Mirex-induced adaptive liver growth: a corticosterone-mediated response

The adaptive liver growth response was investigated in intact and adrenalectomized rats. When adult male rats were given a single oral dose of mirex (100 mg/kg body weight) there was a 72% increase in relative liver weight (RLW) in 72 hr. Based on [3H]-thymidine [( 3H]TdR) incorporation into hepatic DNA, there was also a wave of DNA synthesis which peaked at 48 hr and decreased to essentially control values by 96 hr post mirex dose. In mirex-dosed adrenalectomised (Adx) animals, the RLW was increased by only 38% and there was sustained DNA synthesis. When mirex-dosed Adx rats were given corticosterone supplements, the RLW response was similar to the RLW response in intact mirex-dosed rats. However, the 48-hr DNA synthesis peak seen in intact mirex-dosed rats was eliminated. From these data it is suggested that mirex-induced adaptive liver growth has two components: a hypertrophic component which is mediated by corticosterone, and a hyperplastic component which is independent of corticosterone.     

Glucocorticoids influence brain glycogen levels during sleep deprivation

We investigated whether glucocorticoids [i.e., corticosterone (Cort) in rats] released during sleep deprivation (SD) affect regional brain glycogen stores in 34-day-old Long-Evans rats. Adrenalectomized (with Cort replacement; Adx+) and intact animals were sleep deprived for 6 h beginning at lights on and then immediately killed by microwave irradiation. Brain and liver glycogen and glucose and plasma glucose levels were measured. After SD in intact animals, glycogen levels decreased in the cerebellum and hippocampus but not in the cortex or brain stem. By contrast, glycogen levels in the cortex of Adx+ rats increased by 43% (P < 0.001) after SD, while other regions were unaffected. Also in Adx+ animals, glucose levels were decreased by an average of 28% throughout the brain after SD. Intact sleep-deprived rats had elevations of circulating Cort, blood, and liver glucose that were absent in intact control and Adx+ animals. Different responses between brain structures after SD may be due to regional variability in metabolic rate or glycogen metabolism. Our findings suggest that the elevated glucocorticoid secretion during SD causes brain glycogenolysis in response to energy demands.     

AN AUTORADIOGRAPHIC STUDY OF THE 3H-URIDINE AND 3H-THYMIDINE INCORPORATION IN THE REGENERATING MOUSE LIVER

An autoradiographic study was made of the ³H-uridine incorporation into RNA and DNA in nucleus and cytoplasm of parenchymal cells in the regenerating liver of the mouse after a pulse time of 2 hr. After a decreased uptake of precursor into the parenchymal nucleus during the first 6 hr compared with the normal value, incorporation increased and was maximal at 36 hr; normal values were restored at 72 hr. The cytoplasmic labelling, after an initial small decrease, reached a maximum at 12 hr; this changed to normal 48 hr after hepatectomy. RNase-digestion of the liver sections left a small incorporation in both nucleus and cytoplasm: presumably DNA. This incorporation is maximal at 12 hr over the nucleus and at 24 hr over the cytoplasm. After a 2 hr pulse of ³H-thymidine, there was a marked uptake of the precursor into DNA about 24 hr after hepatectomy. This was maximal at 48 hr and reached normal values at 72 hr. A small amount of incorporation of ³H-thymidine into DNA was seen immediately after the operation, and this population of weakly labelled nuclei was still rather large 72 hr later.     

Mirex-induced liver enlargement in rats is dependent upon an intact pituitary-adrenalcortical axis

The effect of prior hypophysectomy upon mirex-induced liver hypertrophy in male Sprague-Dawley rats was examined. Mirex had no effect upon adrenal weight, liver weight, plasma glucose or plasma corticosterone in hypophysectomized rats. However, daily corticosterone supplements (20 mg/kg body weight, sc) given to mirex-treated hypophysectomized animals yielded a 52% increase in liver weight to body weight ratios over those observed in mirex-treated hypophysectomized animals not receiving supplement. In intact rats, both liver weight to body weight ratios and plasma ACTH were significantly increased over controls 2 days after mirex treatment. These results indicate that mirex-induced liver enlargement not only requires corticosterone, but that the response is dependent upon an intact pituitary-adrenalcortical axis.     

Mirex induces ornithine decarboxylase in female rat liver

Ornithine decarboxylase, the rate-limiting enzyme in polyamine synthesis, was significantly induced in female rat liver following oral administration of the pesticide mirex. After dual oral exposure (120 mg/kg of mirex; 21 and 4 hr prior to sacrifice), ornithine decarboxylase activity in rat liver cytosol was 70-fold higher than control values. A single oral dose of mirex (180 mg/kg) induced hepatic ornithine decarboxylase activity 55-fold over controls. After a single oral dose of mirex the maximal induction of ODC activity occurred at 36 hr. Mirex is an unusually potent and long-lasting inducer of rat hepatic ornithine decarboxylase activity.     

Differential effects of Mg2+ on various hydrolytic and synthetic activities of multifunctional glucose-6-phosphatase

The adaptive synthesis of fatty acid synthetase in the livers of rats fed a fat-free diet following 48 hr of fasting has been studied using immunochemical methods. The development of fatty acid synthetase activity during adaptive synthesis occurs about 3 hr following feeding, whereas the synthesis of material precipitable by anti-fatty acid synthetase serum, as judged by the incorporation of ³H-labeled amino acids into the immunoprecipitate, commenced within 1 hr. Extracts of liver of rats fed a fat-free diet for 1–3 hr following fasting contain increasing amounts of material which competes with purified fatty acid synthetase for antibody binding sites, even though they have no fatty acid synthetase activity. This suggests the presence of enzymatically inactive precursors of fatty acid synthetase in the liver extracts. The incorporation of [¹⁴C]pantothenate into fatty acid synthetase during adaptive synthesis follows the same pattern as the development of enzyme activity, indicating that these enzymatically inactive precursors of fatty acid synthetase may represent an apoenzyme which is converted to the enzymatically active holoenzyme by the incorporation of the 4′-phosphopantetheine prosthetic group. The subcellular site of synthesis of fatty acid synthetase was shown to be in the pool of polysomes that are not membrane bound, rather than in the rough endoplasmic reticulum.     

Acrylonitrile interaction with testicular DNA in rats

In the present study we report the in vivo interaction of acrylonitrile (VCN) with testicular tissue in rats. Covalent binding of radioactivity to testicular tissue DNA was examined for a period of 72 hr after a single oral dose (46.5 mg/kg) of [2, 3-¹⁴C] VCN. Maximal covalent binding was observed at 0.5 hr (8.9 μmol VCN equivalent/mol nucleotide). Binding decreased gradually thereafter but was still detected (2.5 μmol VCN equivalent/mol nucleotide) at 72 hr following VCN administration. Further, we examined the effects of VCN on DNA synthesis and repair in the testes of rats following a single oral dose (46.5 mg/kg) of VCN to clarify the impact of the covalent binding observed on the testicular genetic material. A significant decrease in DNA synthesis (80% of control) was observed at 0.5 hr after treatment. At 24 hr following acrylonitrile administration, testicular DNA synthesis was severely inhibited (38% of control). Testicular DNA repair was increased 1.5-fold at 0.5 hr and more than 3.3-fold at 24 hr following treatment with VCN. These results suggest that VCN can act as a multipotent genotoxic agent by alkylating DNA in testicular tissue and may affect the male reproductive function by interfering with testicular DNA synthesis and repair processes.     

Effect of triiodothyronine or etiroxate on DNA synthesis in intact and regenerating liver

An increase in liver DNA synthesis (p less than 0.01) was found in rats with an intact liver 24 h after the administration of a single dose of triiodothyronine (200 micrograms/kg i.g.) Statistically significant stimulation of DNA synthesis was also found in rats given triiodothyronine (p less than 0.01) or etiroxate (p less than 0.05) for 3 days at 24-hour intervals. When a single dose of triiodothyronine was administered immediately after partial hepatectomy (65-70% resection of the liver), increased stimulation of DNA synthesis (p less than 0.01) was found 24 h after the operation. Etiroxate partly inhibited DNA synthesis (p less than 0.05). In rats given triiodothyronine at 24-h intervals, starting at the time of partial hepatectomy, DNA synthesis 72 h after the operation was double the value in the control group. Marked stimulation of DNA synthesis by triiodothyronine (p less than 0.01) and an increase in the total DNA content of the liver (p less than 0.05) were likewise found 48 h after partial hepatectomy if the hormone was administered once, 24 h after the operation. The increase in the two indicators after the administration of etiroxate was not statistically significant.     

TUMOR ANGIOGENESIS : Rapid Induction of Endothelial Mitoses Demonstrated by Autoradiography

Walker ascites tumor cells and an extract derived from such cells (tumor angiogenesis factor, TAF) were injected into the subcutaneous tissue of rats by using a dorsal air sac technique. At intervals thereafter, thymidine-³H was injected into the air sac and the tissues were examined by autoradiography and electron microscopy. Autoradiographs of 1µ thick Epon sections showed thymidine-³H labeling in endothelial cells of small vessels 1–3 mm from the site of implantation, as early as 6–8 hr after exposure to live tumor cells At this time interval endothelial cells appeared histologically normal. DNA synthesis by endothelium subsequently increased and within 48 hr new blood vessel formation was detected. The presence of thymidine-³H-labeled endothelial nuclei, endothelial mitoses, and regenerating-type endothelium was confirmed by electron microscopy. TAF also induced neovascularization and endothelial cell DNA synthesis after 48 hr. A similar response was not evoked in saline controls. Formic acid, which elicited a more intense inflammatory response, was associated with less endothelial labeling and neovascularization at the times studied. Pericytes and other connective tissue cells were also stimulated by live tumor cells and TAF. The mechanism of new blood vessel formation induced by tumors is still unknown but our findings argue against cytoplasmic contact or nonspecific inflammation as prerequisites for tumor angiogenesis.     

Antagonistic effects of aldosterone on corticosterone-mediated changes in exploratory behavior of adrenalectomized rats

The effect of aldosterone administration on exploratory activity of chronic adrenalectomized (10 days) male rats was investigated. Aldosterone (30 μg/100 g body wt sc) administered 1 hr or 30 min prior to the behavioral test failed to normalize disturbed exploratory activity of adrenalectomized rats, in contrast to the restoration observed after corticosterone, the naturally occurring glucocorticoid of the rat. Administration of the mineralocorticoid 30 min prior to corticosterone prevented the normalization of the behavioral response by the latter steroid. Administration of the same dose of aldosterone 30 min prior to a tracer amount of [³H]corticosterone effectively blocked cell nuclear uptake of radioactive-labeled hormone in the hippocampus. The specific action of corticosterone on exploratory behavior corresponds with the stringent specificity of the neuronal hippocampal corticosterone receptor system. Mineralocorticoid receptors do not seem to be involved in effects on this behavior. The antagonistic action of aldosterone is probably exerted by competitive binding to the corticosterone receptor.     

Biogenesis of mammalian mitochondria in the renoprival kidney. II. Aspects of mitochondrial DNA synthesis

Mitochondrial DNA (m-DNA) content and factors which might control its concentration were investigated in the renoprival kidney at various times after unilateral nephrectomy. On the basis of mitochondrial protein, m-DNA increased 30% in the renoprival kidney at 24 hr and returned to normal by 48 hr. The total tissue content of m-DNA was also increased at 24 hr. The specific activity of [³H]thymidine incorporated into m-DNA in vivo was decreased markedly at 24 hr after mononephrectomy; at the same time there was a threefold increase of [³H]thymidine incorporation into total cellular DNA. The incorporation into m-DNA was above normal at 48 hr. The mitochondrial specific DNase was decreased 60% at 24 and 36 hr post-mononephrectomy. There was no significant difference in the total radioactivity or total optical density at 260 nm of the acid soluble extract from mitochondria isolated at various times after mononephrectomy. The incorporation of [³H]thymidine into TMP and TDP in the renoprival kidney was not different from normal but there was a decrease in the incorporation into TTP. It is suggested that the increase in mitochondrial DNA could be due to a decrease in the rate of degradation rather than an increase in synthesis.     

EFFECT OF AN INHIBITING FACTOR ISOLATED FROM RAT LIVER ON DNA POLYMERASES IN REGENERATING RAT LIVER

We partially purified an inhibitory factor (LIF), isolated from 105,000 g supernatant of a saline adult rat liver homogenate. LIF stopped in vitro cell multiplication by blocking the G₁—S transition, and reduced in vivo [³H]thymidine incorporation into liver DNA in two-thirds hepatectomized rats. This reduction in DNA synthesis was observed at 24 hr after hepatectomy, even when the LIF was injected before the beginning of the S phase, 10 hr after hepatectomy, i.e. when DNA polymerase activity had not yet increased. Under these experimental conditions, LIF in vivo treatment prevented α DNA polymerase activity from increasing after partial hepatectomy, so that enzyme activity at 24 hr in LIF-treated rats decreased compared to the controls. No direct inhibitory effect of LIF on α DNA polymerase was detected. LIF did not affect β DNA polymerase. These results suggest that LIF plays a part in controlling liver growth.     

Neural and hormonal stimulation of DNA and protein synthesis in cultured regeneration blastemata in the newt Notophthalmus viridescens

Distal portions of cone-stage newt forelimb blastemata were cultured transfilter to spinal ganglia for 36 or 72 hr. Addition of insulin to the medium consistently resulted in a significant increase (250% in ganglionated and 238% in nonganglionated blastemata) in the incorporation of [³H]thymidine into DNA, as compared to nontreated controls. When blastemata were cultured without ganglia for 36 or 72 hr, DNA synthesis decreased to 73 and 71%, respectively, of that achieved by ganglionated explants. When insulin was excluded from the medium, DNA synthesis decreased to 40% of insulin-treated explants, and, in the absence of both nerves and insulin, it declined to 31% of insulin-treated, innervated explants. The presence of insulin in the medium also resulted in an augmentation of (¹⁴C)-labeled amino acid incorporation into proteins; the average increase was 168%, as compared to untreated controls. l-thyroxine, growth hormone and hydrocortisone in combination with insulin, did not enhance the effects on DNA or protein synthesis of insulin alone. Also, exogenous cyclic nucleotides (cAMP, cGMP) and alterations of their endogenous levels with acetylcholine, sodium azide, theophylline or prostaglandins failed to elicit significant changes in DNA or protein synthesis. The existence of a synergistic action on DNA synthesis between nerves and insulin is suggested.     

EFFECT of DOUBLE PARTIAL HEPATECTOMIES AT VARIOUS INTERVALS ON [3H]THYMIDINE INCORPORATION INTO RAT LIVER DNA

At various intervals after a 34% hepatectomy, another 34% (50% of the remnant) hepatectomy was performed on rats, and the [³H]thymidine incorporation into the DNA of remaining liver cells was measured 24 hr after the first operation. the values of [³H]thymidine incorporation into liver DNA of rats hepatectomized doubly (34% and 34%) at 6, 8 and 10 hr intervals were greater than the sum of the value of rats which received a single 34% hepatectomy at the start and those of rats which received a single 68% hepatectomy at 6, 8 and 10 hr, respectively.     

Brain serotonin in response to the hypothalamo-hypophyseal-adrenal system to insulin hypoglycemia

The response of hypothalamus-pituitary-adrenal system to insulin administration was studied in the male Wistar rats submitted to a strong and prolonged blockade of serotonin brain synthesis by repetitive injections of p-chlorophenylalanine (PCPA) a 5-hydroxytryptophan inhibitor. After 24, 48, 72 or 96 hours of either one or two doses of PCPA (250 mg/kg, i.p.) were administered with insulin (0.25 UI/kg s.c.), the plasmatic glucose and corticosterone levels being estimated at 0, 30 and 60 minutes. When PCPA was injected twice, the lapse between them was 48 hours. Insulin produced decrease of plasmatic corticosterone values and inhibition of the response to insulin, specially between 48 and 72 hours, for a single management of PCPA, and stronger and more prolonged for the double dose. The fall of serotonin content in brain maintained great correlation with effects referred above. The results support that stimulatory action of insulin on the pituitary-adrenal system is mediated by central serotoninergic neurons and reaffirms the hypothesis that serotonin (5HT) positively modulates the activity of hypothalamus-pituitary-adrenal system.     

Effects of formamidoxime on macromolecular synthesis in regenerating liver and hepatomas

Formamidoxime caused an inhibition of [³H]thymidine incorporation into DNA in regenerating liver and transplanted hepatomas of different growth rates when administered by i.p. injection to rats. A dose level of formamidoxime (500 mg/kg body weight) which caused at least a 75% inhibition of DNA synthesis in these tissues had little or no effect on the incorporation of [³H]orotate into total RNA. After administration of formamidoxime there was no significant effect on amino acid nitrogen concentration in the tissues. The incorporation of ³H-labeled amino acids into acid-soluble material, cytoplasmic proteins and acid-insoluble nuclear proteins were either unaffected or showed only small changes after treatment of rats with the drug. In regenerating rat liver and Morris hepatomas 7787 and 7777, formamidoxime caused an inhibition of incorporation of ³H-labeled amino acids into both lysine-rich and arginine-rich histones. In the host livers of rats bearing the transplanted hepatomas, histone synthesis was less affected. The data indicated that formamidoxime causes inhibitory effects which are similar in nature and extent to those previously shown for the structurally related compound, hydroxyurea, in the regenerating rat liver and demonstrated that these effects can also be observed in liver tumors.     

Corticosterone regulates the level of hepatic glucocorticoid receptors in mice

The effect of exogenous corticosterone on the level of mouse hepatic glucocorticoid receptor was monitored to ascertain whether agonist-induced glucocorticoid receptor regulation takes place in living animals as it does in isolated cell systems. Adrenalectomized male Swiss-Webster mice were given 1 mg of corticosterone ip and 24 hr later the glucocorticoid receptor binding capacity of a high-speed cytosolic extract of liver was measured. It was shown that at this time point the administered steroid had been totally cleared and thus, the decrease in binding capacity was a reflection of downregulation. Receptor binding capacity was decreased by 25%. Downregulation was not permanent; 48-72 hr after the injection receptor content returned to baseline. Multiple daily injections of corticosterone were no more effective at causing downregulation than a single injection. It is concluded that glucocorticoid agonists downregulate their own receptors in the glucocorticoid target organs of intact animals as they do in cloned cell models.     

Modulation of the mitotic action of ethylene dibromide

Refeeding rats treated with a single high dose of ethylene dibromide (1,2-dibromoethane, EDB) induced liver DNA synthesis. The peak of DNA synthesis, as measured by [methyl-3H]thymidine incorporation was attained after 24 h in refed rats and at 48 h in fasted ones. Fasting enhances the EDB action leading to liver cell necrosis, as shown by elevation of serum enzymes' activities, glutamic pyruvic transaminase (GPT) and sorbital dehydrogenase (SDH). A low dose of EDB administered during 2 and 3 weeks slightly enhanced the liver DNA synthesis and elevated the activity of serum enzymes. Phenobarbitone (PB) treatment of rats together with low dose of EDB during 2 weeks prevented the enzyme activity elevation and attenuated the DNA synthesis. Diethyldithiocarbamate (DDC) pretreatment potentiated the DNA synthesis in fed rats after both a small dose of EDB for 2 weeks and after a single high-dose treatment. In DDC pretreated rats, the high single dose of EDB caused biochemical perturbations in serum and liver representative of liver cell necrosis; changes in serum enzymes' activities also were noticed as early as 2 h after EDB toxication. The possible function of modulators on the mitogenic or the necrogenic action of EDB is discussed.     

FAILURE TO IDENTIFY A SPERMATOGONIAL CHALONE IN ADULT IRRADIATED TESTES

The adult irradiated rat testis was used as a model system to confirm the existence of a spermatogonial chalone. Rats were given 330 rad whole body ⁶⁰Co irradiation, a dose which selectively destroys most of the spermatogonial population except for the radioresistant A_s stem cells. 11 days after irradiation, when spermatogonial numbers were minimal, the rats were injected with a testicular or liver extract prepared from normal adult rats, or with saline. Each group received a total of four injections given at 4 hr intervals. 2 hr before death, the animals were injected with [³H]TdR. Testicular DNA was isolated and the incorporation of [³H]TdR was determined. The mean ± s.e. ct/min per μg DNA in rats given testicular extract (9·38 ± 0·94) was no different than in those receiving liver extract (10·43 ± 2·01) or saline (7·23 ± 0·69). Autoradiographic studies indicated that variability in counts within or between groups could be attributed to variations in the number of pre-leptotene spermatocytes which incorporated [³H]TdR for the meiotic divisions. Quantitatively, there were no differences between groups in terms of the numbers of A spermatogonia, their labelling indices, or mitotic activity. Therefore, the presence of a spermatogonial chalone could not be demonstrated using crude extracts from normal testes in this irradiated model.     

Proliferation of PHA-stimulated lymphocytes measured by combined autoradiography and sister chromatid differential staining

Lymphocyte proliferation in culture was studied by combined [³H]TdR incorporation and sister chromatid differential staining. The majority of 1st division metaphases in a 72 h culture commenced DNA synthesis after 48 h and had a cell cycle of less than 24 h. A small proportion of cells from some donors commenced DNA synthesis between 24–30 h and had cell cycle times of up to 48 h. Although many cells entered DNA synthesis at the same time, they showed marked asynchrony in the length of their cell cycle, with some completing one, some two and others three cell cycles in the 72 h culture period. The time taken for cells to enter S following stimulation with PHA ranged from 24 to 48 h and there was considerable variation between donors in the number of fast and slow responding cells.