Maternal protein malnutrition throughout pregnancy and lactation compromises brain development in late gestation and after birth, affecting structural, biochemical, and pathway dynamics with lasting consequences for motor and cognitive function. However, the importance of nutrition during the preimplantation period for brain development is unknown. We have previously shown that maternal low-protein diet (LPD) confined to the preimplantation period (Emb-LPD) in mice, with normal nutrition thereafter, is sufficient to induce cardiometabolic and locomotory behavioral abnormalities in adult offspring. Here, using a range of in vivo and in vitro techniques, we report that Emb-LPD and sustained LPD reduce neural stem cell (NSC) and progenitor cell numbers at E12.5, E14.5, and E17.5 through suppressed proliferation rates in both ganglionic eminences and cortex of the fetal brain. Moreover, Emb-LPD causes remaining NSCs to up-regulate the neuronal differentiation rate beyond control levels, whereas in LPD, apoptosis increases to possibly temper neuron formation. Furthermore, Emb-LPD adult offspring maintain the increase in neuron proportion in the cortex, display increased cortex thickness, and exhibit short-term memory deficit analyzed by the novel-object recognition assay. Last, we identify altered expression of fragile X family genes as a potential molecular mechanism for adverse programming of brain development. Collectively, these data demonstrate that poor maternal nutrition from conception is sufficient to cause abnormal brain development and adult memory loss.
Aim The current study investigated the impact of maternal obesity on placental phenotype in relation to fetal growth and sex. Methods Female C57BL6/J mice were fed either a diet high in fat and sugar or a standard chow diet, for 6 weeks prior to, and during, pregnancy. At day 19 of gestation, placental morphology and mitochondrial respiration and dynamics were assessed using high‐resolution respirometry, stereology, and molecular analyses. Results Diet‐induced maternal obesity increased the rate of small for gestational age fetuses in both sexes, and increased blood glucose concentrations in offspring. Placental weight, surface area, and maternal blood spaces were decreased in both sexes, with reductions in placental trophoblast volume, oxygen diffusing capacity, and an increased barrier to transfer in males only. Despite these morphological changes, placental mitochondrial respiration was unaffected by maternal obesity, although the influence of fetal sex on placental respiratory capacity varied between dietary groups. Moreover, in males, but not females, maternal obesity increased mitochondrial complexes (II and ATP synthase) and fission protein DRP1 abundance. It also reduced phosphorylated AMPK and capacity for lipid synthesis, while increasing indices of oxidative stress, specifically in males. In females only, placental mitochondrial biogenesis and capacity for lipid synthesis, were both enhanced. The abundance of uncoupling protein‐2 was decreased by maternal obesity in both fetal sexes. Conclusion Maternal obesity exerts sex‐dependent changes in placental phenotype in association with alterations in fetal growth and substrate supply. These findings may inform the design of personalized lifestyle interventions or therapies for obese pregnant women.
Obesity is rising globally and is associated with neurodevelopmental and psychiatric disorders among children, adolescents and young adults. Whether obesity is the cause or the consequence of these disorders remains unclear. To examine the behavioural effects of obesity systematically, locomotion, anxiety and social behaviour were assessed in male and female C57Bl/6J mice using the open field, elevated plus maze and social preference task. First, the effects of age and sex were examined in control mice, before investigating postweaning consumption of a high fat-high sugar diet commonly consumed in human populations with high rates of obesity. In the open field and elevated plus maze, locomotor activity and anxiety-related behaviours reduced with aging in both sexes, but with different sex-specific profiles. The high fat-high sugar diet reduced food and calorie intake and increased body mass and fat deposition in both sexes. In the open field, both male and female mice on the obesogenic diet showed reduced locomotion; whereas, in the elevated plus maze, only females fed with the obesogenic diet displayed reduced anxietyrelated behaviours. Both male and female mice on the obesogenic diet had a significantly higher social preference index than the control group. In conclusion, the findings demonstrate that the behavioural effects of age and dietinduced obesity all depend on the sex of the mouse. This emphasises the importance of considering the age of the animal and including both sexes when assessing behavioural phenotypes arising from dietary manipulations.K E Y W O R D S age differences, elevated plus maze, high fat-high sugar diet, open field, sex differences, social preference | INTRODUCTIONThe incidence of obesity defined by the World Health Organisation as a body mass index (BMI) of greater than Abbreviations: Elevated plus maze, (EPM); High fat-high sugar, (HFHS); Open field, (OF); Social preference, (SP).
In healthy Miniature Schnauzers, FMD was greater and more repeatable in brachial arteries than in femoral arteries. Reactive hyperemia was inconsistently induced in femoral arteries following 3- or 5-minute cuff inflation times. Brachial, but not femoral, artery FMD measurement is a potentially useful research technique for measurement of endothelial function in dogs.
Obesity is rising globally and is associated with neurodevelopmental and psychiatric disorders among children, adolescents, and young adults. Whether obesity is the cause or the consequence of these disorders remains unclear. To examine the behavioural effects of obesity systematically, locomotion, anxiety, and social behaviour were assessed in male and female C57Bl/6J mice using the open field (OF), elevated plus maze (EPM) and social preference (SP) task. First, the effects of age, sex and prior exposure to the tasks were examined in control mice, before investigating post-weaning consumption of a high fat, high sugar (HFHS) diet commonly consumed in human populations with high rates of obesity. In the OF and EPM, locomotor activity and anxiety-related behaviours were reduced by age in both sexes, but with different sex-specific profiles. Prior exposure to the tasks reduced locomotion in the OF in a sex-specific manner but had little effect on behaviour in the EPM in either sex. The HFHS diet reduced food and calorie intake and increased body mass and fat deposition in both sexes. In the OF, both male and female HFHS mice showed reduced locomotion, whereas, in the EPM, only HFHS female mice displayed reduced anxiety-related behaviours. Both male and female HFHS mice had a significantly higher SP index than controls. Collectively, the findings demonstrate that the behavioural effects of age, prior exposure and of diet-induced obesity all depend on the sex of the mouse. This emphasises the importance of including both sexes when assessing behavioural phenotypes arising from dietary manipulations.
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