Caroline A. Stewart

Chronic mild stress and sucrose consumption: validity as a model of depression.

Sucrose consumption and preference were examined in rats subjected to a 6-week regimen of unpredictable mild stressors, after Willner et al. (11). These subjects were compared with groups exposed to: 1. only the food deprivation element of the stress protocol; or 2. the stress protocol without the food deprivation element. A control group was not exposed to stressors. Body weight and sucrose consumption were significantly reduced in stressed and food-deprived animals compared to the other 2 groups. These variables therefore appeared dependent on food deprivation and independent of other elements of the stress protocol. Neither sucrose consumption per gram body weight nor sucrose preference differed significantly among the 4 groups. These results indicate that food deprivation is not only necessary, but sufficient, to produce sucrose consumption deficits in rats. It is, therefore, likely that reduced sucrose consumption in stressed rats results solely from diminished body weight rather than exposure to the series of stressors. We conclude that sucrose consumption is not a valid index of reward responsiveness. Other measures (such as place-preference conditioning or intracranial self-stimulation threshold) should be evaluated also with respect to body weight change when considering the validity of stressor-based models of depressive disorder.

Repeated ECS and fluoxetine administration have equivalent effects on hippocampal synaptic plasticity.

Abstract Rationale: Recent studies have implicated intracellular transduction pathways and neurotrophic factors in the action of antidepressants. Adaptation in these pathways may ultimately affect electrophysiological and morphological properties of neurones. We have previously shown that repeated electroconvulsive stimulation, a safe and effective antidepressant treatment, has profound effects on hippocampal synaptic connectivity and plasticity in the rat. Here, we investigated whether these electrophysiological properties were shared by the chemical antidepressant, fluoxetine. Objectives: To compare the electrophysiological and cognitive effects of two very different antidepressant treatments: repeated electroconvulsive stimulation (rECS); and chronic administration of the serotonin specific re-uptake inhibitor (SSRI), fluoxetine. Methods: Rats were exposed to either rECS or daily fluoxetine administration for 15 days. The animals were then anaesthetised and dentate field excitatory post-synaptic potential (fEPSP) characteristics were measured before and after the induction of long-term potentiation (LTP) by high frequency perforant path stimulation. In a separate experiment, the effects of rECS and chronic fluoxetine administration on acquisition and retention of a spatial learning task in the Morris watermaze were determined. Results: Chronic fluoxetine administration and rECS produced equivalent increases in dentate fEPSP compared to respective control groups. LTP induction was attenuated in both groups. Spatial learning was, in contrast, unaffected by fluoxetine treatment but significantly impaired following rECS. Conclusions: Given that fluoxetine and rECS share antidepressant properties, but differ in their effects on learning and memory, we propose that the common effects on dentate connectivity and synaptic plasticity described here are more likely to relate to affective rather than cognitive function. This result is consistent with other experiments showing that a reduction in dentate connectivity correlates with stress susceptibility in animals.

Seizures, memory and synaptic plasticity

Electrophysiological studies of the rodent hippocampus show that repeated seizure activity has a profound, deleterious effect on an important form of synaptic plasticity (long-term potentiation, LTP) which has been suggested to underlie memory formation. It appears that seizure activity incrementally causes an indiscriminate and widespread induction of long-term potentiation, consuming and thereby reducing overall hippocampal plasticity available for information processing. Consistent with this finding, severe deficits in a form of learning known to be mediated by hippocampal function are observed in rat subjected to repeated electroconvulsive seizures (ECS). The effect on synaptic function gradually resolves over a period of around 40 days, paralleling the time course of the transitory cognitive impairment seen following electrical seizure induction (ECT) in humans being treated for severe affective disorder. The effect is likely to be mediated by NMDA receptor activation during seizure activity, as the phenomenon can be prevented by the administration of a non-competitive NMDA receptor associated channel blocker (ketamine) immediately before seizure induction. The mechanisms described may account for the inter-ictal cognitive disturbance observed in patients suffering from poorly controlled epilepsy.

LTP-like synaptic efficacy changes following electroconvulsive stimulation

Synaptic plasticity is thought to represent a mechanism for memory formation. Memory disturbances commonly follow electroconvulsive therapy (ECT) for depression. Accordingly, we examined the development and duration of the effects of electroconvulsive stimulation (ECS) on hippocampal synaptic plasticity in rats. Daily recording of field potentials during 10 spaced ECS revealed an increase in the dentate gyrus evoked response, reaching a maximum after the fifth seizure. In a second experiment, an identical ECS series substantially reduced the degree to which electrically induced synaptic changes (long-term potentiation--LTP) could be elicited under anaesthesia for up to 40 days. These findings suggest that ECS induces LTP-like long-lasting synaptic changes which may underlie the neuropsychological sequelae of ECT treatment in humans.

Repeated electroconvulsive stimulation, but not antidepressant drugs, induces mossy fibre sprouting in the rat hippocampus.

Electroconvulsive stimulation (ECS) has been shown recently to induce axonal sprouting of granule cells in the rodent hippocampus. This may relate to the clinical efficacy of electroconvulsive therapy (ECT) in humans. We compared the effects of three different clinically effective antidepressant treatments on mossy fibre sprouting in the rat dentate gyrus using Timms histochemistry: (1) repeated spaced ECS; (2) daily administration for 4 weeks of the serotonin re-uptake inhibitor fluoxetine (1 mg/kg); and (3) daily administration for 4 weeks of the noradrenaline re-uptake inhibitor desipramine (5 mg/kg). The effect of subconvulsive electrical stimulation was also examined. Repeated ECS-induced sprouting while subconvulsive stimulation (which is ineffective clinically) did not. The two well-established chemical antidepressant therapies were also ineffective, indicating that induction of mossy fibre sprouting is not a common property of effective antidepressant agents. It is possible that the ability to induce sprouting might relate to the superior efficacy of ECT when compared to chemical antidepressants in clinical practice. Alternatively, it may contribute to the transient cognitive impairment that accompanies ECS in humans and other species.

High fat feeding promotes simultaneous decline in insulin sensitivity and cognitive performance in a delayed matching and non-matching to position task.

Obesity is the single greatest risk factor for the development of Type 2 diabetes mellitus (T2DM), with the prevalence of both dramatically increasing in recent years. These conditions are associated with medical complications such as hypertension, neuropathy and cardiovascular disease. Recent evidence also suggests a greater risk of developing dementia including Alzheimers disease. The molecular mechanisms governing these changes remain obscure, although epidemiological evidence suggests that reduced insulin sensitivity (a characteristic of T2DM) is an independent risk factor for Alzheimers disease. Here we examine the effects of diet-induced insulin resistance on cognitive ability in an animal model not predisposed to develop Alzheimers pathology. Following 12 weeks on a high fat diet (45% of calories as crude fat) male Wistar rats were overweight and insulin resistant but not frankly diabetic. High fat fed animals were consistently poorer in all aspects of an operant based delayed matching to position task, yet were not impaired in spatial working memory as judged by the open field watermaze test. The cognitive deficit of the HF fed animals was most apparent when the task was switched from matching to non-matching to position, suggestive of an inability to change contingency. Performance in this task was negatively correlated with whole body insulin sensitivity but not weight gain. In conclusion this study has shown that insulin resistant animals exhibit impairments in an operant measure of behavioural flexibility which precede the development of diabetes.

High fat feeding is associated with stimulation of the hypothalamic-pituitary-adrenal axis and reduced anxiety in the rat

Previous studies have shown that diet-induced obesity is associated with insulin resistance and impaired feedback control of the hypothalamic-pituitary-adrenal (HPA) axis. The objective of this study was to test the hypothesis that hyper-secretion of glucocorticoid, evoked by feeding rats a high fat (HF) diet for 12 weeks, also influences behavioural and neural responses to the elevated plus-maze (EPM) test of anxiety. HF-fed animals exhibited anxiolytic-like behaviour in the EPM but were also hyperactive in this test. Covariant analysis established that the anxiolytic-like behaviour was not secondary to the increase in activity. The HF diet significantly increased basal levels of plasma corticosterone. The groups exposed to the EPM also displayed increased plasma corticosterone levels compared to the relevant control group, although the increment was smaller in the HF-fed animals. Glucocorticoid receptor (GR) immunoreactivity in the cytoplasmic fraction of parietal cortex and hypothalamus and the particulate fraction of the parietal cortex were increased by HF feeding. The behavioural changes evoked by HF feeding did not correlate significantly with changes in GR immunoreactivity in each treatment group or 5-HT turnover in the brain areas studied. It is concluded that anxiolytic properties evoked in the EPM by high fat feeding are unlikely to be related to the changes in HPA function seen in animals fed this diet.

Repeated electroconvulsive stimulation impairs synaptic plasticity in the dentate gyrus in vivo but has no effect in CA1 in vitro.

Repeated electroconvulsive stimulation (ECS) spaced at 48 h intervals significantly increased the synaptic response in the dentate gyrus in vivo, as measured by input/output curves, and reduced the degree of long-term potentiation (LTP) obtained following high frequency stimulation. An identical course of ECS had no effect on synaptic responses recorded in the stratum radiatum of CA1 in vitro and did not impair high frequency-induced LTP. These results suggest that either ECS has a selective effect on the sub-fields of the hippocampus or that in vitro recording techniques are unsuitable for detecting the increase in synaptic efficacy produced by the treatments.

Enhanced evoked responses after early adversity and repeated platform exposure: the neurobiology of vulnerability?

BACKGROUND There is a long-standing clinical awareness of the significance of adverse early experiences and subsequent stress in the evolution of psychiatric disorder. METHODS We investigated the impact of a single episode of preweaning maternal separation on in vivo electrophysiologic responses in the hippocampus of the mature rat after repeated exposure to an open elevated platform. RESULTS Only rats that had experienced both maternal separation followed by stressful platform exposure when mature had significantly increased granule cell response to perforant path stimulation, compared with control rats. Rats exposed to either maternal separation or the elevated platform in adulthood alone did not differ significantly from control rats. CONCLUSIONS Adverse early experience seems to induce functional changes in the hippocampus that remain latent until activated by stress in adulthood. Such electrophysiologic changes might represent a neural substrate for vulnerability to stress-associated psychopathology.

Ketamine as the anaesthetic for electroconvulsive therapy: the KANECT randomised controlled trial.

Background Ketamine has recently become an agent of interest as an acute treatment for severe depression and as the anaesthetic for electroconvulsive therapy (ECT). Subanaesthetic doses result in an acute reduction in depression severity while evidence is equivocal for this antidepressant effect with anaesthetic or adjuvant doses. Recent systematic reviews call for high-quality evidence from further randomised controlled trials (RCTs). Aims To establish if ketamine as the anaesthetic for ECT results in fewer ECT treatments, improvements in depression severity ratings and less memory impairment than the standard anaesthetic. Method Double-blind, parallel-design, RCT of intravenous ketamine (up to 2 mg/kg) with an active comparator, intravenous propofol (up to 2.5 mg/kg), as the anaesthetic for ECT in patients receiving ECT for major depression on an informal basis. (Trial registration: European Clinical Trials Database (EudraCT): 2011-000396-14 and clinicalTrials.gov: NCT01306760.) Results No significant differences were found on any outcome measure during, at the end of or 1 month following the ECT course. Conclusions Ketamine as an anaesthetic does not enhance the efficacy of ECT.