Comparative effect of Neospora caninum infection in BALB/c mice at three different gestation periods

Neospora caninum has been recognized as a major cause of infectious bovine abortion worldwide. In the present study, the effect of N. caninum infection in mice at the 3 gestation periods (first, second, and third period) was investigated. In dams, tissue distribution of N. caninum was evaluated by nested polymerase chain reaction. In the progeny, fetal mortality, stillbirth, litter size, neonatal mortality/morbidity, vertical transmission, and parasite burden in neonatal tissues were evaluated. Pregnant BALB/c mice were infected subcutaneously with 2 x 10(6) NC-1 tachyzoites on days 0, 7, or 14 of gestation. Dams from each group were sequentially killed during gestation and postpartum (PP). Pups were killed on days 1 and 7 PP. Infection on day 0 of gestation produced a high vertical transmission rate, although no changes in fetal mortality, stillbirth, and littermate size were observed. The highest level of vertical transmission, together with an increase in fetal mortality and stillbirth and a decrease in litter size, were observed when infection was done on day 7 of gestation. Finally, infection on day 14 of gestation produced the lowest vertical transmission. Furthermore, infection at any time during gestation compromised the postnatal development of pups, because neonates from infected dams showed less body weight and a delay in the hair development.     

Marginal Zinc Deficiency in Pregnant Rats Impairs Bone Matrix Formation and Bone Mineralization in Their Neonates

Zinc (Zn) deficiency during pregnancy may result in a variety of defects in the offspring. We evaluated the influence of marginal Zn deficiency during pregnancy on neonatal bone status. Nine-week-old male Sprague-Dawley rats were divided into two groups and fed AIN-93G-based experimental diets containing 35 mg Zn/kg (Zn adequately supplied, N) or 7 mg Zn/kg (low level of Zn, L) from 14-day preconception to 20 days of gestation, that is, 1 day before normal delivery. Neonates were delivered by cesarean section. Litter size and neonate weight were not different between the two groups. However, in the L-diet-fed dam group, bone matrix formation in isolated neonatal calvaria culture was clearly impaired and was not recovered by the addition of Zn into the culture media. Additionally, serum concentration of osteocalcin, as a bone formation parameter, was lower in neonates from the L-diet-fed dam group. Impaired bone mineralization was observed with a significantly lower content of phosphorus in neonate femurs from L-diet-fed dams compared with those from N-diet-fed dams. Moreover, Zn content in the femur and calvaria of neonates from the L-diet group was lower than that of the N-diet-fed group. In the marginally Zn-deficient dams, femoral Zn content, serum concentrations of Zn, and osteocalcin were reduced when compared with control dams. We conclude that maternal Zn deficiency causes impairment of bone matrix formation and bone mineralization in neonates, implying the importance of Zn intake during pregnancy for proper bone development of offspring.     

Maternal Depression Model: Long-Lasting Effects on the Mother Following Separation from Pups

This study was carried out to ascertain the effects of maternal separation (3 h per day) of mothers from their pups in the neonatal period in rats, which has been suggested to induce a depressive-like state, would have long lasting effects on different parameters including hippocampal Na(+), K(+)-ATPase activity, NO production, free radical production and antioxidant enzymes activities in dams. Fourty-eight Wistar rats were divided into 3 groups: control, brief separation (10 min) and long separation (3 h). The neonatal interventions were done on postpartum days 1-10. At 35 days post-partum the dams were killed and the hippocampal Na(+), K(+)-ATPase activity were measured, as well as the activity of the antioxidant enzymes catalase, glutathione peroxidase, superoxide dismutase, free radicals production, and the production of nitric oxide. Hippocampal Na(+), K(+)-ATPase activity was decreased in the brief separated group and in dams subjected to 3 h separation from their pups. A reduction in nitric oxide levels in the hippocampus in dams of the long separated group was also observed. It is concluded that the withdrawal of pups from their mothers make the mothers more susceptible to the development of neurochemical alterations that could be related to depressive features.     

Influences of maternal caffeine on the neonatal rat brains vary with the nutritional states

The potential effect of maternal caffeine ingestion upon total brain protein and the concentration of two prototype neuropeptides, thyrotropin-releasing hormone (TRH) and its derivative, cyclo (His-Pro) in neonates was examined during the nursing period in the context of variable maternal protein intake. Maternal caffeine intake (2 mg/100 g body weight) significantly increased the total brain protein of neonates derived from dams fed a 6% casein diet, but not from dams fed a 12%- or 20%-casein diet. Maternal caffeine consumption significantly increased the amount of cyclo (His-Pro) in the neonatal brains in all groups. The percent increments in pups from dams fed 6%, 12%, and 20% casein diets were respectively 137%, 131%, and 120%. By contrast, no significant alterations were observed in TRH concentrations between caffeine and control groups. It is concluded that maternal caffeine can influence neonatal brain protein and cyclo (His-Pro) during nursing under conditions of protein-energy malnutrition.     

Maternal influences on the ontogeny of basal levels of plasms corticosterone in the rat.

To study the effect of maternal factors on circadian periodicity in plasma corticosterone in weanling rats, base levels of this steroid were assessed at 4-hr intervals over a 24-hr period in both blind and normal offspring of blind or normal dams. Blind litters reared by blind mothers do not show a daily periodicity in plasma corticosterone levels. However, blind litters reared by normal mothers do display significant daily fluctuations in the plasma levels of corticoids. All normal weanlings exhibit a significant daily periodicity in plasma corticosterone. Peak levels of corticosterone in normal weanlings, which were separated from their dams at Day 21 or reared by blind dams, were present at the onset of the dark period (2130). However, in normal weanlings which were not separated from their mothers, maximal corticosterone occurred several hours after lights off. These results demonstrate that the pattern of daily periodicity in plasma corticosterone levels in the weanling rat can be influenced both by maternal factors and by the light cycle.     

Effect of moderate protein deficiency on reproduction in the female rat and on the development of the pups until weaning

Two groups of Wistar female rats were respectively fed ad libitum a standard stock diet containing 22 p. 100 protein (n = 93) and a diet containing 7.5 p. 100 protein (n = 189) for 8 weeks. They were mated with male rats of the same strain after 2 weeks of these diets. A small decrease (8 p. 100) in fecundity was observed but this moderate protein deprivation did not affect either the litter size (9.68 +/- 3.50 vs 9.61 +/- 3.69) or the percentage of stillborn pups (4.8 vs 4.9 p. 100). The postnatal mortality of the pups of deprived dams was much higher than that of pups from normal dams (11.2 vs 0.9 p. 100). During the suckling period, the 7.5 p. 100 protein diet did not cover the requirements of the dams. They lost 20 p. 100 of their weight, whereas the weight of the dams fed the 22 p. 100 protein diet remained stable. The weight deficit of the young rats born from deprived dams was about 10 p. 100 at birth but it rose to 50 p. 100 at weaning. During the gestation and suckling periods, the maternal body stores and tissues were mobilized to assure the growth of the young.     

Prenatal exposure to a low-frequency electromagnetic field demasculinizes adult scent marking behavior and increases accessory sex organ weights in rats

Pregnant Sprague-Dawley dams were exposed to a low-level, low-frequency pulsed electromagnetic (EM) field (15 Hz, 0.3 msec duration, peak intensity 8 gauss) for 15 min twice a day from day 15 through day 20 of gestation, a period in development that is critical for sexual differentiation of the male rat brain. No differences in litter size, number of stillborns, or body weight were observed in offspring from field-exposed dams. At 120 days of age, field-exposed male offspring exhibited significantly less scent marking behavior than controls. Accessory sex organ weights, including epididymis, seminal vesicles, and prostate, were significantly higher in field-exposed subjects at this age. However, circulating levels of testosterone, luteinizing hormone, and follicle-stimulating hormone, as well as epididymal sperm counts, were normal. These data indicate that brief, intermittent exposure to low-frequency EM fields during the critical prenatal period for neurobehavioral sex differentiation can demasculinize male scent marking behavior and increase accessory sex organ weights in adulthood.     

Analysis of metopirone-induced hypertrophy of adrenals in fetal rats encephalectomized in utero

Pregnant rats were treated with 30 mg metopirone (M) each day for 2 days and autopsied on the third day in various gestational periods (Days 18-20, 19-21, and 20-22). Control rats were treated with saline alone (S). The adrenals of intact fetuses in M-treated dams were significantly heavier than those of intact fetuses in S-treated dams in every experimental period. In both M- and S-treated dams, the adrenals of encephalectomized (E) fetuses were lighter than those of intact littermates. However, in the experimental period of Days 18-20 and 19-21, the adrenals of E fetuses in M-treated dams were slightly but significantly heavier than those of similar E fetuses in S-treated dams. In contrast, in the experimental period Days 20-22, there was no significant difference in the weight of adrenals of E fetuses of M- and S-treated dams. These changes in fetal adrenal weight were reflected histologically in parallel changes in the size of adrenocortical cells. The observations suggest that the fetal adrenal hypertrophy following maternal treatment with metopirone can occur to some extent independent of the fetal brain, but that close to the end of gestation the hypertrophy occurs completely under the control of the fetal brain.     

Iodothyronine-5'-deiodinase activity in progenies of hypothyroid rats

Iodothyronine-5'-deiodinase activity (I-5'DA) was measured in the progenies of control rats, hypothyroid (Tx) rats, and hypothyroid treated with ovine GH (Tx + GH) during gestation. The enzyme was measured in cerebral cortex and cerebellum at 22 days gestation and at 5, 10, 30 and 60 days postpartum. In addition, the pituitary I-5'-DA was assessed in the postnatal animals. The experiments were undertaken because the tissues of the progenies of rats that were hypothyroid during pregnancy appeared in many ways to resemble those of hypothyroid animals, even at ages when serum thyroxine (T4) and triiodothyronine (T3) levels were normal. It was found that the progenies of Tx mothers had low liver 5'-deiodinase activities. This is a likely cause of the low serum T3 levels with normal T4 levels seen in these progenies in the neonatal period. Cerebral and cerebellar 5'-deiodinase activities were low in these progenies during the thyroid hormone-dependent perinated period of brain development. The progenies of GH-treated Tx dams had higher enzyme activities than the progenies of untreated Tx dams. These pups from GH-treated Tx mothers have been shown previously to have significantly less neurological impairment than the progenies of untreated Tx mothers. As most of the brain intracellular T3 is produced in situ, a functional thyroid deficiency could result from such a 5'-deiodinase deficiency. As the deiodinase deficiency was still seen in the progenies of Tx mothers at 60 days of age, such a deficiency could explain why, even though serum T4 and T3 levels were normal, brain metabolism was in many ways characteristic of hypothyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)     

Transfer of 3H-gossypol to neonatal rats via milk of nursing dams.

Gossypol is a naturally occurring toxin with potent antifertility action in both males and females. Transfer of gossypol via milk from lactating mother to neonates has not been documented. One theory for the lack of such a finding is that gossypol, once tightly bound to milk proteins, is not extractable by conventional extraction methods for HPLC analysis. This study was designed to examine the possibility and dynamics of transmammary transfer of radioactively-labelled gossypol to neonates through nursing. Nursing rats were dosed with fifty microCi of 3H-gossypol in 0.5 ml of dimethyl sulfoxide via oral intubation on Day 10 post-partum. Six hours after treatment, significant amounts of 3H-gossypol were detected in the coagulated milk collected from the stomachs of the neonates as well as in the blood, liver, lung, spleen and a number of other tissues of these pups. While most neonatal tissues showed a steady decline in 3H-gossypol retention over time regardless of neonatal gender, adrenal glands and gonads preferentially accumulated 3H-gossypol in a time- and sex-dependent manner during the 24-hour sampling period. The results demonstrate that 3H-gossypol is transferred via milk from the nursing dams to their neonates. Thus, the gossypol content of milk presents a conceivable threat to neonatal health, especially to the normal function of steroidogenic organs.     

Maternal protein restriction during lactation induces early and lasting plasma metabolomic and hepatic lipidomic signatures of the offspring in a rodent programming model

Perinatal undernutrition affects not only fetal and neonatal growth but also adult health outcome, as suggested by the metabolic imprinting concept. However, the exact mechanisms underlying offspring metabolic adaptations are not yet fully understood. Specifically, it remains unclear whether the gestation or the lactation is the more vulnerable period to modify offspring metabolic flexibility. We investigated in a rodent model of intrauterine growth restriction (IUGR) induced by maternal protein restriction (R) during gestation which time window of maternal undernutrition (gestation, lactation or gestation–lactation) has more impact on the male offspring metabolomics phenotype. Plasma metabolome and hepatic lipidome of offspring were characterized through suckling period and at adulthood using liquid chromatography–high-resolution mass spectrometry. Multivariate analysis of these fingerprints highlighted a persistent metabolomics signature in rats suckled by R dams, with a clear-cut discrimination from offspring fed by control (C) dams. Pups submitted to a nutritional switch at birth presented a metabolomics signature clearly distinct from that of pups nursed by dams maintained on a consistent perinatal diet. Control rats suckled by R dams presented transiently higher branched-chain amino acid (BCAA) oxidation during lactation besides increased fatty acid (FA) β-oxidation, associated with preserved insulin sensitivity and lesser fat accretion that persisted throughout their life. In contrast, IUGR rats displayed permanently impaired β-oxidation, associated to increased glucose or BCAA oxidation at adulthood, depending on the fact that pups experienced slow postnatal or catch-up growth, as suckled by R or C dams, respectively. Taken together, these findings provide evidence for a significant contribution of the lactation period in metabolic programming.     

Lead-exposure of neonatal rats through maternal milk

Lead-exposed neonatal rats are frequently used as a model for plumbism in children. In most studies,PPb is administered to the dam, and it is assumed that the pups are exposed to Pb primarily from the dam's milk. Rat pups, however, are coprophagic and begin to consume the maternal feces in their second postnatal week. This experiment was designed to determine whether the maternal feces are a significant source of Pb in pups exposed via the lactating dam. Dams were administered Pb as lead acetate (PbAc), either through their drinking water (500 ppm PbAc) or through twice daily intubations (3 mg PbAc/Kg body wt) from postpartum d 1 (P1) to P21 (P0=day of birth). Control dams were administered deionized water. The dams were housed with their litters in stainless-steel hanging cages with wire-screened bottoms. Litters of exposed and control dams treated through their drinking water had access to either Pb-containing or Pb-free maternal fecal matter for 2 h/d during the late lactation period. Half of the litters from intubated dams had continuous access to maternal feces throughout the lactation period, whereas access was curtailed at P14 in the other litters. Lead content of the feces from Pb-exposed dams ranged from 1000 to 5000 μg Pb/g wet wt. At P21, Pb concentrations were 2–4 times higher in blood, brain, bone, and liver of pups that had access to Pb-contaminated feces than in pups that were exposed to Pb primarily through the mother's milk. When estimating exposure levels in pups receiving Pb through the lactating dam, coprophagy and the high content of Pb in the dam's feces must be taken into consideration.     

Maternal reproductive experience enhances early postnatal outcome following gestation and birth of rats in hypergravity

A major goal of space life sciences research is to broaden scientific knowledge of the influence of gravity on living systems. Recent spaceflight and centrifugation studies demonstrate that reproduction and ontogenesis in mammals are amenable to study under gravitational conditions that deviate considerably from those typically experienced on Earth (1 x g). In the present study, we tested the hypothesis that maternal reproductive experience determines neonatal outcome following gestation and birth under increased (hyper) gravity. Primigravid and bigravid female rats and their offspring were exposed to 1.5 x g centrifugation from Gestational Day 11 either through birth or through the first postnatal week. On the day of birth, litter sizes were identical across gravity and parity conditions, although significantly fewer live neonates were observed among hypergravity-reared litters born to primigravid dams than among those born to bigravid dams (82% and 94%, respectively; 1.0 x g controls, 99%). Within the hypergravity groups, neonatal mortality was comparable across parity conditions from Postnatal Day 1 through Day 7, at which time litter sizes stabilized. Maternal reproductive experience ameliorated neonatal losses during the first 24 h after birth but not on subsequent days, and neonatal mortality was associated with changes in maternal care patterns. These results indicate that repeated maternal reproductive experience affords protection against neonatal losses during exposure to increased gravity. Differential mortality of neonates born to primigravid versus bigravid dams denotes gravitational load as one environmental mechanism enabling the expression of parity-related variations in birth outcome.     

Effects of age and biotin status on postnatal development of plasma biotinidase activity in rats

Biotinidase activity was measured in plasmas of 1-, 7-, 14-, and 21-day-old rats from control dams and dams that had been fed a biotin-depleting diet from Day 15 of gestation. Biotinidase activity increased significantly in the plasma of rats from control and depleted mothers until Postnatal Day 14, after which there was a small but significant decline at Day 21. Differences between the mean activities of the two groups of pups on each sampling day were not significant and there were no significant differences in activity levels attributable to sex. Plasma albumin concentrations increased from birth until Day 21, and plasma biotinidase activity and albumin concentration were significantly correlated (r = +/- 0.43). We suggested that these two proteins may be controlled by a common mechanism in the early postnatal period, and that biotin deficiency does not affect the development of biotinidase activity. Because biotin-depleted neonatal pups show developmental changes in biotinidase activity similar to those of human newborns, and they can be produced reliably by depleting dams from Day 15 of gestation, they may be useful models for studying the developmental abnormalities associated with human biotinidase deficiency.     

Maternal treatment with oleoyl-estrone induces resistance to lipid accrual in their descendants

Objective: To determine whether treatment of rat dams with oleoyl‐estrone (OE) has an effect on the offspring's long‐term response to diet restriction during lactation. Methods and Procedures: Control, OE‐treated, and diet‐restricted dams were treated up to day 15 of lactation. Changes in food intake and body weight were recorded for dams and their pups. After weaning, pups received a 4‐week standard diet followed by a 4‐week period of high‐fat diet. Lipid, protein, and energy content of pups plus energy intake and efficiency. Serum metabolites (glucose, urea, and cholesterol) and serum hormones (adiponectin, leptin, insulin, and sexual hormones). Results: Neither pups from dams in the OE‐treated nor in the diet‐restricted group showed significant changes in weight, though these two groups ingested 79% of food ingested by controls. At weaning, the pups from OE‐treated rats were smaller than those of the control or diet‐restricted groups. These pups maintained the differences in size and lipid content during the 4‐week standard‐diet period, whereas pups from diet‐restricted dams showed a sharp decrease in their lipid content. During the 4 weeks of high‐fat diet, the male offspring from OE‐treated dams increased the difference in lipid content in relation to the pups from control dams whereas in females the differences decreased. Female offspring from diet‐restricted dams showed the most marked changes in metabolite and hormone levels in relation to controls. Discussion: Treatment of lactating dams with OE programs the metabolic response of their offspring to resist the challenge of a high‐fat diet that would lead to obesity in adulthood.     

Pituitary-thyroid axis reactivity to hyper- and hypothyroidism in the perinatal period: ontogeny of regulation of regulation and long-term programming of responses.

To evaluate the role of perinatal thyroid status in the development of pituitary-thyroid axis regulation, we administered triiodothyronine to newborn rats for the first five days postpartum to achieve hyperthyroidism, or propylthiouracil perinatally to rat dams and pups from gestational day 17 through postnatal day 5 to achieve hypothyroidism. Plasma T4, T3, and TSH levels were determined from birth through 50 days postpartum. Administration of exogenous T3 produced the expected immediate suppression of plasma T4 and TSH, with recovery toward normal values beginning within days of discontinuing the T3 regimen. Plasma T3 values were markedly elevated during the period in which T3 was being given, but subsequently became subnormal, with deficits persisting into young adulthood. With the PTU regimen, plasma T4 and T3 levels were markedly suppressed through postnatal day 10, rose over the ensuing two weeks, but nevertheless showed significant deficits into adulthood. TSH levels in the immediate neonatal period were subnormal in the PTU group, despite the marked lowering of circulating thyroid hormones; TSH then rose dramatically to levels four times normal, subsiding to control values by the end of the first month. These results suggest that a critical period exists in which regulation of pituitary-thyroid axis function is programmed. During this phase, TSH secretion can be suppressed by excess thyroid hormones, but cannot be increased by hormone deficiencies. Perhaps more importantly, perinatal thyroid status "programs" its own future reactivity, so that early hypothyroidism results in reduced T4 and T3 levels in adulthood, despite normal levels of TSH.     

Long-term consequences of maternal high-fat feeding on hypothalamic leptin sensitivity and diet-induced obesity in the offspring

Epidemiological and animal studies suggest that the alteration of hormonal and metabolic environment during fetal and neonatal development can contribute to development of metabolic syndrome in adulthood. In this paper, we investigated the impact of maternal high-fat (HF) diet on hypothalamic leptin sensitivity and body weight gain of offspring. Adult Wistar female rats received a HF or a control normal-fat (C) diet for 6 wk before gestation until the end of the suckling period. After weaning, pups received either C or HF diet during 6 wk. Body weight gain and metabolic and endocrine parameters were measured in the eight groups of rats formed according to a postweaning diet, maternal diet, and gender. To evaluate hypothalamic leptin sensitivity in each group, STAT-3 phosphorylation was measured in response to leptin or saline intraperitoneal bolus. Pups exhibited similar body weights at birth, but at weaning, those born to HF dams weighed significantly less (-12%) than those born to C dams. When given the HF diet, males and females born to HF dams exhibited smaller body weight and feed efficiency than those born to C dams, suggesting increased energy expenditure programmed by the maternal HF diet. Thus, maternal HF feeding could be protective against adverse effects of the HF diet as observed in male offspring of control dams: overweight (+17%) with hyperleptinemia and hyperinsulinemia. Furthermore, offspring of HF dams fed either C or HF diet exhibited an alteration in hypothalamic leptin-dependent STAT-3 phosphorylation. We conclude that maternal high-fat diet programs a hypothalamic leptin resistance in offspring, which, however, fails to increase the body weight gain until adulthood.     

延迟5分钟剖宫产造全脑缺氧缺血新生大鼠模型

目的建立围产期全脑缺氧缺血性损伤的新生大鼠模型。方法 SD雌性大鼠妊娠21 d时,颈椎脱臼法处死,用止血钳夹闭双侧子宫角血管5 min后,剖宫产取出新生大鼠,交由代乳鼠喂养。结果造模组雌性大鼠9只,共娩出新生大鼠91只,出生3 d内死亡7只,死亡率7.7%。新生大鼠出生第2天进行翻身实验,第14天进行悬吊实验和斜坡实验,造模组和其余各组均有显著性差异。新生大鼠出生后21 d,取脑组织切片行HE染色,显示大脑皮层典型的缺氧缺血性损伤,与正常组相比,可见神经细胞明显的病理形态学改变。结论采用延迟5min剖宫产和代乳鼠喂养的方法,操作简便,并结合行为学测试筛选行为异常者,可建立稳定可靠、可供长期实验使用的围产期全脑缺氧缺血性损伤的新生大鼠模型。     

Forecasting neonatal lamb mortality on the basis of haematological and enzymological profiles of Thalli ewes at the pre-lambing stage

The study on 86 Thalli ewes revealed that erythrocytic indices did not differ significantly and showed no relationship with parity of the dam and sex of the neonatal lamb at the pre- and post-lambing stages. However, erythrocyte sedimentation rate, total leukocytic counts (TLCs) and neutrophils were significantly higher at post-lambing, while lymphocytes were higher (P<0.05) at the pre-lambing stage. Leukocytic indices did not show any trend with the parity of the dam. In dams with live lambs, the neutrophil count was lower (P<0.05), while lymphocytes were significantly higher at the pre-lambing stage, compared to the dams whose lambs died. Aspartate aminotransferase (AST) and alkaline phosphatase (AP) showed non-significant differences at the pre- and post-lambing stages, but alanine aminotransferase (ALT) level was higher (P<0.05) at the pre-lambing stage. All the enzymes studied did not show any trend with the parity of the ewe and sex of the neonatal lamb except AP, which was significantly higher at the post-lambing stage in ewes which gave birth to male suckler lambs. The enzymes studied were significantly higher at the pre-lambing stage in dams whose lambs died as compared to the dams with live lambs. It was concluded that in Thalli ewes, neutrophils, lymphocytes, AST, AP and ALT at pre-lambing stage may be used as an indicator of possible neonatal lamb mortality.     

Adrenocorticotropic hormone and corticosterone responses to acute hypoxia in the neonatal rat: effects of body temperature maintenance

The corticosterone response to acute hypoxia in neonatal rats develops in the 1st wk of life, with a shift from ACTH independence to ACTH dependence. Acute hypoxia also leads to hypothermia, which may be protective. There is little information about the endocrine effects of body temperature maintenance during periods of neonatal hypoxia. We hypothesized that prevention of hypothermia during neonatal hypoxia would augment the adrenocortical stress response. Rat pups separated from their dams were studied at postnatal days 2 and 8 (PD2 and PD8). In one group of pups, body temperature was allowed to spontaneously decrease during a 30-min prehypoxia period. Pups were then exposed to 8% O(2) for 3 h and allowed to become spontaneously hypothermic or externally warmed (via servo-controlled heat) to maintain isothermia. In another group, external warming was used to maintain isothermia during the prehypoxia period, and then hypoxia with or without isothermia was applied. Plasma ACTH and corticosterone and mRNA expression of genes for upstream proteins involved in the steroidogenic pathway were measured. Maintenance of isothermia during the prehypoxia period increased baseline plasma ACTH at both ages. Hypothermic hypoxia caused an increase in plasma corticosterone; this response was augmented by isothermia at PD2, when the response was ACTH-independent, and at PD8, when the response was ACTH-dependent. In PD8 rats, isothermia also augmented the plasma ACTH response to hypoxia. We conclude that maintenance of isothermia augments the adrenocortical response to acute hypoxia in the neonate. Prevention of hypothermia may increase the stress response during neonatal hypoxia, becoming more pronounced with increased age.