Sex differences and androgen-dependent regulation of aromatase (CYP19) mRNA expression in the developing and adult rat brain

Sex differences, androgen dependence and asymmetries of aromatase activity have been reported during ontogeny of the rat. It remains to be elucidated, however, whether the changes in aromatase activity are reflected by similar changes in specific mRNA levels. In addition, very little is known regarding mechanism(s) underlying such differential regulation of aromatase expression. To address these questions, we have employed the in situ hybridization (ISH) technique to examine specific mRNA levels in the brain of both male and female rats at selected stages of development. In prenatal stages of development, at gestational day (GD) 18 and 20, aromatase mRNA was detected in several hypothalamic and limbic brain regions. Semiquantitative analysis of aromatase mRNA did not reveal statistically significant sex differences in any of these regions (except in one experiment at GD20, when a sex difference was found in the medial preoptic nucleus). In contrast, clear sex differences were determined at postnatal day (PN) 2; male animals contained significantly more aromatase mRNA in the bed nucleus of the stria terminalis (BST) and thesexually dimorphic nucleus of the preoptic area (SDN) compared to female rats. Four days later in development, at PN6, sex differences of aromatase mRNA signals were observed in the BST, but were no longer detectable in the SDN. At PN15 and in adult animals, no sex differences could be determined. The effect of flutamide treatment (50 mg/kg/day) was investigated in GD20 fetuses as well as in adult rats. No statistically significant changes in aromatase mRNA expression were found in either case. In summary, our results suggest that differential regulation of aromatase mRNA expression during the critical period of sexual differentiation might, in part, account for the establishment of some of the many sexually dimorphic parameters of the rat brain. The role of androgens in the regulation of the sex-specific and developmental expression of aromatase mRNA in the rat brain remains to be clarified.     

Effect of testosterone replacement on the alteration of steroid metabolism in the hypothalamic-preoptic area of male hamsters treated with melatonin.

Adult male hamsters were maintained under 14 hours of light per day and randomly assigned to groups that received daily afternoon melatonin (25 micrograms) or vehicle injections. Animals from both groups were killed following 4, 8, and 12 weeks of treatment. By 12 weeks, the melatonin-treated hamsters had significant reductions in the weights of the testes and seminal vesicles, serum testosterone levels, and activities did not differ between groups. In a second experiment, hamsters were hypothalamic-preoptic area (HPOA) aromatase activities. Hypothalamic-preoptic area 5 alpha-reductase activities did not differ between groups. In a second experiment, hamsters were again treated with melatonin or vehicle for 12 weeks prior to being killed. After 10 weeks of treatment, groups of melatonin-treated animals received subcutaneous silastic capsules (5, 10, or 20 mm) filled with testosterone. Animals in two other groups were given blank implants or no implants at all. Two weeks later, at autopsy, reproductive organ weights, serum testosterone levels, and HPOA aromatase activities were significantly suppressed by melatonin administration. 5 alpha-Reductase activity in the HPOA was not affected. Hamsters that had been given the 10- and 20-mm testosterone implants exhibited normal seminal vesicle weights and HPOA aromatase activities. These results suggest that melatonin-induced reduction of HPOA aromatase activity is mediated by decreased circulating levels of testosterone.     

The effect of late prenatal and/or early postnatal zinc deficiency on the development and some biochemical aspects of the cerebellum and hippocampus in rats

In rats, late prenatal and/or early postnatal zinc deficiency results in behavioural anomalies in adult animals, but not in overt dysmorphogenesis of the central nervous system. Cerebellar and hippocampal development occurs mainly in the first three weeks postnatally and zinc accumulates specifically in the mossy fibres of the hippocampus during this period.In the present investigation, rat pups were suckled by dams fed a zinc-deficient (<0.5 mg/kg) diet either from day 19 of pregnancy or from parturition. Control animals were restricted-fed the same diet supplemented with 100 mg zinc/kg. Studies were performed on pups either on day 18 postpartum in the case of animals fed the experimental diets from parturition, or on day 20 for pups which received treatment from day 19 of gestation.Cerebellar and hippocampal weights were lower in pups suckling from zinc-deficient dams but zinc levels were not affected in either organ, although histological evidence suggested less zinc in the hippocampal mossy fibres. Incorporation of H-thymidine into cerebellar and hippocampal DNA was not affected by maternal zinc status, nor was the activity of the zinc metalloenzyme alkaline phosphatase.The activity of the myelin-marker enzyme 2′, 3′-cyclic nucleotide 3′-phosphohydrolase was substantially lower in both regions of the brain in zinc deprived pups, especially in the hippocampus. Activity of the zinc metalloenzyme L-glutamic acid dehydrogenase was also diminished in both tissues from 20-day-old pups and in the hippocampi of 18-day-old animals.The data suggest that cerebellar and hippocampal DNA synthesis is not seriously affected by late prenatal and/or early postnatal zinc depletion, but that the activities of two enzymes associated with neural function are. The possibility is raised that these defects may be associated with the behavioural changes observed in rats subjected to zinc impoverishment during the period of maximal cerebellar and the hippocampal development.     

Regulation of estrogen-stimulated lordosis behavior and hypothalamic progestin receptor induction by antiestrogens in female rats

Two estrogen antagonists, CI-628 (CI) and tamoxifen (TX), were used to examine the relationship between estrogen priming of lordosis behavior and progestin receptor induction in the hypothalamus-preoptic area (HPOA) of ovariectomized female rats. Lordosis behavior was assessed by measuring lordosis quotients (LQ) in response to injection of 2 micrograms of estradiol benzoate (EB) followed 48 hr later by 500 micrograms of progesterone (P). Behavior testing began 4 hr after P injection. The effects of antiestrogens were assessed by injecting CI and TX (1-2 mg) from 0 to 48 hr prior to EB. Levels of cytosol progestin receptor in the HPOA were determined by quantifying the specific binding of 0.5 nM [3H]R5020 to cytosols from animals receiving the same EB and antiestrogen treatments used in behavioral testing. TX given concurrently with or CI given 2 hr before EB abolished both lordosis behavior and induction of HPOA progestin receptors. In contrast, CI given 12 hr prior to EB abolished lordosis but permitted a 95% elevation in the concentration of progestin binding sites in the HPOA. TX or CI given 48 hr before EB resulted in moderate levels of lordosis (mean LQs from 56 to 69) and induction of HPOA progestin receptors from 85 to 130% above noninjected controls. However, CI given 24 hr prior to EB produced less than a 40% increase in brain R5020 binding even though lordosis behavior was equivalent to that seen in the 48-hr animals (mean LQ = 53). These data indicate that the effects of antiestrogens on female sexual behavior and on the synthesis of brain progestin receptors depend on which antiestrogen is used and the time interval between administration of estrogen and antiestrogen. They also demonstrate that under some conditions estrogen induction of cytosol progestin receptors in the HPOA can be dissociated from estrogen priming of lordosis behavior in rats.     

Can prenatal exposure to a 900 MHz electromagnetic field affect the morphology of the spleen and thymus,and alter biomarkers of oxidative damage in 21-day-old male rats?

We investigated the effects of a 900 Megahertz (MHz) electromagnetic field (EMF), applied during the prenatal period, on the spleen and thymus of 21-day-old male rat pups. Pregnant Sprague-Dawley rats were divided into control and EMF groups. We applied 900 MHz EMF for 1 h/day to the EMF group of pregnant rats. Newborn male rat pups were removed from their mothers and sacrificed on postnatal day 21. Spleen and thymus tissues were excised and examined. Compared to the control group, thymus tissue malondialdehyde levels were significantly higher in the group exposed to EMF, while glutathione levels were significantly decreased. Increased malondialdehyde and glutathione levels were observed in splenic tissue of rats exposed to EMF, while a significant decrease occurred in superoxide dismutase values compared to controls. Transmission electron microscopy showed pathological changes in cell morphology in the thymic and splenic tissues of newborn rats exposed to EMF. Exposure to 900 MHz EMF during the prenatal period can cause pathological and biochemical changes that may compromise the development of the male rat thymus and spleen.     

Insulin receptors in developing rat liver: Acquisition of down regulation in the immediate postnatal period

Alterations in the high and low affinity insulin receptor concentrations in developing rat liver were investigated. The number of high affinity receptors in partially purified plasma membranes from fetal rats increased from Days 19 through 22 of gestation, with no further increase in binding during the postnatal period. Fetuses of diabetic rats had approximately three times as many high affinity insulin receptors as age-matched fetuses of normal rats; however, by 1 day after birth the receptor number decreased to the normal level. Neither the number of low affinity receptors nor the affinity of insulin binding to high or low affinity receptors changed during development or between offspring of normal and diabetic rats. These changes in the number of high affinity hepatic insulin receptors from prenatal animals did not correlate with the concentration of plasma insulin. When suckling pups were rendered diabetic the changes in the number of high affinity insulin receptors correlated with alterations in plasma insulin concentrations. The number of high affinity sites/microgram DNA in hepatocytes from Day 18 fetal rats was not altered when cells were cultured for 48 h in medium containing 0, 250, or 5000 μU/ml of added insulin. When cultured hepatocytes derived from 1-day-old and adult rats were maintained in medium with added insulin concentrations of 250 or 5000 μU/ml the number of high affinity receptors/microgram DNA decreased as compared to the number of high affinity receptors in hepatocytes cultured in medium with no added insulin. This decrease in receptor number was accompanied by an increase in the affinity of insulin binding to its high affinity receptors. The data show that (i) only the high affinity insulin receptor number increases in rat liver during the prenatal period, (ii) fetuses of diabetic rats show a greater increase in high affinity receptors than do fetuses of normal animals, and (iii) the phenomenon of down regulation for high affinity insulin receptors is not observed in fetal rat liver, but is acquired in the immediate postnatal period.     

Antinociceptive properties of the 5-HT3 receptor antagonist in the model of inflammatory pain in rats of different age with prenatal deficit of serotonine and under stress

The role of peripheral 5-HT3 receptors in the nociceptive behavioral response and the effect of the 5-HT3 antagonist ondansetron on indices of acute and tonic pain were investigated in the formalin test in 25- and 90-day-old Wistar male rats. The experimental rats were prenatally exposed to 5-HT depletion (a single injection ofparachlorophenilalanine 400 mg/kg/2 ml, i. p.; ICN, USA to the dams on day 9 of pregnancy) and to stress (dams immobilization during the last week of pregnancy). Antinociceptive effects of ondansetron in the rats with both prenatal 5-HT deficiency and stress (experimental rats) and prenatal injection of saline solution and stress (control rats) were more obvious in the younger animals. Prenatal 5-HT deficiency attenuated the antinociceptive effect of ondansetron in licking patterns in the younder age group in acute pain, and in adults--in tonic pain. Thus, the data obtained in the rats with prenatal 5-HT deficiency and stress indicate involvement of 5-HT3 receptors in mediation of prolonged pain in the formalin test, and antinociceptive effect of ondansetron which is attenuated in animals with prenatal 5-HT deficiency and specifically depends on rat's age.     

The effects of prenatal exposure to a 900-MHz electromagnetic field on the 21-day-old male rat heart

Abstract

The growing spread of mobile phone use is raising concerns about the effect on human health of the electromagnetic field (EMF) these devices emit. The purpose of this study was to investigate the effects on rat pup heart tissue of prenatal exposure to a 900 megahertz (MHz) EMF. For this purpose, pregnant rats were divided into experimental and control groups. Experimental group rats were exposed to a 900?MHz EMF (1?h/d) on days 13–21 of pregnancy. Measurements were performed with rats inside the exposure box in order to determine the distribution of EMF intensity. Our measurements showed that pregnant experimental group rats were exposed to a mean electrical field intensity of 13.77?V/m inside the box (0.50?W/m²). This study continued with male rat pups obtained from both groups. Pups were sacrificed on postnatal day 21, and the heart tissues were extracted. Malondialdehyde, superoxide dismutase and catalase values were significantly higher in the experimental group rats, while glutathione values were lower. Light microscopy revealed irregularities in heart muscle fibers and apoptotic changes in the experimental group. Electron microscopy revealed crista loss and swelling in the mitochondria, degeneration in myofibrils and structural impairments in Z bands. Our study results suggest that exposure to EMF in the prenatal period causes oxidative stress and histopathological changes in male rat pup heart tissue.     

Effects of prenatal X-irradiation on the 14th-18th days of gestation on postnatal growth and development in the rat

Thirty-nine pregnant adult Wistar strain rats were randomly assigned to one of three exposure groups: 0, 0.75, or 1.50 Gy X-radiation total exposure. Animals were exposed from the 14th to the 18th days of gestation at 0, 0.15, or 0.30 Gy per day. At term, 15 rats were killed and morphologic analyses were completed. Twenty-four rats were allowed to deliver their offspring. On the first day of postnatal life, litters were reduced to a maximum of eight pups per litter, with equal numbers of male and female offspring wherever possible. A total of 187 pups were observed for the age of acquisition of five reflexes (air righting, surface righting, visual placing, negative geotaxis, auditory startle) and the appearance of four physiologic markers (pinna detachment, eye opening, vaginal opening, testes descent). There was significant dose-related weight reduction in term fetuses and offspring throughout the 86-day postnatal period. Postnatal growth rate (g gained/day) was unaffected. Adult offspring brain and gonadal weight and organ weight:body weight ratios were reduced. Using the PAC50 methodology, dose-related alterations occurred in the acquisition of several reflexes. All physiologic markers exhibited a dose-related delay in appearance. These results indicate that fractionated exposure to X-radiation during the fetal period in the rat results in dose-dependent alterations in postnatal growth and physiologic development. These studies are important for our understanding of the long-range effects of prenatal exposure to ionizing radiation late in gestation.     

Comparative Effects of Ethanol and Malnutrition on the Development of Catecholamine Neurons: Changes in Neurotransmitter Levels

Abstract: The comparative effects of exposure to ethanol and malnutrition on the concentrations of tyrosine and catecholamines in whole brain and selected regions of brain have been studied in the developing rat. These animals were the offspring of optimally nourished rats (control pups), of rats fed a diet with 35% of the calories supplied by ethanol (ETOH pups), or of animals fed a diet calorically equivalent to the latter but lacking ethanol (iso-caloric, 1C pups). These diets were administered to dams either during the last week of gestation (prenatal) or during lactation (postnatal). Tyrosine levels were elevated prior to birth in the prenatal ETOH or IC pups or at 1 and 2 weeks of age in postnatal ETOH or 1C pups as compared with values found in the control offspring. Dopamine concentration in whole brain was significantly lower in prenatal ETOH pups than in prenatal IC pups at 3 weeks of age. Levels in the brains of postnatal ETOH pups were lower than control values, but not relative to animals exposed to 1C diet. Investigation of corpus striatum showed a significant decrease in dopamine concentration compared with control or IC pup values as a result of postnatal exposure to ethanol. Norepinephrine levels in the whole brain of prenatal ETOH pups were consistently 30–40% lower than either control or matched 1C pups during development. At 3 weeks of age, the norepinephrine levels in the hypothalamus of animals exposed to ethanol pre or postnatally were 30–60% lower than values in the corresponding region in either control or 1C pups. In the rat model described, ethanol caused a decrease in catecholamine levels, perhaps solely by affecting the norepinephrine neurons.     

Effects of septal lesions on behavioral sensitivity of female rats to gonadal hormones

Spayed female rats were given bilateral septal lesions or a sham operation and 3 wk later tested for hormone-induced female sexual behavior. When primed with 0.5, 1.0, or 2.0 μg of estradiol benzoate (EB) per day for 3 days and tested for lordosis behavior on the fourth day, animals with septal lesions showed a positive dose-related increase in mean lordosis quotient (LQ), whereas control animals showed a low mean LQ for all doses of EB. After priming with a low dose of EB (0.5 μg/day for 3 days), progesterone administration prior to behavior testing on day 4 produced a comparable facilitation in LQ for both septal-lesioned and sham-operated animals. When treated for 3 days with either 50 or 150 μg of testosterone propionate (TP) and given progesterone prior to behavior testing on day 4, female rats with septal lesions showed a higher mean LQ than sham-operated rats. Thus, septal lesions increase the behavioral sensitivity of female rats to both EB and TP as measured by female sexual behavior, but do not appear to alter the responsiveness of animals to progesterone.     

Cross-generational effect of prenatal morphine exposure on neurobehavioral development of rat pups

Prenatal exposure to opiates can have devastating effects on the development of human fetuses and may induce long-term physical and neurobehavioral changes during postnatal maturation. The present study was aimed at identifying cross-generational effects of prenatal morphine exposure in Sprague-Dawley rats. Pregnant rats were injected subcutaneously with either saline or morphine (10 mg/kg) twice daily during gestational days 11-18. Litter size, percentage of males and females, anogenital distances (AGDs), righting reflex, and body weight were assessed in prenatally morphine-exposed pups (first generation) and their offspring (second generation). Both prenatally morphine-exposed pups and offspring of prenatally morphine-exposed dams exhibited an increased latency to right. Additionally, second generation pups were slower in righting than first generation pups. During the early postnatal period the second generation pups weighed less than the first generation regardless of drug exposure. The AGDs of second generation male pups were decreased relative to the first generation. Our data provide important novel information about the trans-generational effects of maternal opiate abuse that may be useful for understanding/evaluating the teratogenic effects of prenatal opiate exposure.     

The sexual system of fetal and adult male rats of 2 strains after prenatal exposure to glucocorticoids

Testosterone level in male fetuses and adults after glucocorticoid injection to their mothers on 16-th and 18-th days of pregnancy as well as morphometric characteristics of male adult reproductive system of two outbred strains (aggressive and domesticated) were investigated. Prenatal hormonal treatment resulted in genotype-dependent changes in testosterone level in 21-day-old male fetuses; it was decreased in fetuses of domesticated rats and increased in fetuses of aggressive rats. The direction of these changes coincided completely with the subsequent changes in relative weight of preputial gland and seminal vesicles in adults. Thus, the level of glucocorticoids during prenatal period plays an important role in reproductive system development and the character of the action depends on the genotype.     

Maternal Zinc Supplementation Improves Spatial Memory in Rat Pups

A large body of evidence supports an opinion that adequate dietary zinc is essential for prenatal and postnatal brain development. Behavioural effects of maternal supplementation with ZnSO(4) were analysed in rat pups with the Morris water task performance, a hole board and a T-maze. Wistar females during pregnancy and lactation received a drinking water solution of ZnSO(4) at doses of 16 mg/kg (group Zn16) or 32 mg/kg (group Zn32). Behavioural tests were conducted on the 4-week-old male rat pups. Zinc concentration in the serum, hippocampus and prefrontal cortex of offsprings was determined by means of atomic absorption techniques. The Newman-Keuls multiple comparison test revealed an increase of climbing in the Zn16 group in comparison to the control group (Con) and the Zn32 group during the hole board test. ANOVA for repeated measures showed a significant memory improvement in both supplemented groups compared to the control in the probe trial on day 5 of the water maze test. ZnSO(4) treatment significantly elevated zinc levels in the rat serum. Follow-up data on brain content of zinc in the hippocampus revealed significant differences between the groups and in supplemented groups correlated with crossings above the original platform position. These findings suggest that pre- and postnatal zinc supplementation may improve cognitive development in rats.     

Infantile stage of rat development in behavioral parameters of depression-like state and pain response

In the 7–8- and the 10–11-day old male rat pups born to dams exposed to an immobilization stress for the last week of pregnancy and to the dams exposed to no stress (control), behavioral parameters were studied: the level of depression in the test of forced swimming (the Porsolt’s test) and 24 h after a long pain response during inflammation (the formalin test—a subcutaneous injection of 2.5% formalin into the hind leg plantar pad). In control pups, significant age-related changes in the forced swimming were revealed: the immobility time was longer in animals of the older age group, whereas no age differences were found in parameters of the persistent inflammatory pain and in flexing + shaking behavior. The prenatal stress produced an increase in the immobility time and the flexing + shaking behavior in the 7–8-day old, but not in the 10–11-day old rat pups. This resulted in elimination of the age differences in the immobility time in the prenatally stressed animals. Thus, use of different methodic approaches has allowed revealing peculiarities in the parameters of the degree of depression and duration of the pain response at inflammation in the 7–8- and 10–11-day old rat pups, which indicates heterogeneity of the infantile development stage that, according to literature data, includes in rats the period from the 5th to the 10th postnatal days.     

Maternal obesity and fetal programming: effects of a high-carbohydrate nutritional modification in the immediate postnatal life of female rats

Our earlier studies have shown that the artificial rearing of newborn rat pups [first generation high carbohydrate (1-HC)] on an HC milk formula resulted in chronic hyperinsulinemia and adult-onset obesity (HC phenotype). Offspring [second-generation HC (2-HC)] of 1-HC female rats spontaneously acquired the HC phenotype in the postweaning period. In this study, we have characterized the development of the abnormal intrauterine environment in the 1-HC female rats and the effects on fetal development under such pregnancy conditions for the offspring. 1-HC female rats demonstrated hyperphagia on laboratory chow and increased body weight gain beginning from the immediate postweaning period along with hyperinsulinemia and hyperleptinemia. During pregnancy, 1-HC female rats showed several metabolic alterations including increased body weight gain and increased plasma levels of insulin, leptin, proinflammatory markers, and lipid peroxidation products. Although there were no significant changes in the body weights or litter size of term 2-HC fetuses, the plasma levels of insulin and leptin were significantly higher compared with those of control term fetuses. Quantitation of mRNA levels by real-time RT-PCR indicated significant increases in the mRNA levels of orexigenic neuropeptides in the hypothalamus of 2-HC term fetuses. Collectively, these results indicate that the HC diet in infancy results in an adverse pregnancy condition in female rats with deleterious consequences for the offspring.     

Prenatal stress and glucocorticoid effects on the developing gender-related brainProceedings of Xth International Congress on Hormonal Steroids, Quebec, Canada, 17–21 June 1998.

Hormonal and neurotransmitter environment of nondifferentiated cells in the developing brain determines many of gender-specific behavioural and neuroendocrine functions. Early postnatal and long-term effects of maternal stress or prenatal glucocorticoid on sex-related peculiarities of the brain morphology, biogenic monoamine turnover, testosterone metabolism, hypothalamic noradrenaline (NA) and adrenocortical responses to an acute stress were studied in Wistar rat offsprings. Maternal stress (1 h immobilization daily for gestational days 15–21) prevented development of sexual dimorphism in neuronal cell nuclei volumes in suprachiazmatic nucleus (SCN) in 10 day old pups. That was associated with a disappearance of male–female differences in NA and 5-hydroxytryptamine turnover in the preoptic area (POA) and dopamine (DA) turnover in the mediobasal hypothalamus (MBH) by decreasing them in male pups. Hydrocortisone acetate (5 mg daily during the last week of pregnancy) produced changes in NA turnover in the POA of males and females which were quite similar to those after maternal stress. Changes in aromatase and 5-reductase activities in the POA of male pups were quite opposite as affected by maternal stress or prenatal glucocorticoid. Sexual differences in 5-reductase activity in the MBH appeared due to its increase in prenatally stressed male pups. In contrast to adult males, in adult females maternal stress did not restrict hypothalamic NA and blood plasma corticosterone response to acute stress (1 h immobilization). Our findings on morphology and functions of gender-related developing brain areas stand in correlation with modifying effects of maternal stress and prenatal glucocorticoid on behavior and neuroendocrine regulations.     

Prenatal stress alters seizure thresholds and the development of kindled seizures in infant and adult rats

Stressful events during gestation and in the neonatal period have important effects on the later physical and mental health of the offspring. The present study tested the hypothesis that pre- and/or postnatal stress would affect seizure susceptibility in infant and adult rats, using the hippocampal kindling model. Prenatal stress consisted of daily restraint of the dam under bright light (for 45 min, 3 x / day) during either early gestation or mid/late gestation. Pups were compared to pups born to unstressed dams. Postnatal stress (administered on Days 4 and 5 after birth) consisted of either separation from the dam and placement in the bedding of a strange male for 1 h or injection of dexamethasone. Pups were compared to nonstressed siblings of the same litter. Both early and mid/late-gestation prenatal stress significantly lowered the after-discharge threshold (ADT) in infant, 14-day-old rat offspring, as compared to nonstressed control offspring. This effect on ADT was lost by adulthood. Mid/late-gestation stress increased the rate of kindled seizure development in infant rats and in their adult male, but not female, siblings. Postnatal stress had no significant effect on ADT or kindling rate. These findings indicate that prenatal stress, particularly during the latter half of pregnancy, may play an important role in increasing seizure vulnerability in the unborn offspring. These effects are more pronounced in infancy, but can also extend to adulthood.     

Effect of water and food deprivation in pregnant rats on mitochondrial respiration and the state of gluconeogenesis in the rat pup liver

Wistar female rats were submitted to a water and food deprivation (food and water were restricted by 50% as compared to those consumed by control animals) during the entire pregnancy. There were 6 to 8 pups in the litters of experimental dams, the body weight of these pups being significantly lower than in control. In liver homogenates from deprived animals, intensity of gluconeogenesis was decreased by 50% or more, and gluconeogenesis precursors did not stimulate the glucose synthesis. Oxidation of pyruvate and malate as well as of caprylate by liver mitochondria remained significantly lower than in control from the postnatal day 10 to 2 months. A possible role of energetic disturbances in underdevelopment of animals submitted to the water and food deprivation during the intrauterine development is considered.