Postpartum State, but Not Maternal Caregiving or Level of Anxiety, Increases Medial Prefrontal Cortex GAD65 and vGAT in Female Rats.

Upregulation of the inhibitory neurotransmitter, GABA, is involved in many of the behavioral differences between postpartum and nulliparous female rodents. This is evidenced by studies showing that pharmacological blockade of GABAergic activity impairs maternal caregiving and postpartum affective behaviors. However, the influence of motherhood on the capacity for GABA synthesis or release in the medial prefrontal cortex (mPFC; brain region involved in many social and affective behaviors) is not well-understood. Western blotting was used to compare postpartum and nulliparous rats in protein levels of the 65-kD isoform of glutamic acid decarboxylase (GAD65; synthesizes most GABA released from terminals) and vesicular GABA transporter (vGAT; accumulates GABA into synaptic vesicles for release) in the mPFC. We found that postpartum mothers had higher GAD65 and vGAT compared to virgins, but such differences were not found between maternally sensitized and non-sensitized virgins, indicating that reproduction rather than just the display of maternal caregiving is required. To test whether GAD65 and vGAT levels in the mPFC were more specifically related to anxiety-related behavior within postpartum mothers, we selected 8 low-anxiety and 8 high-anxiety dams based on their time spent in the open arms of an elevated plus maze on postpartum day 7. There were no significant differences between the anxiety groups in either GAD65 or vGAT levels. These data further indicate that frontal cortical GABA is affected by female reproduction and more likely contributes to differences in the display of socioemotional behaviors across, but not within, female reproductive state.

Cellular metabolic rates and oxidative stress profiles in primary fibroblast cells isolated from virgin females, reproductively experienced females, and male Sprague-Dawley rats.

Life-history theory posits that differences in reproductive strategies may dictate lifespans of organisms. Animals that have higher investments in reproduction in terms of litter size and frequency of litters tend to have shorter lifespans. The accumulation of oxidative stress damage has been proposed to be a cost of reproduction and a mediator of life-histories among animals, however, the implications of reproduction on oxidative stress still remain unclear. We tested physiological consequences of reproduction on metabolism and oxidative stress of Sprague-Dawley Rats (Rattus norvegicus) with various reproductive experiences at the cell level. We grew primary dermal fibroblasts from Sprague-Dawley rats which have the potential of having large litters frequently. Cells were isolated from virgin females, primiparous females, multiparous females, and reproductively-experienced males. We measured basal oxygen consumption (OCR), proton leak, ATP production, spare respiratory capacity, coupling efficiency and glycolysis using a Seahorse XF96 oxygen flux analyzer. Additionally, we measured rates of RS (reactive species) production, reduced glutathione (GSH), mitochondrial content, and lipid peroxidation (LPO) damage to quantify oxidative stress. There were no significant differences in any OCR or glycolytic parameters across any of our groups. However, reproductively-experienced females had significantly lower rates of LPO damage as compared with virgin females and males, as well as nonsignificant decreases in GSH concentration. Decreases in LPO damage and GSH indicate that reproductively-experienced females potentially use their endogenous antioxidant system to combat delirious effects of increased metabolism during reproduction. Our results suggest that reproduction may, in fact, have a protective effect in females.

Effects of short-term clomipramine on anxiety-like behavior, cellular metabolism, and oxidative stress in primary fibroblast cells of male and female rats.

Anxiety is the most prevalent mental disorder among adults in the United States and females tend to have significantly higher rates of anxiety compared with men. Common treatments for anxiety include usage of selective serotonin reuptake inhibitors (SSRIs) and tricyclic antidepressants, however, sex differences in the efficacy of these drugs exist. In this study, we were interested in determining if acutely manipulating serotonin mechanisms at the whole-animal level affects cellular metabolism and oxidative stress in primary fibroblast cells from clomipramine-treated Sprague-Dawley rats. Our groups included a female and male control group that was injected with a saline solution, a female and male group that was injected with a low dosage of clomipramine, and a female and male group of rats that were injected with a high dosage of clomipramine. We then compared cellular oxygen consumption rates, rates of glycolysis and oxidative stress parameters in primary fibroblasts grown from each of the groups described above. We found that clomipramine-treated rats had significantly lower rates of glycolysis and glycolytic capacity, regardless of sex. Coupling efficiency was significantly higher in male rats compared with female rats across treatment groups. Our data suggest that in female rats reduced glutathione (GSH) is nonsignificantly reduced, yet lipid peroxidation (LPO) damage still accumulates, meaning that enzymatic antioxidants may be acting to reduce any continual increases in LPO damage. This is a metabolically costly process that may be happening because of our drug treatments. Our results provide further evidence of sex differences in the behavioral and metabolic responses to short-term clomipramine treatment. Continued investigation into these sex differences may reveal their potential for improving our understanding of how different therapeutic interventions may be better suited for treating males and females.

Associations among within-litter differences in early mothering received and later emotional behaviors, mothering, and cortical tryptophan hydroxylase-2 expression in female laboratory rats.

This article is part of a Special Issue "Parental Care". The effects of differential maternal care received on offspring phenotype in rodents has been extensively studied between litters, but the consequences of differential mothering within litters on offspring neurobehavioral development have been rarely examined. We here investigated how variability in maternal care received among female rat siblings (measured four times daily on postnatal days 4, 6, 8, and 10) relates to the siblings' later emotional and maternal behaviors. As previously reported, we found that some female pups received up to three times more maternal licking bouts compared to their sisters; this difference was positively correlated with the pups' body weights. The number of maternal licking bouts that females received was negatively correlated with their later neophobic behaviors in an open field during periadolescence, but positively correlated with their anxiety-related behavior in an elevated plus maze during adulthood. Licking received was also positively correlated with females' later likelihood to retrieve pups in a maternal sensitization paradigm. In addition, females' neophobia during adolescence and anxiety-related behavior during adulthood predicted some aspects of both postpartum and sensitized maternal responsiveness. Medial prefrontal cortex expression of tryptophan hydroxylase-2 (TPH2; enzyme necessary for serotonin synthesis) was negatively associated with early maternal licking received. Interestingly, cortical TPH2 was positively associated with the maternal responsiveness of sensitized virgins but negatively associated with it in postpartum females. These results indicate that within-litter differences in maternal care received is an often neglected, but important, contributor to individual differences in offspring socioemotional behaviors as well as to the cortical serotonin neurochemistry that may influence these behaviors.

Within-litter variance in rat maternal behaviour.

As a first step in determining the influence of maternal behaviour on sibling behavioural variance, we tested whether rat mothers differentially interact with neonates within the same litter. We also tested whether fading of an ink-mark on individual pups could provide an index of within-litter variance in maternal licking in laboratory rats. In Study 1, during the first postnatal week we distinguished individual Sprague-Dawley rat pups across 4 litters by placing an ink-mark on the skin and quantified variance in maternal licking frequency toward each pup and compared fading of individual pup marks to the frequency of maternal licks received and to four pup characteristics that could influence mark-fading. In Study 2, neonate mark-fading (a proxy for maternal licking) was compared to adolescent and adult offspring behaviour across 8 litters. Results indicated that: (1) there are substantial and consistent differences in how much rat mothers lick same-sex siblings within a litter, (2) differential licking rates can be documented with a non-observational method (ink-mark-fading), and (3) within-litter variance in maternal behaviour may relate to sibling behavioural variance. The findings indicate a viable research model for future experimental studies on causes and consequences of differential maternal investment within families.

Stable behavioral inhibition and glucocorticoid production as predictors of longevity.

Several personality/temperament traits have been linked to health outcomes in humans and animals but underlying physiological mechanisms for these differential outcomes are minimally understood. In this paper, we compared the strength of a behavioral trait (behavioral inhibition) and an associated physiological trait (glucocorticoid production) in predicting life span. In addition, we examined the relative stability of both the behavioral and physiological traits within individuals over a significant portion of adulthood, and tested the hypothesis that a stable behavioral trait is linked with a stable physiological bias. In a sample of 60 Sprague-Dawley male rats, we found that stable inhibition/neophobia was a stronger predictor of life span than stably elevated glucocorticoid production. In addition, these predictors appeared to have an additive influence on life span in that males with both risk factors (stable inhibition and consistently high glucocorticoid production) had the shortest life spans of all, suggesting both traits are important predictors of life span. Across a 4-month period in young adulthood, inhibition and glucocorticoid reactivity were relatively stable traits, however these two traits were not highly correlated with one another. Interestingly, baseline glucocorticoid production was a better predictor of life span than reactivity levels. The results indicate that glucocorticoid production in young adulthood is an important predictor of life span, although not as strong a predictor as inhibition, and that other physiological processes may further explain the shortened life span in behaviorally-inhibited individuals.

Polymorphisms in the homeobox gene OTX2 may be a risk factor for bipolar disorder.

We investigated the possible involvement of OTX2, a homeobox gene crucial for forebrain development, in the pathogenesis of schizophrenia and bipolar disorder. The disruption of this gene results in cortical malformations and causes serotonergic and dopaminergic cells in the midbrain to be expressed in aberrant locations. Resequencing of DNA from OTX2 exons and surrounding introns from 60 individuals (15 schizophrenia, 15 bipolar disorder, 15 depression, and 15 control) revealed two intronic polymorphisms, rs2277499 (C/T) and rs28757218 (G/T), but no other variations. The minor allele of rs2277499 (T) did not associate with clinical diagnosis. However, using a Taqman genotyping assay, we found the rs28757218 minor allele (T) in 30 out of 720 (4.2%) individuals with bipolar disorder but only in 6 out of 526 (1.1%) control individuals (odds ratio 3.5, 95% confidence interval 1.4-10.4, P = 0.003). On the other hand, the rs28757218 minor allele was only found in 6 out of 458 (1.3%) individuals with schizophrenia. All individuals with the rs28757218 polymorphism were heterozygous for the allele. Based on this positive case-control association finding, we conclude that variations in OTX2 might confer risk for the development of bipolar disorder.