in synchronized mammalian cell cultures

The uptake of ³H-uridine into RNA and of ³H-thymidine into DNA was investigated in synchronized Chinese hamster cells which had been exposed to thiopyrimidine ribonucleosides. The cells were synchronized at metaphase by reversal of colcemid inhibition; these cells were then labeled with either ³H-thymidine or ³H-uridine at selected times, and analyzed in autoradiographs. Incorporation of ³H-thymidine into DNA was not inhibited by administration to the cells of 2-thiouridine or 4-thiouridine (4 × 10⁻³ M). Exposure of the cells to the anti-metabolites for over 15 h significantly reduced the incorporation of ³H-uridine into nuclear RNA and completely blocked the labeling of cytoplasmic RNA. This finding is interpreted as an indication that RNA synthesis was inhibited in cells which continued to synthesize DNA. The inhibition of RNA synthesis hindered cell division and decreased cell viability. This lethal effect is similar to the “unbalanced growth” induced by inhibitors of DNA synthesis. The thiopyrimidine ribonucleosides, however, killed mammalian cells without inhibiting DNA synthesis.     

3H-uridine incorporation by small lymphocytes of tolerant rats: relationship to T and B lymphocytes.

Tissue tolerance was induced in neonatal rats by the intravenous injection of bone marrow cells from adult allogeneic rat donors. After 6 to 8 weeks, lymphoid cells from rats in which tolerance had been induced were tested for mixed lymphocyte reactivity (MLR), 3H-uridine uptake, and the relationship of uridine incorporation to B and T lymphocytes. Lymph node (LN) and spleen (SPL) cells from the adult inoculated rats showed no reactivity in the MLR or normal lymphocyte transfer reaction (NLTRx), indicating that the animals were tolerant. After in vitro exposure to 3H-uridine, an abundance of small lymphocytes (SL) from these same tolerant rats were heavily labeled, in contrast to nontolerant controls, where relatively few SL were heavily labeled. In order to determine whether the heavily uridine-labeled cells were T cells or B cells, lymphoid cells from the LN and SPL of tolerant animals were exposed to either rabbit anti-AKR brain serum or rabbit anti-rat Ig conjugated with ferritin. The results showed that the heavily uridine-labeled SL of the tolerant rats were mainly Ig-positive cells.     

Studies of adult amphibian heart cells in Vitro: DNA synthesis and mitosis

The ventricle of the adult newt heart was excised and cut into several pieces of approximately 0.5 – 1.0 mm. These heart pieces were then cultured for 60 days at 25 °C in a modified Leibovitz medium (L-15). Approximately 37% of the explants were attached to the substrate and more than 33% of the attached explants and approximately 15% of the unattached explants established pulsation rates which ranged 3–67 beats/min. The explants were labeled with 1 μCi/ml of ³H-thymidine for 24 hr at 7, 15, 21, 30, 45 and 60 days of culture initiation, and processed for electron microscopic autoradiography. The examination of the autoradiograms revealed that as the culture continued, the cardiac muscle cells altered their morphology, resembling embryonic cardiac muscle cells. These altered muscle cells were termed dedifferentiated cardiac muscle cells. The number of these dedifferentiated cells increased over the period of culture, showing 10.3–94% dedifferentiated cells after 7–60 days of culture respectively. DNA synthesis and mitosis were observed in the dedifferentiated cardiac muscle cells, apart from the non-muscle cells. The quantitation of the autoradiograms revealed that the number of labeled nuclei in the cardiac muscle cells gradually increased over the period of culture, and a maximum number of labeled cardiac muscle cells (30%) was observed in the third week. The peak was followed by a decline in the eighth week which exhibited 1.5 % labeled cardiac muscle cells. The trend of mitosis was similar to that of DNA synthesis. The maximum number of mitotic figures (9%) was observed in the third week of culture, which was followed by a decline and finally absent in the eighth week. The cardiac non-muscle cells, mostly fibroblasts and endothelial cells, also showed incorporation of ³H-thymidine in their nuclei. The number of labeled non-muscle cells nuclei and the mitotic index were highest (61 and 15% respectively) in the first week of culture, but then they decreased gradually over the eight-week period in culture. This study provides evidence for the first time that the adult amphibian cardiac myocytes can undergo DNA synthesis and mitosis when explanted and cultured. The significance of this cell replication is discussed.     

Incorporation of 3H-thymidine into glial cells of the parietal region and cells of the subependymal zone of two-week and adult mice under normal conditions and following brain injury]

Potencies of brain cells to DNA synthesis and proliferation were studied in two weeks old and adult mice in the norm and after the brain mechanical injury. No labeled large and middle neurons were found in the brain of intact and operated animals both under the pulse 3H-thymidine incorporation and saturation of mice with 3H-thymidine during 36 hrs. The same types of brains cells were labeled both in intact and operated two weeks old and adult mice: glial cells, cells of the subependymal zone, cells of the dentate gyrus inner margin, and sometimes, cells having characteristics of microneurons. The number of glial cells in the temporal cortex of intact mice diminished with the age. Under the brain trauma, the proliferative reaction of glia was expressed in a similiar way both in two weeks old and adult mice. The index of labeled cells in the subependymal zone is the same in these two age groups. With the age the cellular mass of subependymal zone decreases, rather than proliferative tendencies of supependymal zone. The brain traumatization resulted in the increase of labeled subependymal cell only under the direct injury of subependymal zone.     

Incorporation of Radioactive Pyrimidine Nucleosides into DNA and RNA of Eimeria tenella (Coccidia) Cultured In Vitro*

Autoradiographic methods were used to study the incorporation of tritiated cytidine, thymidine, and uridine into asexual stages of Eimeria tenella cultured in embryonic chick kidney cells. Developing parasites did not incorporate ³H-thymidine either when host cells were labeled prior to infection or when the cultures were labeled for 30 min, 48–72 hr after infection. Continuous exposure of infected cultures to ³H-thymidine for up to 18 hr resulted in light labeling of cell cytoplasm and schizonts. ³H-cytidine and ³H-uridine were incorporated into parasites developing in cultures that were labeled before infection. When the cultures were labeled for 30 min, 48–72 hr postinfection and fixed immediately, schizonts were labeled lightly with ³H-cytidine but contained dense accumulations of ³H-uridine.     

Comparison of homologous polytene chromosomes in Phaseolus coccineus embryo suspensor cells: morphological,autoradiographic and cytophotometric analyses

The functional behaviour of unpaired homologous polytene chromosomes (2n=22), was investigated in nuclei of Phaseolus coccineus embryo suspensor cells. Observations were carried out on the morphological level and after ³H-thymidine and ³H-uridine autoradiography. Histone and total protein contents in the chromatin were also investigated. It was shown that corresponding regions of homologous chromosomes may show different functional structures. ³H-thymidine incorporation demonstrated differences between homologues in both DNA synthesis leading to chromosome endoreduplication (polytenization) and DNA amplification (extra DNA synthesis). ³H-uridine autoradiography showed that homologous regions in a given chromosome pair may display three labeling patterns: i) both regions labeled; ii) both regions unlabeled; iii) one region labeled and the other unlabeled. These three states are found to occur in different cells of one and the same embryo suspensor. Differences between homologous chromosome regions were also found in the ratios between DNA and protein contents in their chromatin. These results, which show that the functional activity of homologous chromosomes of the same complement may greatly differ, are discussed in relation to the characteristics of the system investigated.     

Cumulative indices of DNA synthesizing myocytes in different compartments of the working myocardium and conductive system of the rat’s heart muscle following extensive left ventricle infarction

Ten successive³H-thymidine injections at 12h intervals (which is a little shorter than the adult heart myocyte S phase) were performed for labeling of the majority of cardiac myocytes synthesizing DNA at any moment of such a 5 days experiment. In the hearts of control unoperated rats ten-fold repeated³H-thymidine administration results in labeling of 2–3% myocyte nuclei, in both atria, ca. 1% of the specialized muscle cell nuclei in the atrioventricular conductive system, only occasional muscle cells being labeled in the working ventricular myocardium. When ten successive³H-thymidine injections were made between the 5th and 10th days following extended left ventricle infarction, the percentage of labeled myocytes in left and right atria reaches, respectively, 51.4±4.4% and 34.7±3.6%. In the left ventricle labeled muscle nuclei are accumulated predominantly (9.3±2.1%) within the thin subepicardial layer of the surviving myofibers, while myofibers located in other perinecrotic areas contained only 1.3±0.5% labeled muscle nuclei. The number of these nuclei in the atrioventricular system remains at the level observed in control hearts (up to 2%), approaching closely the zero level in the working myocardium of both the ventricles and interventricular septum, located at the considerable distance from the infarcted region. When similar experiments with ten-fold repeated³H-thymidine injections were performed between 15th and 20th post-infarction days the number of labeled myocyte nuclei was found to be reduced 4–6 times in atria, being changed rather a little in the perinecrotic ventricular myocardium and in the specialized myocardium of the atrioventricular system. Some possible reasons of the observed differences in the proliferative behaviour of cardiac myocytes in terms of their topology and/or specialization are discussed     

An autoradiographic study of the role of satellite cells and myonuclei during myogenesis in vitro

Satellite cells and myonuclei of neonatal rat muscles were differentially labeled with 3H-thymidine according to the procedure of Moss and Leblond (1971). Minced muscles fragments containing either labeled satellite cells or labeled myonuclei were cultured until multinucleated myotubes grew out from the explants. Reutilzation of isotope released from degenerating nuclei was competitively inhibited by using a culture medium containing excess (0.32-0.41 mM) cold thymidine. after an 8-10 day growth period, the explants were fixed and prepared for autoradiographic (ARG) examination to determine whether labeled satellite cells or myonuclei had contributed to the myonuclear population of the developing myotubes. Counts were made of the number of labeled myotubes in the explants and compared with the number of labeled satellite cells and myonuclei in samples of the original muscle tissues fixed at the time of explantation. The original muscles showed a mean satellite cell labeling index of 51.7% and gave rise to myotubes with a mean labeling incidence of 40%. In contrast, myonuclear labeling in the original muscle tissues showed no correlation with subsequent myotube labeling. Only 3.4% myotube labeling was found in explants in which over 30% of the original tissue myonuclei had been labeled. Under conditions controlled for isotope reutilization, these observations confirm results of in vivo ARG studies indicating that satellite cells are the only significant source of regenerating myoblasts in injured muscle tissue.     

Ultrastructural radioautographic analysis of neurogenesis in the hypothalamus of the adult frog,Rana temporaria,with special reference to physiological regeneration of the preoptic nucleus

The localization and fine structure of proliferating cells in the hypothalamic preoptic area were studied by light-and electron-microscopic radioautography 1–2 h following single application of ³H-thymidine to adult Rana temporaria taken from their natural habitat in the spring and autumn. ³H-thymidine uptake by proliferating cells was much more pronounced in frogs caught in May/June, i.e., a month after the breeding period (labeled cells represent about 10% of the total ventricular zone cell population), compared to animals caught in mid-September, when it was very low. In both ³H-thymidine treatment groups the vast majority of labeled cells are found exclusively within the preoptic recess ventricular zone. With regard to ultrastructure, it contained proliferating cells of at least 4 types, ranging from immature forms (bipolar stem cells) to more differentiated elements (tanycyte-like ependymoblasts, classical ependymoblasts). All of them showed label over their nuclei indicating that these cells are capable of DNA synthesis and mitosis. The possible role of the preoptic recess ventricular zone as a source of precursor cells for new peptidergic neurosecretory cells, conventional neurons and glial cells in the hypothalamic preoptic area of the adult frog is discussed.     

Radioautographic comparison of RNA synthesis patterns in the epithelial cells of mouse pyloric antrum following 3H-uridine and 3H-orotic acid injections

RNA synthesis was examined in the epithelial cells of the mouse pyloric antrum using radioautography 20 min after injection of either 3H-uridine or 3H-orotic acid. The epithelium of the mouse antrum was known to invaginate into blind tubular units composed of mucous cells arranged from base to top into a gland, an isthmus, and a pit. These were subdivided into segments and, after radioautography, silver grains were counted over cell nuclei in each segment. Following 3H-uridine injection, silver grains were present over all nuclei but were more abundant over those of the isthmus than of the gland or the pit. When nuclei were examined in the electron microscope, nucleoplasmic as well as nucleolar silver grains were more numerous in the isthmus than in the pit or gland. Following 3H-orotic acid injection, silver grains were again present over all nuclei; but maximal incorporation appeared to be in pit cell nuclei where, by electron microscopy, it was mainly assigned to the nucleoplasm. When the incorporation was calculated per whole nucleus, however, it was less in pit cell than in isthmal cell nuclei. Even so, the proportion of label in pit cell nuclei was much greater than after 3H-uridine injection. The interpretation of these findings is based on the fact that isthmal cells are immature, whereas cells migrating from the isthmus to become gland or pit cells show increasing differentiation. The immature cells of the isthmus incorporate both uridine and orotic acid more effectively than do the differentiated cells of pit and gland. Since silver grain counts over nuclei provide an index of the rate of RNA synthesis, this synthesis proceeds more actively in the isthmus than in the pit or gland. This is true of ribosomal RNA synthesis, as shown by nucleolar grain counts, and of other RNA's synthesis, as shown by nucleoplasmic grain counts. It seems, however, that while uridine is involved in the synthesis of all types of RNA, orotic acid is mainly implicated in the synthesis of the heterogeneous RNA from which the messenger RNA arises.     

Properties of reticulum cell sarcomas in SJL/J mice: II. Fate of labeled tumor cells in normal and irradiated syngeneic mice

Transplantable reticulum cell sarcoma (RCS) cells were labeled with ³H-uridine or ³H-thymidine in vitro and injected intravenously into normal and irradiated syngeneic SJL/J mice. RCS cells exhibited typical B cell migration characteristics in peripheral lymphoid organs in both normal and irradiated recipients, localizing in follicles in a pattern resembling that of labeled normal bone marrow cells. However, over the first 72 hr after transfer, RCS cells diluted their label much less in irradiated than in normal recipients, reflecting their inability to proliferate in the irradiated hosts. The presence of unlabeled tumor cells did not significantly affect the distribution of labeled normal bone marrow or lymph node cells in the recipients. Thus, RCS fails to grow in irradiated recipients in spite of undisturbed homing characteristics and in the absence of any evidence of cytotoxic influences from the host.     

Effect of photoperiod on the rate of 3H-thymidine incorporation of epididymal principal cells in adult Syrian hamsters

Photoperiod-induced cycles of gonadal regression and recrudescence in the Syrian hamster were used to determine if epididymal growth in adults involves mitotic activity of principal cells. In Experiment 1, the following groups of adult hamsters were examined: induced recrudescing (5L:19D [5 hr light and 19 hr dark] for 13 wk followed by 14L:10D for at least 3 wk), spontaneous recrudescing (5L:19D for 25 wk), and active gonadal state (14:10D). In Experiment 2, adult hamsters were divided into the following groups: induced recrudescing, active, and regressed (5L:19D for 16 wk). Hamsters received subcutaneous injections of 0.5 microCi 3H-thymidine/g body weight three times/wk for 3 wk. The epididymis was fixed in a glutaraldehyde followed by osmium, embedded in Epon 812, and sectioned at 1 micron. Slides were dipped in Kodak NTB-3 emulsion, exposed for 2 or 3 months, developed, and evaluated for isotopic labeling of principal and basal cell nuclei by scoring 500 to 1,000 nuclei. In Experiment 1, the percentages of labeled principal cell nuclei for the induced recrudescing, spontaneous recrudescing, and active groups were 26 +/- 2%, 23 +/- 5%, and 9 +/- 1%, respectively. Considering the intermittent availability of 3H-thymidine during 21 days, this represents daily recruitment of 6.3%, 5.6%, and 2.2%, respectively. In Experiment 2, the percentages of labeled principal cell nuclei for induced recrudescing, active, and regressed groups were 12 +/- 4%, 3 +/- 1%, and 4 +/- 1%, respectively. There was no effect of photoperiod on labeling pattern of basal cells (1.5 +/- 0.6%, 1.2 +/- 0.1%, 0.4 +/- 0.1% for the three photoperiod groups, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of ACTH on mitochondrial RNA synthesis of rat adrenocortical cells

Summary The incorporation of 3H-thymidine and 3H-uridine into adrenocortical cells of intact and ACTH-treated rats was investigated by high-resolution autoradiography. The quantitative analysis of autoradiographs shows no effect of ACTH on the incorporation of 3H-thymidine, at least in our experimental conditions. On the contrary, ACTH was found to enhance the incorporation of 3H-uridine into both adrenocortical nuclei and mitochondria. These findings are discussed in relation to numerous biochemical and morphological data, indicating that ACTH stimulates the synthesis of enzymes and structural proteins of adrenocortical cells.It is suggested that the mechanism of action of ACTH on adrenal cortex, consists in an integrated stimulation of both nuclear and mitochondrial DNA-dependent RNA synthesis.The authors wish to express their sincere appreciation to Mrs. L. Rebonato and Mr. G. Gottardo for skilled technical assistance.     

Ultrastructure of the cells and DNA synthesis in skeletal muscle regeneration. A study of the regeneration of the frog sartorius muscle by an electron microscopic autoradiographic method

The ultrastructure of cells of the regenerating frog's sartorius muscle and their capacity to synthesize DNA was studied by means of 3H-thymidine (3HT) electron microscope autoradiography. On the 8-17th post injury (p.i.) days, 2 hours following 3HT administration, only mononuclear cells were seen labeled, the myotube nuclei incorporating no 3HT. Along with the endothelial cells, fibroblasts, phagocytes and cells identified conventionally as myoblasts, satellite cells examined from both necrotic and viable parts of injured myofibers were labeled. No myoblast sequestration from the injured myofibers occurred. By the 13-15th p.i. days, numerous myoblast-like cells are accumulated beneath the glycocalix layer covering the free ends of myotubes which are rich in ribosomes and display an active sarcomerogenesis. Some of these myoblast-like cells become labeled after 3HT pulse. The 13 day p.i. regenerates examined 72 hours following 3HT injection display labeling in numerous myotube nuclei. This is indicative of the myoblast fusion, which is believed to play a principal role in the regenerative somatic myogenesis. Within the myonuclei adjacent to the areas of the regeneration, membranous and/or fibrillar structures of an unknown origin were frequently observed.     

3H-uridine incorporation as a T lymphocyte indicator in the rat

Although about 70% of rat thoracic duct small lymphocytes labeled readily in vitro with ³H-uridine, only 3–38% of peritoneal exudate lymphocytes labeled. Since exudate cells are mostly B lymphocytes, ³H-uridine in concentrations used were presumed to label the T lymphocyte. Percentages of small lymphocytes that labeled in cell suspensions from various tissues were consistent with other estimates of T cells in those sources: 74.7% in thoracic duct, 70.2% in blood and 65.6% in spleen. When lymphopenia was induced by polyethylene ³²P strips applied to the spleen, a procedure that depletes mostly small recirculating lymphocytes, both labeled (T) and nonlabeled (B) cells were depleted in similar time sequence. Both cell types recovered at a similar rate after the spleen strips were removed. Induction of peritoneal inflammation by PPD in tubercle-bacilli immune rats caused an enhanced lymphocytic exudation but no increase in percentage of labeled (T) lymphocytes.The defect in ³H-uridine incorporation that characterizes the rat B lymphocyte seemed to be relatively specific for that RNA precurser; ³H-cytidine labeled the majority of lymphocytes in peritoneal exudate.     

Light and electron microscopic radioautographic studies on macromolecular synthesis in amitotic hepatocytes of aging mice.

The problem on cell divisions whether cells proliferate by mitosis or amitosis has been the heated controversy among many biologists since the late 19th century. We confirmed by extensive experiments since the mid 20th century that all the cells proliferated by mitosis not by amitosis but that amitosis actually existed in some glandular cells such as hepatocytes or pancreatic acinar cells which showed only amitotic nuclear divisions without cytoplasmic division producing binucleate cells in several kinds of experimental animals. We further verified that such amitotic cells did not synthesize macromolecular compounds incorporating macromolecular precursors such as 3H-thymidine for DNA, 3H-uridine for RNA or 3H-leucine for proteins. Recent experiments at the end of 20th century using many groups of aging mice, from fetal day 19 to postnatal month 24, injected with such precursors, amitotic cells and resulting binucleate cells in the hepatocytes were detected by electron microscopic radioautography and compared to mononucleate cells. The results demonstrated that only a few hepatocytes showing amitotic nuclear division were found labelled with the 3 precursors demonstrating DNA, RNA and protein synthesis. However, the numbers of silver grains showing incorporations of labelled precursors in respective amitotic cells were very few. It was clarified that the amitotic cells did not synthesize such macromolecules as mononucleate hepatocytes did. On the other hand, more binucleate cells were found than the amitotic cells. DNA synthesis of mononucleate and binucleate hepatocyte nuclei was observed at perinatal stage and disappeared at adult stage. The labeling index of mononucleate hepatocytes was greater than that of binucleate hepatocytes. RNA and protein syntheses in karyoplasm and cytoplasm in both mononucleate and binucleate cells increased from perinatal stage, reaching the maxima at adult stage then decreased to senescent stage. Grain counts revealed that synthesized RNA and proteins were more in binucleate cells than mononucleate cells at respective aging stages.     

Autoradiographic study of protein synthesis in the muscle and interstitial elements of the myocardium during development of compensatory heart hyperfunction

In the emergency stage of heart compensatory hypertrophy induced by constriction of the abdominal aorta, quantitative autoradiographic localization of newly synthesized proteins and RNA was studied in the left ventricular myocardium of adult rats 1 and 3 hours after the injection of 3H-leucine and 3H-uridine, respectively. The animals were sacrificed 1, 5 and 10 days after the operation. The amount of the autoradiographic grains was measured separately for muscle and interstitial components of the myocardium. A substantial increase in protein synthesis as regards muscle and non-muscle components was recorded only on day 10 of the experiment. At the same time incorporation of amino acids into protein of muscle and interstitial components was found to be higher by 42 and 60%, respectively. The labeling of RNA in muscle cells was similar to that of protein. In interstitial cells, the content of labeled RNA consistently rose throughout the whole experiment.