Intracellular free Ca2+ in the cell cycle in human fibroblasts: transitions between G1 and G0 and progression into S phase.

Intracellular free calcium ([Ca2+]i) has been proposed to play an important part in the regulation of the cell cycle. Although a number of studies have shown that stimulation of quiescent cells with growth factors causes an immediate rise in [Ca2+]i (Rabinovitch et al., 1986; Vincentini and Villereal, 1986; Hesketh et al., 1988; Tucker et al., 1989, Wahl et al., 1990), a causal relationship between the [Ca2+]i transient and the ability of the cells to reenter the cell cycle has not been firmly established. We have found that blocking the mitogen-induced elevation of [Ca2+]i with the cytoplasmic [Ca2+]i buffer dimethyl BAPTA (dmBAPTA) also blocks subsequent entry of cells into S phase. The dose response curves for inhibition of serum stimulation of [Ca2+]i and DNA synthesis by dmBAPTA are virtually identical including an anomalous stimulation observed at low levels of dmBAPTA. Reversal of the [Ca2+]i buffering effect of dmBAPTA by transient exposure of the cells to the Ca2+ ionophore ionomycin also reverses the inhibition of DNA synthesis 20-24 h later. Ionomycin by itself does not stimulate DNA synthesis. These data are consistent with the conclusion that a transient increase in [Ca2+]i occurring shortly after serum stimulation of quiescent fibroblasts is necessary but not sufficient for subsequent entry of the cells into S phase. This study is the first to show a direct relationship between early serum stimulated Cai2+ increase and subsequent DNA synthesis in human cells. It also goes beyond recent studies on BALB/3T3 cells by providing dose response data and demonstrating reversibility, which are strong indications of a cause and effect relationship.     

Enhanced Brain Cell Proliferation Following Early Adrenalectomy in Rats

We have previously demonstrated an increase in adult brain DNA content in rats adrenalectomized on postnatal day 11. The present studies examined cell proliferation in cerebral cortex, cerebellum, hippocampus, and midbrain-diencephalon following adrenalectomy at this age. Compared to sham-operated controls, adrenalectomized animals showed increased [3H]thymidine incorporation into DNA (measured at 1 h following a pulse injection) in all brain regions at 7 and 14 days postsurgery. In some areas, the effect was already present as early as 2 days following adrenalectomy. Chronic replacement with corticosterone prevented this increase in DNA labelling in a dose-dependent manner. When cell proliferation in the cerebral cortex and cerebellum was independently assessed by measuring changes in thymidine kinase activity, enzyme activity was significantly elevated in both areas at 7 and 14 days postsurgery. Finally, histological examination of the cerebellar cortex suggested a delayed disappearance of the external granular layer in several cerebellar lobules of adrenalectomized animals. Overall, these findings indicate that day-11 adrenalectomy leads to a prolonged stimulation of mitotic activity in areas where cell formation at this time is exclusively glial (i.e., cerebral cortex and mid-brain-diencephalon) as well as in areas where postnatal neurogenesis is also occurring (cerebellum and hippocampus). It is hypothesized that this stimulation results from the removal of a tonic inhibitory effect exerted by circulating glucocorticoids in the normal intact animal.     

Early changes in the synthesis of acidic nuclear proteins in human diploid fibroblasts stimulated to synthesize DNA by changing the medium

When resting WI-38 cells in a confluent monolayer were stimulated to proliferate by changing the medium, the incorporation of leucine-³H into nuclear acidic proteins was promptly stimulated, although its incorporation into total cellular proteins was unchanged or even decreased. Three fractions, all acidic by aminoacid analysis, were extracted from the nuclei: (1) ribonucleoproteins (RNP); (2) a fraction extractable with 0.15 M NaC1; and (3) a fraction tenaciously bound to the insoluble residue (residual fraction). A first increase occurred between one and three hours after stimulation in all three fractions. The synthesis of NaCl-soluble proteins then returned to control levels, while the synthesis of residual and RNP proteins remained high between 6 and 12 hours and increased even further at 18 hours, the peak of DNA synthesis. Pulse chase experiments indicated that the proteins synthesized in the first hour after stimulation have a turnover time of less than four hours, while the same fractions in non-proliferating cells were stable for at least 12 hours. 2-mercapto-1-(β-4-pyridethyl) benzimidazole, when added at the same time as the fresh medium, produced an inhibition of the increase in nuclear protein synthesis at one hour, but, if added at five hours after stimulation, it did not inhibit the increase in nuclear protein synthesis occurring at six hours. Actinomycin D (0.01 μg/ml) inhibited both the stimulation of DNA synthesis and the increases in nuclear acidic protein synthesis occurring at one and six hours after stimulation. These results seem to indicate that the serum factors responsible for the stimulation of WI-38 cells, after binding to cells, induce an early synthesis of acidic nuclear proteins which is sensitive to very low doses of actinomycin D. In turn, the newly synthesized proteins could in some way activate in the nuclei the genes that control DNA synthesis and cell division.     

Alterations of DNA-dependent DNA polymerase activities in the immature quail oviduct in response to estrogen stimulation.

Administration of diethylstilbestrol, an estrogen analogue, to immature female quails causes an increase of extractable DNA-dependent DNA polymerase activities from the oviduct. At least two forms of polymerases have been determined, a high molecular weight polymerase (210,000 daltons) and a low molecular weight polymerase (34,000 daltons) calculated from column chromatography Sephadex G-200. During the primary hormone stimulation the amount of extractable enzyme reaches a maximum on the fifth day after daily injections of the hormone. In the period of withdrawal the activities decrease and reach values similar to those determined in the unstimulated oviducts. During secondary stimulation the polymerase activities increase again the first day; subsequently the values decrease drastically. The alterations in enzyme activity correlate with the DNA synthesis in the oviduct, as measured by analytical determination of the DNA content.     

Effect of realimentation after several days' isolated glucose or fructose intake on DNA synthesis in rat liver.

Marked stimulation of liver DNA synthesis was observed in rats given an isolated glucose or fructose diet for 4 days and theen refed one day on diets with different protein contents. The strongest stimulatn effect was found in rats refed, after an isolated glucose intake, with a high protein diet (81 cal%). The stimulant effect of refeeding on liver DNA synthesis was far less pronounced in rats subjected to several days' starvation before realimentation than in rats given a carbohydrate diet. The stimulant effect of realimentation after an isolated glucose intake was distinctly enhanced if triiodothyronine (50 microgram/100 g b.w., i.g.) was administered just before the change to a high protein diet. The increase in liver DNA synthesis in rats fed three days on fructose before undergoing partial hepatectomy was the same as in the controls. In rats given glucose prior to partial hepatectomy, the post-operative increase in DNA synthesis was partly inhibited.     

Early-age heat exposure affects skeletal muscle satellite cell proliferation and differentiation in chicks

Exposure of young chicks to thermal conditioning (TC; i.e., 37 degrees C for 24 h) resulted in significantly improved body and muscle growth at a later age. We hypothesized that TC causes an increase in satellite cell proliferation, necessary for further muscle hypertrophy. An immediate increase was observed in satellite cell DNA synthesis in culture and in vivo in response to TC of 3-day-old chicks to levels that were significantly higher than those of control chicks. This was accompanied by a marked induction of insulin-like growth factor-I (IFG-I), but not hepatocyte growth factor in the breast muscle. No significant difference between treatments in plasma IGF-I levels was observed. A marked elevation in muscle regulatory factors on day 5, followed by a decline in cell proliferation on day 6 together with continuous high levels of IGF-I in the TC chick muscle may indicate accelerated cell differentiation. These data suggest a central role for IGF-I in the immediate stimulation of satellite cell myogenic processes in response to heat exposure.     

Ultrastructural changes in guinea pig endometrial cells during the estrous cycle.

In the guinea pig, the estrous cycle is characterized by a constant measurable level of plasma progesterone with two peaks: the first one associated with the peak of plasma estradiol-17 beta occurring at proestrus and the second, during diestrus, more pronounced at the time at which the level of estradiol-17 beta is undetectable. The progesterone receptor content is the highest on day 1 and the lowest on day 10 of the estrous cycle, which lasts 16.3 +/- 1.5 days (n = 37; mean +/- SD). There is a positive correlation between the plasma level of estradiol-17 beta and the progesterone receptors detected immunocytochemically in both endometrial epithelial and stromal cells. The general morphology of the endometrium during proestrus and estrus is consistent with an estrogenic stimulation, i.e., a smooth and regular surface of the endometrium and the presence of numerous microvilli on the cell surface. However, a moderate secretory activity also occurs in proestrus and estrus. During postestrus, the glandular cells display an increase in characteristic secretory features which parallels the rise of progesterone in the plasma.     

Development of nuclease activity in cotyledons of Pisum sativum L.

Summary The RNA content of pea cotyledons shows little change during the first five days of germination at 22°C. From day five onwards there is a rapid net degradation of RNA, which continues until day thirteen. The DNA content of the cotyledons increases slightly during the first nine days of germination, after which there is a net decrease. Acid and alkaline ribonuclease activities increase markedly between day one and day five, and then decline between day five and day nine. There is a second increase in the activities of both enzymes from day nine onwards. Soluble deoxyribonuclease activity exhibits a single peak, seven days after the onset of germination. The first increase in acid ribonuclease activity is only partially inhibited by cycloheximide at concentrations which severely inhibit protein synthesis.     

Regulation of enzymes involved in C4 photosynthesis and the antioxidant metabolism by UV-B radiation in Egeria densa,a submersed aquatic species

Egeria densa, a submersed aquatic species, was exposed to different treatments under UV-B radiation, and the response of phosphoenolpyruvate carboxylase (PEPC) and NADP-malic enzyme (NADP-ME) was determined. Exposure to UV-B radiation for 4 h per day over 7–16 days caused an increase in both enzymes, together with an increase in the activity of some isoforms of several enzymes involved in the antioxidant metabolism, such as superoxide dismutase (SOD), ascorbate peroxidase (APX), catalase (CAT) and peroxidase (POD). The content of chlorophylls and carotenoids was considerably decreased, suggesting that degradation or repression of the synthesis of these molecules may be occurring after UV-B exposure. Reactive oxygen species (ROS) were also required for UV-B induction of PEPC and NADP-ME, as the addition of ascorbic acid before UV-B treatment prevented the induction of these enzymes, while salicylic acid was not effective in inducing NADP-ME but increased the expression of the lower molecular mass isoform of PEPC. On the other hand, damage to the photosynthetic machinery may be occurring after exposure to UV-B radiation for 8 per day over 1–2 days, as indicated by a decrease in the levels of Rubisco, PEPC and NADP-ME. Some of the enzymes involved in the antioxidant metabolism, such as CAT and APX, were also sensitive to continuous exposure, evidenced by a decrease in their activity. In this way, in E. densa, several enzymes involved in different metabolic pathways showed a distinct response, depending on the UV-B treatment. This revised version was published online in June 2006 with corrections to the Cover Date.     

Template activity of chromatin during stimulation of cellular proliferation in human diploid fibroblasts

1. Contact-inhibited confluent monolayers of WI-38 human diploid fibroblasts can be stimulated to divide by replacing the medium with fresh medium containing 30% foetal calf serum. 2. Of the cells 40–75% are stimulated to divide with a peak DNA synthesis between 15 and 21h and a peak mitotic index between 28 and 30h after stimulation. 3. In the first 12h before the initiation of DNA synthesis there is a biphasic increase in the incorporation of [³H]uridine into RNA of whole cells. 4. This is paralleled by a similar biphasic stimulation of chromatin template activity measured in vitro in a system in which purified cell chromatin is incubated with an exogenous RNA polymerase isolated from Escherichia coli. 5. The changes in chromatin template activity are believed to represent activation of the genome, with more sites available for RNA synthesis, and to account almost entirely for the changes in RNA synthesis occurring in the whole cell.     

Effects of birth on energy metabolism in the rat kidney.

The oxygen-consumption rates and the activities of fumarase and beta-hydroxyacyl-CoA dehydrogenase were compared in mitochondria isolated from fetal- and neonatal-rat kidney. Whole-organ ATP, phosphocreatine and creatine contents were determined in parallel. Kidney mitochondrial respiratory rates in the presence of succinate, glutamate/malate and palmitoyl-L-carnitine increased between 21 days post coitum and 1 day post partum, together with activities of oxidative enzymes. However, this postnatal maturation of oxidative metabolism was not yet initiated in mitochondria isolated from kidney 1 h post partum. An increase in ATP and phosphocreatine was observed immediately after delivery; newborn-rat kidney ATP content then remained high, whereas phosphocreatine reserves decreased considerably between 6 h and 1 day post partum. It is concluded that the increase in high-energy phosphate compounds observed at birth is not initially related to an activation of oxidative phosphorylation, and probably involves a transient stimulation of anaerobic glycolysis, while a progressive mitochondrial maturation takes place in the rat kidney during the first day of newborn life.     

Long-term trophic effect of ACTH on rat adrenocortical cells

Summary The changes occurring in rat adrenocortical cells (zona fasciculata) during an 8 day period of treatment with ACTH, were investigated by morphometric and autoradiographic methods.The most important ultrastructural change consists in a conspicuous increase in the smooth endoplasmic reticulum, that accounts for about 50% of the total increase of cellular volume. Also the mitochondrial fraction shows a significant increase, which is found to be due both to the increment in the number of mitochondria per cell and to the increase in the mean volume of organelles themselves.The quantitative autoradiographic data, indicating an increment in the incorporation of 3H-orotate and 3H-leucine into adrenocortical cells of the treated animals, allow us to conclude that the ACTH-induced ultrastructural changes are the morphological expression of a stimulation of the cellular protein synthesis.Since mitochondria are largely autonomous in the synthesis of their enzymes and structural proteins, it is possible to hypothesize that ACTH also intervenes in the regulation of the mitochondrial protein synthesis.The authors wish to express their sincere appreciation to Mr. G. Gottardo for his excellent technical assistance.     

Changes in activity and mRNA levels of poly(ADP-ribose) polymerase during rat liver regeneration

ADP-ribosylation of nuclear proteins, catalysed by the enzyme poly(ADP-ribose) polymerase, is involved in the regulation of different cellular processes of DNA metabolism. To further clarify the role of the enzyme during proliferating activity of mammalian cells, we have studied the control of gene expression in regenerating rat liver. The changes in activity and mRNA levels were analysed during the early and late phases of the compensatory model. When enzyme activity was measured in isolated liver nuclei obtained at different times after hepatectomy, two different phases were observed: an early wave occurring before the onset of DNA synthesis, and a second one, starting several hours after the onset of DNA synthesis and returning to control values at later times. The evaluation of the enzymatic level in nuclear extracts and by activity gel analysis showed a more gradual increase starting 1 day after hepatectomy, in concomitance with the peak of DNA synthesis. By using a specific murine cDNA probe, a significant enhancement of mRNA levels for poly(ADP-ribose) polymerase was observed during liver regeneration, slightly preceding the onset of DNA synthesis. The results obtained show that changes in poly(ADP-ribose) polymerase activity, during liver regeneration, are associated both to early events preceding the increase in DNA synthesis and to later phases of the cell proliferation process.     

Preferential response of thyroid glycosyltransferases to changes in thyrotropin stimulation

The level of thyrotropin stimulation of rat thyroid was modified to permit a study of the regulation of some of the enzymes of this tissue. This was accomplished by the administration of either propylthiouracil to increase the endogenous thyrotropin levels or thyroxine to suppress production of the trophic hormone. The enzymes measured included two glycosyltransferases involved in the synthesis of the main secretory protein of the gland (thyroglobulin), two lysosomal enzymes which may contribute to its catabolism, as well as two other enzymes of a more general nature. In the propylthiouracil-treated animals changes in the activities of succinic dehydrogenase, protease, and 5′-nucleotidase corresponded to the increase in the weight of the gland and appeared to be nonspecific in nature; these three enzymes, moreover, showed no changes after thyroxine treatment. The level of the N-acetylglucosaminidase was significantly decreased, per gram of tissue, in both groups of treated animals. The only enzymes which appeared to be specifically affected by the modulation of thyrotropin stimulation were the glycosyltransferases, with both mannosyl- and galactosyltransferases showing an increase in the thyroids of the propylthiouracil-treated animals and a decrease in those treated with thyroxine. This suggests that post-translational steps, such as carbohydration, may play an important role in regulating the turnover of thyroglobulin and therefore influence the overall rate of thyroid hormone formation. The distribution of each of the enzymes between the soluble and particulate fractions of the tissue was also measured and it was noted that the glycosyltransferases, which showed the most marked increase in total activity as a result of thyrotropin stimulation, also showed a statistically significant increase in the percentage present in the particle-bound form.     

The Effect of Irradiance on Carboxylating/Decarboxylating Enzymes and Fumarase Activities in Mesembryanthemum crystallinum L. Exposed to Salinity Stress

Abstract: In Mesembryanthemum crystallinum plants, treated for 9 days with 0.4 M NaCl at low light intensities (80 - 90 or 95 - 100 μE m^-2 s^-1; λ = 400 - 700 nm), no day/night malate level differences (Δmalate) were detected. At high light (385 - 400 μE m^-2 s^-1) strong stimulation of PEPC activity, accompanied by a Δmalate of 11.3 mM, demonstrated the presence of CAM metabolism. This indicates that, to evolve day/night differences in malate concentration, high light is required. Salt treatment at low light induces and increases the activity of NAD- and NADP-malic enzymes by as much as 3.7- and 3.9-fold, while at high light these values reach 6.4- and 17.7-fold, respectively. The induction of activity of both malic enzymes and PEPC (phospo enol pyruvate carboxylase) take place before Δmalate is detectable. An increase in SOD (superoxide dismutase) was observed in plants cultivated at high light in both control and salt-treated plants. However, in salt-treated plants this effect was more pronounced. Carboxylating and decarboxylating enzymes seem to be induced by a combination of different signals, i.e., salt and light intensity. Plants performing CAM, after the decrease of activity of both the decarboxylating enzymes at the beginning of the light period, showed an increase in these enzymes in darkness when the malate pool reaches higher levels. In CAM plants the activity of fumarase (Krebs cycle) is much lower than that in C₃ plants. The role of mitochondria in CAM plants is discussed.     

Extracts of bone contain a potent regulator of bone formation

We prepared aqueous extracts of whole femorae and tibiae of embryonic chicks. An amount of extract containing 25 μg of protein resulted in a 500% increase in DNA synthesis in calvarial cell cultures, and significant effects were detected with 5 μg (55%). The time course for stimulation of DNA synthesis showed a peak occurring 16–20 h after addition of the extract. This matrix factor is nondialyzable, and fractionation on a column of Sephadex G-100 indicated a molecular weight of 60–80 000. At the maximum dose used, [³H]proline incorporation into total protein of calvarial cells was increased by 55%, and thus far, all fractions active in promoting DNA synthesis have been found to increase collagen synthesis in culture chick tibiae. These data are consistent with an effect on osteoblasts as well as bone precursor cells. Extracts prepared from tibiae of 2-day-old chicks, from which the marrow had been removed, also stimulated DNA synthesis (280% increase), thus ruling out the possibility that the factor is a relatively nonspecific mitogen from the hematopoietic cell line. We conclude that bone matrix contains a substance which could regulate bone formation in vitro by control of mitosis in osteogenic precursors and/or stimulation of osteoblast activity.     

Phosphotransferases and lysosomal enzymes in fetal human and rat lung

The present investigations on rat lung show that metabolic changes occurring around the 20th gestational day are accompanied by multiple alterations in the quantitative pattern of enzymes. This involves increases in two lysosomal enzymes (N-acetyl beta-glucosaminidase and beta-galactosidase) and a rise and fall in pyruvate kinase and alpha-glucosidase. The striking transient upsurge of adenylate kinase, however, is postponed until after birth. The normal diminution of thymidine kinase and peptidylproline hydroxylase is drastically enhanced by an injection of cortisol to fetal rats. Studies on human pulmonary tissues consisted in determining enzyme concentration from the ninth to the 21st week of gestation and an histologically normal adult lungs. The results show that the 15th to the 21st week of gestation is the period of increase in pyruvate kinase, adenylate kinase and alpha-glucosidase. The rise during the development of several enzymes (e.g., 5'-nucleotidase, alkaline phosphatase, and gamma-glutamyl transpeptidase) and the decline in thymidine kinase and peptidylproline hydroxylase, however, dose not begin until after the 21st week of gestation.     

The estrogenic effects of clomiphene during the neonatal period in the rat

The ability of clomiphene and its isomers to cause estrogenic responses during the neonatal period in the rat was examined. Rats were injected s.c. with clomiphene (CL), zuclomiphene (ZUC) or enclomiphene (ENC) on days 1,3, and 5 of life and the stimulation of the reproductive tract and estrogen receptor binding was observed. Uterine weight and DNA content were increased significantly by day 7 in animals treated with clomiphene or zuclomiphene. Uterine epithelial hypertrophy was present in all groups by day 10 and hyperplasia was present in the animals treated with ZUC and CL. The time of vaginal opening was greatly accelerated in all drug treated groups with the earliest day of opening occurring on day 7. Ovarian hemorrhage and blood in the periovarian sac occurred between days 12-14 and continued to be present through day 25. Drug treatment caused the estrogen receptor to accumulate in the nuclear fraction of the uterus and to be depleted from the cytosol fraction. We conclude that clomiphene administered to neonatal rats causes estrogenic stimulation of the reproductive tract in a fashion similar to other estrogens. This stimulation may account for the reproductive tract abnormalities which develop in rats treated with those drugs during the neonatal period.     

Polyamine synthesis during lymphocyte activation : Induction of ornithine decarboxylase and S-adenosyl methionine decarboxylase

Lymphocyte stimulation by phytohaemagglutinin (PHA) is accompanied by marked increases in the activities of ornithine decarboxylase and S-adenosyl methionine decarboxylase, two key enzymes for the synthesis of polyamines. Both enzymes increase in a biphasic manner, with the rises in S-adenosyl methionine decarboxylase preceding the increases in ornithine decarboxylase. The initial rises precede the initiation of DNA synthesis, and seem to correlate with the increased rate of ribosomal RNA synthesis. Selective inhibition of ribosomal RNA synthesis inhibits the increases in the activity of both enzymes, especially ornithine decarboxylase, more than the increase in the overall rate of protein synthesis.Both enzymes are metabolically unstable and have half-lives of less than 1 h, although the half-life of ornithine decarboxylase depends on the amino acid concentration in the culture medium. While effects of PHA on the stability of the enzymes have not been ruled out, at least part of the PHA-dependent increases in activity are due to increased synthesis or activation of the enzymes. The synthesis of S-adenosyl-methionine decarboxylase declines rapidly after inhibition of RNA synthesis, but ornithine decarboxylase activity declines at about the same rate as protein synthesis as a whole.The activities of both enzymes also increase during lymphocyte stimulation by concanavalin A, lentil extract and staphylococcal filtrate.     

Expression, purification and characterization of cloning-grade zinc finger nuclease

The limited number of naturally occurring rare-cutting restriction enzymes and the slow and tedious engineering of existing restriction enzymes for novel specificities have prompted the design of new strategies for the development of restriction enzymes with specificities for long DNA sequences. One possibility is using zinc finger nucleases (ZFNs)—synthetic restriction enzymes that are custom-designed to target and cleave long DNA sequences and which have been recently shown useful for DNA cloning. Here we report on the purification and biochemical analysis of ZFN-10, a custom-made ZFN. We show that Ni-affinity and gel-filtration purification methods are sufficient to produce a cloning-grade enzyme. We show that ZFN-10 can function as an accurate and reliable ZFN using the same reagents and protocols used for naturally occurring and commercially available recombinant restriction enzymes. We also show that ZFN-10 tolerates a set of target-site substitutions which can be predicted from the specificities of recognition helices incorporated into the structure of its DNA-binding domain. The relative simplicity of ZFN-10 design, expression, purification and analysis suggests that novel ZFNs can potentially be designed and applied for various recombinant DNA applications.