Variation in the amounts of hepatic copper, zinc and metallothionein mRNA during development in the rat.

Amounts of hepatic metallothionein mRNA were assessed in RNA from foetal and neonatal rat livers by using dot-blot hybridization. Metallothionein mRNA began to increase about day 15 of gestation and reached a foetal maximum of 5-fold higher than adult values between 18 and 21 days of gestation. The amounts fell significantly for the first 3 days after parturition, and rose again to 6-fold above adult values 6 days after birth. By 15 days after birth the metallothionein mRNA had declined to adult amounts. In comparison, amounts of ornithine transcarbamoylase mRNA did not vary greatly during development. Hepatic zinc concentrations increased from day 14 of gestation to a maximum just before birth, and remained above adult values until 30 days after birth. From 14 days of gestation to 8 days after birth, hepatic copper concentrations were about 4-fold higher than in the adult, but a substantial increase (to about 9-fold higher than in the adult) occurs between 10 and 15 days after birth. CdCl2 administered to pregnant rats on day 18 of gestation was shown to block placental transfer of zinc, and we found decreased foetal hepatic zinc concentration after the CdCl2 treatment, but this failed to cause a significant decrease in metallothionein mRNA, suggesting that zinc may not be the primary inducer of hepatic metallothionein mRNA during foetal life.     

Perinatal changes in amylase and serum corticosterone levels in rats

In rats amylase activity in the pancreas increased greatly from day 15 of gestation to a maximum on day 21. Then it decreased to less than one-tenth of this maximum value on about day 5 after birth. It increased again about 15 days after birth and reached the adult level about 30 days after birth.No amylase activity was in the parotid gland before birth: it appeared about 12 days after birth and reached the adult level, which was higher than that in the pancreas, about 30 days after birth.The serum corticosterone level was as high as the adult level before birth. Then it decreased to less than one-tenth of the adult level 5 days after birth and increased again from 15 to 25 days after birth to the adult level. The developmental change in the serum corticosterone level seemed to influence amylase activity in the pancreas both before and after birth, and that in the parotid gland only after birth.The serum contained both pancreatic and paratoid type isozymes of amylase until 1 day after birth but only the parotid type from 3 days after birth.     

Impairment of stress-induced secretion of prolactin during development: effects of adrenalectomy, TRH and sulpiride

Ontogeny of serum and anterior pituitary gland PRL contents was investigated. Pituitary PRL concentrations were found to be low in fetus by 19th day of gestation and to rise slowly after birth with no sex differences being apparent until day 30. Adult levels were reached in males on day 15, while in females they were reached beyond this stage. Serum PRL levels exhibited a similar developmental pattern. In adult rats ether stress stimulated basal serum PRL significantly, with maximum effect one minute after onset of stress. The same pattern was seen with immature animals of 15-20 and 30 days of age. In contrast, in 2 or 6 day-old neonates, serum PRL concentrations remained unaffected by stress. This lack of responsiveness suggests the existence of a transient impairment of lactotrophs to respond to stressful stimuli during postnatal life. Adrenalectomy increased PRL release in adult and newborn rats from day 15 onward and potentiated the response of lactotrophs. Moreover, after adrenalectomy, 6 day-old rats became sensitive to ether stress, while acute treatment with dexamethasone abolished completely this response. In adult or 15 day-old neonates administration of TRH or sulpiride resulted in a marked increase in serum PRL levels. However, at 6 days TRH did not affect resting serum PRL concentrations significantly, whereas sulpiride remained efficient. Moreover, at this age, dopamine inhibited stress-induced PRL release and reduced the stimulatory effect of sulpiride.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes of gamma-glutamyltranspeptidase activity in the rat during development and comparison of the fetal liver, placental and adult liver enzymes

Changes in the activity of gamma-glutamyltranspeptidase (GGT, EC 2.3.2.2) during development in rats were investigated. The activity of GGT in fetal liver increased rapidly immediately before birth, reached a maximum at birth and then decreased rapidly within a week after birth to nearly the level in adult rat liver. In contrast, placental GGT showed higher activity at an early stage (from day 13 to day 15) of the gestation period, but the activity decreased in the last part of fetal life. The activity in the amniotic fluid increased significantly just before birth, in parallel with the increase of activity in the fetal liver. No change of activity in the uterine wall was observed throughout gestation. The kinetic and immunological properties of partially purified GGTs from fetal liver and placenta were almost identical with those of adult liver GGT. However, the activity of soluble GGT in fetal liver was less effectively inhibited by antibody against adult kidney GGT. Thus, it is likely that at least one isozyme of GGT is present in the soluble fraction of fetal liver.     

Prenatal and postnatal changes in the content and species of ferritin in rat liver

The iron and ferritin content of rat liver and the species of ferritin present were examined from 4 days before to 3 weeks after birth. 1. Total iron and ferritin iron accumulated rapidly during the last days of gestation and from the second postnatal day underwent a steady depletion. 2. The amount of iron deposited before birth in the liver of each pup varied inversely with litter size and could be increased moderately by injection of iron into the mother before mating. 3. Intraperitoneal injection of iron 1 day after birth doubled the concentration of total iron, ferritin iron and ferritin protein in the liver over the next 24h, but at 3 weeks after birth it raised the very low concentrations of iron and ferritin severalfold. 4. As shown by electrophoretic migration, ferritin and dissociated ferritin subunits prepared from the livers of rats from 4 days before to 3 weeks after birth differed from those of adult liver ferritin and were indistinguishable from those of adult kidney and spleen ferritin. Treatment with iron at 3 weeks of age induced formation of a ferritin with electrophoretic properties resembling those of adult liver. It is concluded that iron given at this stage of development may activate the genetic cistron for adult liver ferritin.     

Suppression of voluntary ethanol consumption in rats by gamma-butyrolactone

The effect of gamma-butyrolactone (GBL) on voluntary ethanol intake was studied in a group of Wistar rats in which a stable preference had been induced by exposure to increasing ethanol concentrations. These rats drank 60% of their daily fluid intake as 15% ethanol solution, corresponding to about 6 g ethanol/kg/day. GBL, injected intraperitoneally at the dose of 200 mg/kg, twice daily for 3 consecutive days, decreased ethanol intake by about 80% on the days of treatment, but did not reduce total fluid intake. Ethanol intake remained significantly reduced up to the 5th day following cessation of GBL administration. GBL, up to a concentration of 10(-3) M, inhibited neither alcohol-dehydrogenase nor aldehyde-dehydrogenase in rat liver homogenates, nor dopamine-beta-hydroxylase in homogenates of adrenal medulla or hypothalamus of rats. It is suggested that inhibition of firing in dopaminergic neurons mediates the suppressant effect of GBL on ethanol preference.     

Factors influencing the development of urea-synthesizing enzymes in rat liver

1. The activities of enzymes of the urea cycle, carbamoyl phosphate synthetase, ornithine transcarbamoylase, argininosuccinate synthetase, argininosuccinase (the last two comprising the arginine synthetase system) and arginase, were measured in the liver during development of the rat. All five enzymes exhibited relatively low activities in foetal liver and a rapid postnatal increase was found. The rate-limiting enzyme of urea synthesis in the rat, the condensing enzyme of the arginine synthetase system, showed the lowest activity at birth and the most rapid postnatal increase, a fivefold increase within 24hr. after birth. A second increase of activity was noted after the tenth day. These results suggest that the postnatal increase of arginine synthetase activity initiates the ability for urea synthesis in the rat. 2. Some factors influencing the development of the rate-limiting arginine synthetase system were studied in more detail. (a) Intraperitoneal administration of puromycin inhibited the postnatal increaseof the enzyme activity. (b) Starvation of newborn animals for 24hr. after birth had no effect on the postnatal development of the enzyme. (c) Bilateral adrenalectomy at birth caused a marked diminution in the postnatal increase of the enzyme activity and injections of triamcinolone were effective in preventing the effect of adrenalectomy. (d) Administration of triamcinolone alone had a marked stimulatory effect on the postnatal development of this enzyme. (e) Premature and postmature birth had virtually no effect on the developmental pattern of the arginine synthetase activity, suggesting that the increase of this enzyme activity after birth is not initiated by the birth process.     

Antithrombin III mRNA in adult rat liver and kidney and in rat liver during development

Using Northern blots the size of antithrombin III (AT III) mRNA in rat liver was found to be 1650 nucleotides. Adult rat kidney also contained a slightly smaller mRNA at about 20% the level in liver. The ontogeny of AT III mRNA in the liver was assessed by dot blot hybridization. The mRNA was detectable at the earliest age examined (14th day of gestation) at about 15% of the adult levels. After the 17th day of gestation the levels of antithrombin III mRNA rise reaching 50% of adult levels at birth. After birth the mRNA levels rise to 75% of adult levels by the 5th day and reach adult levels by 40 days after birth. We suggest that foetal AT III is produced by both the foetal liver and by placental transfer of the maternal inhibitor.     

Gulonolactonase in the rat: influence of sex and sex hormones on development

Gulonolactonase (D(or L)-gulono-γ-lactone hydrolase, (EC 3.1.1.18) in the kidney and liver of the rat, which are known to be identical enzymes but exhibit different patterns of post-natal development. The hepatic enzyme is detectable one day after birth, increases sharply to the adult level after nine days, and shows no appreciable sex-related difference. The renal enzyme is not detectable until approximately four days after birth in the male and ten days after birth in the female. The level of renal enzyme increases slowly in both sexes until about day 27 at which time activity in the male begins to increase rapidly while it declines slowly in the female. At this time the adult male has about 20 times as much hepatic gulonolactonase as the female. Adult enzyme levels are reached at age 44 days.The normal development increase in male renal gulonolactonase is prevented by administration of 17β-estradiol but it can be restored by subsequent administration of testosterone. Testosterone alone, or in combination with glucose does not evoke precocious induction of gulonolactonase in the male, nor does it affect its level after development has begun.Of the androgens tested for their ability to induce gulonolactonase in the kidney of the adult female, the following potency was observed: 5-androstan-3α, 17β-diol > testosterone > androstandione = androstanolone. Androsterone was without effect.     

Regulation of tyrosine aminotransferase in foetal rat liver.

A specific tyrosine aminotransferase, separate from the aspartate aminotransferases, is present in low concentration in foetal rat liver at the 21st day of gestation. Intraperitoneal injections of tyrosine methyl ester into the foetuses in utero increase the activity 2-fold, whereas glucose injections decrease it. Tyrosine, dexamethasone and dibutyryl cyclic AMP induce the enzyme activity in organ culture to the same extent as in adult rat liver in vivo.     

Developmental changes of citrullinogenesis, mitochondrial N-acetylglutamate content and N-acetylglutamate synthetase in fetal and neonatal rats

A low citrullinogenesis (less than 60 per cent of the adult value) was observed throughout the suckling period when mitochondria isolated from newborn rat liver were incubated in vitro with L-glutamate or succinate as oxidizable substrates. The adult value was reached after weaning. From birth to weaning, intact mitochondria synthesized more citrulline when supplemented with L-glutamate than with succinate. The low citrullinogenesis could not be explained by low carbamoylphosphate synthetase-I and ornithine transcarbamoylase activities that reached adult values at birth. The decreased citrullinogenesis seen for the first three days of life seemed to be related to the low intramitochondrial concentration of N-acetylglutamate, an activator of the carbamoylphosphate synthetase-I. The concentration of this activator did not differ from that reported for adult rat liver mitochondria after the fourth day of life. The discrepancy between the normal value of N-acetylglutamate concentration and the low activity of the N-acetylglutamate synthetase (15 to 30 per cent of the adult activity) is discussed on the basis of acetyl-CoA or L-glutamate availability in mitochondria isolated from newborn or young rats.     

Postnatal changes of cathepsin D activity in rat liver and brain

Total and specific activity of cathepsin D (EC. 3.4.23.5) were measured in rat liver and brain from 1 to 98 days of age. The activity of cathepsin D in the liver of adult and newborn rats was the same while in the rat brain it was higher in adult than in newborn rats. In the liver maximum specific activity of cathepsin D occurred on the 10th postnatal day and minimum on the fourth day of age. In the brain maximum specific activity of the enzyme occurred on the 14th postnatal day. Total activity of cathepsin D increased after birth in rat liver and brain. These results are discussed in relation to the functional role of cathepsin D in the rat liver and the brain.     

Metabolism of zinc and copper in the neonate: Effect of cadmium administration during late gestation in the rat on the zinc and copper metabolism of the newborn

Rats that have been treated with Cd (1.0 mg/kg body wt., i.v.) on the 18th day of gestation give birth to young, the livers of which are low in Zn, but not in Cu. With increasing age after birth the hepatic concentrations of total and thionein-bound Zn in these animals increase rapidly to maxima at about 7 days, approx. 6 days later than in the newborn of normal dams, whereas the liver Cu concentration reaches a higher maximum at an earlier age than in the control neonate. This rapid uptake of Cu into the liver of the newborn of the Cd-treated dam is not accompanied by a concomitant increase in the concentration of soluble thionein-bound Cu.Cadmium-treatment of the dam retards the weight gain of the liver and, at least during the first 6–8 days postpartum, the increase in body wt. of the newborn. When the hepatic concentrations of thionein-bound Zn is expressed relative to liver wt. instead of age, there is no significant difference between the newborn from normal and Cd-treated dams.The Zn concentrations in blood, brain, stomach, duodenum, pancreas, spleen, kidney and muscle of newborn rats either remain constant, or increase only slightly with age after birth and are not affected significantly by the administration of Cd to the dam in late gestation. This treatment, which probably increases the demand for Zn in the newborn, delays the deposition of Zn in bone and causes a reduction in the Zn concentration of the skin. The Cu concentrations in skin and bone, as well as in other organs of the newborn during the first 24 days postpartum, seem to be unaffected by Cd-treatment of the dam.It is suggested that hepatic Zn-thionein has an essential function in the Zn metabolism of the liver, but is unlikely to control the supply of Zn to other organs in the newborn rat.     

Rhythmic variations in acid phosphatase activity in the liver of newborn rats

The rhythm of acid phosphatase activity in liver homogenates of newborn rats (aged about 14 days) was compared with a similar rhythm in adult rats (aged 4.5 months). Serial chromatographic investigations demonstrating isoenzyme patterns demonstrated age-related changes of this rhythm connected with the synthesis of the enzyme in newborn rats. The averaged activity of the enzyme in the liver homogenates of newborn rats was about 4 times lower than in adult rats. The maximal values of total enzyme activity of both isoenzymes after chromatographic separation in newborn rats were shifted by about 7 hours in relation to adult animals. Similar changes were observed in the case of the greatest maximal values of the activity ratios--subunit: both isoenzymes, and isoenzyme II: isoenzyme I. In adult rats these maximal values appeared during the night hours and in newborn rats during the day.     

Glucagon stimulation of ruthenium red-insensitive calcium ion transport in developing rat liver.

The maturation of glucagon-stimulated Ruthenium Red-insensitive Ca2+-transport activity was determined in livers of rats ranging in age from 5 days preterm to 10 weeks of adult life. Previous indications are that this activity is confined to vesicles derived mainly from the endoplasmic reticulum. Perinatal-rat liver contains near-adult values of Ruthenium Red-insensitive Ca2+-transport activity, and exhibits large transient increases in the rate of this activity at two stages of development, immediately after birth, and at 2-5 days after birth. The administration of glucagon to foetal rats, at developmental stages after 19.5 days of gestation (2.5 days before birth), results in a large stable increase (greater than 100%) of Ca2+-transport activity in a subsequently isolated 'heavy' microsomal fraction. That this fraction was enriched in vesicles derived from the rough endoplasmic reticulum was indicated by both an electron-microscopic examination and a marker-enzyme analysis of the subcellular fractions. The administration of glucagon into newborn animals only hours old does not enhance further the initial rate of Ca2+-transport activity, and from day 1 to 10 weeks after birth the administration of the hormone results in the moderate enhancement of Ca2+ transport. Experiments with cyclic AMP and inhibitors of phosphodiesterase activity suggest that cyclic AMP plays a key role in the enhancement by glucagon of Ruthenium Red-insensitive Ca2+ transport, and arguments are presented that this transport system has an important metabolic role in the redistribution of intracellular Ca2+ in liver tissue.     

Investigation of thyroxine monodeiodinase activity in the liver, kidney and brown adipose tissue of foetal and neonatal rabbit

The maturation of the 5'- and 5-monodeiodinase system in liver, kidney and brown adipose tissue of rabbits, during the foetal period (from 21 days of gestation to birth) and the neonatal period (from birth to 3 weeks of life) was studied. A sudden increase of 5'- and 5-monodeiodinase activity in liver and kidney 3 days before birth was observed, falling to a nadir at day 3 after birth. Foetal and neonatal serum T4, T3 and rT3 concentration were very low and rose progressively with age, reaching adult values at about day 21. In the foetal brown adipose tissue high 5'-monodeiodinase and low 5-monodeiodinase activity was found. The 5'-monodeiodinase decreased during the first days of life whereas the 5-monodeiodinase activity remained at a low stable level until day 3 when the activities of both enzymes increased. The increase of conversion rate of T4 to T3 and rT3 in liver and kidney well correlate with the triiodothyronines concentration in serum from day 3 after birth.     

Effect of sex hormones on plasma T-kininogen in the rat

The influence of sex hormones on rat plasma T-kininogen concentration was examined. The level of T-kininogen in the post-pubertal female rat is about 3-times that of the male animal. Female rats castrated as adults or 15 days after birth, had low T-kininogen concentrations, near those of male rats. In contrast, castration of mature or immature male animals induced no change in T-kininogen. Treatment of castrated female or male rats with 17 alpha-ethinylestradiol significantly increased the T-kininogen level, whereas administration of testosterone or progesterone had no effect. The influence of estrogen was specific for T-kininogen, since plasma HMW kininogen concentration was the same in male and female rats and was not affected by castration or sex hormone treatment. T-kininogen concentration was not significantly changed in pregnant rat between the 12th and the 20th day of pregnancy, but increased after parturition. It was high in the newborn rat at birth and then decreased similarly over the next 3 weeks in males and females. It continued to decrease in the males, reaching the level of the adult rat, but it increased in the female from 3-4 weeks of age and reached the adult level at about 6-8 weeks. These data indicate that natural estrogens have a physiological influence on the plasma level of T-kininogen in female rats whereas testosterone had no effect on either male or castrated female rats. HMW kininogen is not physiologically dependent on sex hormones.     

Developmental changes in rat hepatic casein kinases 1 and 2

Cytosolic histone kinase and casein kinase activities varied considerably in the late fetal and postnatal periods of liver development. Both activities showed a maximum at day 21 of gestation and decreased at birth to values close to those of adult rats. The changes in total casein kinase activity were due to variations of casein kinase 1 and casein kinase 2. Similarly the activities of both the cyclic-AMP-dependent protein (histone) kinase and the cyclic-AMP-independent histone kinase varied during development. Besides the changes in total activity, the affinity of casein kinases 1 and 2 for casein also varied in fetal and postnatal development. The Km values of casein kinase 2 increased from day 18, reached a maximum at day 20 of gestation and then started to decrease until one day after birth. In contrast the Km values of casein kinase 1 decreased from day 18, reached its lowest value at day 21 of gestation and attained values similar to those in the adult at the day of birth. Changes in this parameter were also observed when insulin (3 IU/kg) was administered by intraperitoneal injection to one-day-old rats. The Km values of casein kinase 1 decreased while those of casein kinase 2 increased after administration of this hormone. On the other hand, the Km values for ATP of casein kinases 1 and 2 as well as their apparent molecular masses and sensitivity to heparin and GTP did not significantly change during ontogeny of rat liver.     

Postnatal changes in sublobular distribution of NADPH-cytochrome P-450 reductase in rat liver

Summary Immunohistochemical distribution of NADPH-cytochrome P-450 reductase (NADPH-ferrihaemoprotein reductase; EC 1.6.2.4.) in the liver lobule was examined during development of the rat. From the 19th day of gestation to 4 days after birth, the enzyme was distributed uniformly throughout the lobule. The immunostaining for the enzyme was weak before birth, and became slightly stronger after birth. A slightly uneven distribution of immunoreactivity, stronger in perivenular zones, appeared at 5 days after birth. Then, the staining intensity in perivenular zones became progressively stronger with age, except for a slight increase between 10 and 20 days of age. The intensity in periportal zones also increased gradually, although it remained weaker than that in perivenular zones. Around 30 days of age, the distribution of the immunostaining, stronger in perivenular than in periportal zones, was similar to that seen in the lobules of adult animals. thus, heterogeneity among hepatocytes with respect to the enzyme content is not present in fetal and newborn rats but develops gradually during postnatal development; the postnatal growth of the liver is accompanied by a change in the pattern of the distribution of this enzyme within the lobule.     

Developmental Change in the Glycosaminoglycan Composition of the Rat Brain

Abstract: Glycosaminoglycans (GAGs) were isolated from the brains of pre- and postnatal rats. The GAG content of the brain, based on the amount of DNA, was constant during the period from day 13 to day 15 of gestation. After day 15, the GAG content began to increase and reached a plateau by 10 days after birth. Hyaluronate (HA) was the main GAG (> 60% of the total) in the fetal rat brain, and the relative amount of HA decreased after birth. Conversely, the relative amount of chondroitin sulfate increased with development and reached the adult level by 20 days after birth. Heparan sulfate (HS) was the major sulfated GAG in the fetal rat brain at early developmental stages, but HS accounted for approximately 10% of the total GAG in the postnatal brains. In addition to these GAGs, a polysialosyl glycoconjugate was isolated from rapidly growing brains of the rat. These three GAGs could be isolated either from the cerebellum, cerebrum, or brainstem of the newborn rat. A closely similar age-related change in the GAG composition was observed in each of these different regions of the brain. The developmental change could be implicated in morphogenesis or maturation of the brain.