Aberrant serotonin (5-HT) signalling and exposure to early life stress have both been suggested to play a role in anxiety- and impulsivity-related behaviours. However, whether congenital 5-HT deficiency × early life stress interactions influence the development of anxiety- or impulsivity-like behaviour has not been established. Here, we examined the effects of early life maternal separation (MS) stress on anxiety-like behaviour and behavioural disinhibition, a type of impulsivity-like behaviour, in wild-type (WT) and tryptophan hydroxylase 2 (Tph2) knock-in (Tph2KI) mice, which exhibit ~60-80% reductions in the levels of brain 5-HT due to a R439H mutation in Tph2. We also investigated the effects of 5-HT deficiency and early life stress on adult hippocampal neurogenesis, plasma corticosterone levels and several signal transduction pathways in the amygdala. We demonstrate that MS slightly increases anxiety-like behaviour in WT mice and induces behavioural disinhibition in Tph2KI animals. We also demonstrate that MS leads to a slight decrease in cell proliferation within the hippocampus and potentiates corticosterone responses to acute stress, but these effects are not affected by brain 5-HT deficiency. However, we show that 5-HT deficiency leads to significant alterations in SGK-1 and GSK3β signalling and NMDA receptor expression in the amygdala in response to MS. Together, these findings support a potential role for 5-HT-dependent signalling in the amygdala in regulating the long-term effects of early life stress on anxiety-like behaviour and behavioural disinhibition.
The copulatory behavior of male rats was described in terms of mount bouts, clusters of closely spaced attempts at mounting females, separated by periods free of mounting attempts. Measures based on mount bouts make possible meaningful temporal analyses of copulatory tests in which penile insertions (intromissions) do not occur during every mount bout. These measures were used to analyze the role of intromissions in governing the temporal patterning of the male's copulatory attempts. Prevention of intromission did not change the intervals between mount bouts significantly. Termination of mount bouts does not depend on intromission, and mounts without intromission strongly influence the timing of copulatory attempts. The temporal organization of mount bouts suggested that they might be basic units in the male's sexual behavior. The sexual behavior of rats and many other rodents is characterized by the male's repeated approaches to and mounts of the female. Most of the mounts lead to penile insertion (intromission), and after several intromissions ejaculation occurs. The approaches of male to female during such an ejaculatory series tend to recur at fairly regular intervals. However, little attention has been given to analysis of the factors underlying this aspect of the temporal patterning of the male's behavior. Such an analysis is essential to the formulation of a comprehensive theory of sexual behavior. Part of the reason for our relative lack of knowledge of the basis for the temporal organization is that the analysis of the timing of sexual behavior of rats has emphasized intromissions. As indicated before, mounts
A member of the TNF receptor family, the p75 neurotrophin receptor (p75(NTR)) has been previously shown to play a role in the regulation of fibrin deposition in the lung. However, the role of p75(NTR) in the regulation of pulmonary vascular tone in the lung is unknown. In the present study, we evaluated the expression of p75(NTR) in mouse pulmonary arteries and the putative role of p75(NTR) in modulating pulmonary vascular tone and agonist responsiveness using wild-type (WT) and p75(NTR) knockout (p75(-/-)) mice. Our data indicated that p75(NTR) is expressed in both smooth muscle and endothelial cells within the pulmonary vascular wall in WT mice. Pulmonary artery rings from p75(-/-) mice exhibited significantly elevated active tension due to endothelin-1-mediated Ca(2+) influx. Furthermore, the contraction due to capacitative Ca(2+) entry (CCE) in response to phenylephrine-mediated active depletion of intracellular Ca(2+) stores was significantly enhanced compared with WT rings. The contraction due to CCE induced by passive store depletion, however, was comparable between WT and p75(-/-) rings. Active tension induced by serotonin, U-46619 (a thromboxane A(2) analog), thrombin, 4-aminopyridine (a K(+) channel blocker), and high extracellular K(+) in p75(-/-) rings was similar to that in WT rings. Deletion of p75(NTR) did not alter pulmonary vasodilation to sodium nitroprusside (a nitric oxide donor). These data suggest that intact p75(NTR) signaling may play a role in modulating pulmonary vasoconstriction induced by endothelin-1 and by active store depletion.
N-methyl-D-aspartic acid (NMDA) or radiofrequency (RF) lesions were made in the paraventricular nucleus of the hypothalamus (PVH) of male rats. The rats were tested for copulation, noncontact erection (NCE) evoked by remote cues from estrous females, and (after RF lesions) reflexive erection. NMDA, which destroyed parvocellular but spared magnocellular neurons, caused no deficits in copulation but caused longer NCE latencies and fewer NCEs. Rats with RF lesions had parvo- and magnocellular neuron damage; these males copulated to ejaculation, but they had lower intromission ratios and longer ejaculatory latencies. RF-lesioned rats also had longer NCE latencies, and a smaller proportion of males displayed reflexive erection. Results indicate that the PVH participates in mediating erectile function in copula and ex copula, and that the parvo- and magnocellular PVH neurons may have different roles in mediating erection.
Obesity is associated with an increased risk of depression and anxiety disorders, but the nature of the relationship(s) between obesity and mental illness remain highly controversial. Some argue that depression and/or anxiety lead to increased consumption of 'comfort foods,' the intake of which reduces negative affect and promotes obesity. In contrast, others have theorized that negative affect results from chronic excessive consumption of highly palatable foods. The brain serotonin (5-HT) system has long been implicated in both the development and treatment of mental illness. Preclinical studies have shown that low brain 5-HT exacerbates depression- and anxiety-like behavior induced by stress and blocks reductions in depression-like behavior induced by antidepressants, but the effects of brain 5-HT deficiency on responses to high fat diet (HFD) have not been explored. The current work used genetically modified mice to evaluate the effects of low 5-HT on behavioral and molecular alterations induced by chronic exposure to HFD. Our results reveal that HFD decreases depression-like behavior and increases some anxiety-like behaviors in wild-type (WT) mice. However, genetic brain 5-HT deficiency blocks HFD-induced reductions in forced swim immobility and prevents HFD-induced increases in hippocampal GSK3β phosphorylation despite having no significant effects on HFD-induced changes in body weight or anxiety-like behavior. Together, our results suggest that brain 5-HT deficiency significantly impacts a subset of behavioral and molecular responses to HFD, a finding that could help explain the complex relationships between obesity and mental illness.
