Sedentary behavior during postnatal life is determined by the prenatal environment and exacerbated by postnatal hypercaloric nutrition
The discovery of a link between in utero experience and later metabolic and cardiovascular disease is one of the most important advances in epidemiology research of recent years. There is now increasing evidence that alterations in the fetal environment have long-term consequences on metabolic and endocrine pathophysiology in adult life. This process has been termed "fetal programming," and we have shown that undernutrition of the mother during gestation leads to obesity, hypertension, hyperphagia, hyperinsulinemia, and hyperleptinemia in offspring. Using this model of maternal undernutrition throughout pregnancy, we investigated whether prenatal influences may lead to alterations in postnatal locomotor behavior, independent of postnatal nutrition. Virgin Wistar rats were time mated and randomly assigned to receive food either ad libitum (ad libitum group) or at 30% of ad libitum intake (undernourished group). Offspring from UN mothers were significantly smaller at birth than AD offspring. At weaning, offspring were assigned to one of two diets [control or hypercaloric (30% fat)]. At ages of 35 days, 145 days, and 420 days, voluntary locomotor activity was assessed. At all ages studied, offspring from undernourished mothers were significantly less active than offspring born of normal birth weight for all parameters measured, independent of postnatal nutrition. Sedentary behavior in programmed offspring was exacerbated by postnatal hypercaloric nutrition. This work is the first to clearly separate prenatal from postnatal effects and shows that lifestyle choices themselves may have a prenatal origin. We have shown that predispositions to obesity, altered eating behavior, and sedentary activity are linked and occur independently of postnatal hypercaloric nutrition. Moreover, the prenatal influence may be permanent as offspring of undernourished mothers were still significantly less active compared with normal offspring at an advanced adult age, even in the presence of a healthy diet throughout postnatal life.
To determine the effects of chronic maternal undernutrition on postnatal somatic growth and blood pressure, pregnant dams were randomly assigned to one of two dietary treatment groups. A control group was fed ad libitum throughout pregnancy and a restricted group was fed 30% of ad libitum intake. From birth, feeding was ad libitum in both groups, and litter size was adjusted to eight pups per litter. Litter size was not significantly altered by the reduced maternal intake. Offspring of the restricted fed group were significantly smaller than offspring from the ad libitum fed group from birth until 12 wk of age, but by 30 wk had similar body weights. Blood pressure was measured by tail cuff plethysmography. Offspring from the restricted fed group were found to have significantly (p < 0.05) elevated systolic blood pressure (5-8 mm Hg) at 30, 48, and 56 wk of age. These data demonstrate that nutritional deprivation in the pregnant rat leads to changes in postnatal allometric growth patterns, to delayed catch-up growth, and to elevated blood pressure in adulthood. The data are consistent with the hypothesis that poor maternal nutrition in pregnancy may irreversibly alter programming of the development of cardiovascular homeostasis.
Objective We previously showed that maternal under-nutrition during gestation is associated with increased metabolic and cardiovascular disease in the offspring. Also, we found increased neonatal adiposity among the grandchildren of women who had been undernourished during pregnancy. In the present study we investigated whether these transgenerational effects have led to altered body composition and poorer health in adulthood in the grandchildren.Design Historical cohort study.Setting Web-based questionnaire.Population The adult offspring (F2) of a cohort of men and women (F1) born around the time of the 1944-45 Dutch famine.Methods We approached the F2 adults through their parents. Participating F2 adults (n = 360, mean age 37 years) completed an online questionnaire.Main outcome measures Weight, body mass index (BMI), and health in F2 adults, according to F1 prenatal famine exposure.Results Adult offspring (F2) of prenatally exposed F1 fathers had higher weights and BMIs than offspring of prenatally unexposed F1 fathers (+4.9 kg, P = 0.03; +1.6 kg/m², P = 0.006). No such effect was found for the F2 offspring of prenatally exposed F1 mothers. We observed no differences in adult health between the F2 generation groups.Conclusions Offspring of prenatally undernourished fathers, but not mothers, were heavier and more obese than offspring of fathers and mothers who had not been undernourished prenatally. We found no evidence of transgenerational effects of grandmaternal under-nutrition during gestation on the health of this relatively young group, but the increased adiposity in the offspring of prenatally undernourished fathers may lead to increased chronic disease rates in the future.
Exposure to maternal anxiety predicts offspring brain development. However, because children's brains are commonly assessed years after birth, the timing of such maternal influences in humans is unclear. This study aimed to examine the consequences of antenatal and postnatal exposure to maternal anxiety upon early infant development of the hippocampus, a key structure for stress regulation. A total of 175 neonates underwent magnetic resonance imaging (MRI) at birth and among them 35 had repeated scans at 6 months of age. Maternal anxiety was assessed using the State-Trait Anxiety Inventory (STAI) at week 26 of pregnancy and 3 months after delivery. Regression analyses showed that antenatal maternal anxiety did not influence bilateral hippocampal volume at birth. However, children of mothers reporting increased anxiety during pregnancy showed slower growth of both the left and right hippocampus over the first 6 months of life. This effect of antenatal maternal anxiety upon right hippocampal growth became statistically stronger when controlling for postnatal maternal anxiety. Furthermore, a strong positive association between postnatal maternal anxiety and right hippocampal growth was detected, whereas a strong negative association between postnatal maternal anxiety and the left hippocampal volume at 6 months of life was found. Hence, the postnatal growth of bilateral hippocampi shows distinct responses to postnatal maternal anxiety. The size of the left hippocampus during early development is likely to reflect the influence of the exposure to perinatal maternal anxiety, whereas right hippocampal growth is constrained by antenatal maternal anxiety, but enhanced in response to increased postnatal maternal anxiety.
While it is well established that severe maternal undernutrition during pregnancy causes intrauterine growth retardation (IUGR), there has been relatively little study of the endocrine consequences and postnatal development of growth-retarded offspring. We have developed a model in the rat of IUGR by nutritional restriction of the mother throughout gestation and have examined the effects of fetal growth retardation on the endocrine and metabolic status during the perinatal period. Timed matings were performed in Wistar rats and dams were randomly assigned to one of two dietary treatment groups. Food was available ad libitum throughout pregnancy to a control group (at libitum group) and a restricted group was fed 30% of the ad libitum intake (restricted fed group). After birth, food was available ad libitum in both groups and litter size was adjusted to eight pups per litter. Dams lost a significant amount of body weight throughout gestation due to undernutrition but were able to catch up to the ad libitum group by day 10 postnatally. Litter size was not affected by maternal undernutrition. Maternal plasma IGF-I levels were significantly reduced in the restricted fed group throughout gestation (P < 0.001) but were not different postnatally. Maternal plasma IGF-binding proteins (IGFBPs)-1, -2 and -3 were significantly (P < 0.05) increased in the restricted fed dams. The mean body weights of fetuses in late gestation from the restricted fed dams were significantly lower (P < 0.001) in comparison with fetuses from control dams. Placental weights were also significantly (P < 0.01) reduced in the restricted fed compared with control dams. Body weights were significantly lower in the offspring of restricted fed dams than control dams from birth (P < 0.01) until 90 days of age (P < 0.05). Nose-rump length was reduced in the fetuses of the restricted fed group at day 22 of gestation (P < 0.001) until weaning (P < 0.05). Plasma IGF-I levels were significantly reduced in the pups of restricted fed dams from day 22 of gestation (P < 0.01) until postnatal day 9 (P < 0.05) but were not significantly different at the later time-points. Plasma insulin levels were significantly reduced in the pups of restricted fed dams at birth (P < 0.05) but not at later time-points. Plasma IGFBP-1 and -2 levels were significantly increased in the offspring from restricted fed dams at day 22 of gestation, at birth and at day 9 postnatally (P < 0.05). 125I-Bovine GH specific binding to liver membranes was significantly lower (P < 0.05) in offspring from restricted fed dams at 21 days of age but not at 90 days of age. These data demonstrate that nutritional deprivation in the pregnant rat leads to IUGR and postnatal growth failure and to changes in allometric growth patterns and endocrine parameters of the somatotrophic axis postnatally.
Maternal depressive symptoms influence neurodevelopment in the offspring. Such effects may appear to be gender-dependent. The present study examined contributions of prenatal and postnatal maternal depressive symptoms to the volume and microstructure of the amygdala in 4.5-year-old boys and girls. Prenatal maternal depressive symptoms were measured using the Edinburgh Postnatal Depression Scale (EPDS) at 26 weeks of gestation. Postnatal maternal depression was assessed at 3 months using the EPDS and at 1, 2, 3 and 4.5 years using the Beck's Depression Inventory-II. Structural magnetic resonance imaging and diffusion tensor imaging were performed with 4.5-year-old children to extract the volume and fractional anisotropy (FA) values of the amygdala. Our results showed that greater prenatal maternal depressive symptoms were associated with larger right amygdala volume in girls, but not in boys. Increased postnatal maternal depressive symptoms were associated with higher right amygdala FA in the overall sample and girls, but not in boys. These results support the role of variation in right amygdala structure in transmission of maternal depression to the offspring, particularly to girls. The differential effects of prenatal and postnatal maternal depressive symptoms on the volume and FA of the right amygdala suggest the importance of the timing of exposure to maternal depressive symptoms in brain development of girls. This further underscores the need for intervention targeting both prenatal and postnatal maternal depression to girls in preventing adverse child outcomes.
Objective-To test the hypothesis that reduced fetal growth leads to altered plasma insulin-like growth factor-I (IGF-1) concentrations in childhood. Design-A follow up study of 4 year old children whose birth weights were recorded, and of 7 year old children whose weight, length, head circumference, and placental weight were measured at birth. Setting -Pune, India, and Salisbury, England.
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