Showing papers by "Trevor W. Robbins published in 1999"

Choosing between Small, Likely Rewards and Large, Unlikely Rewards Activates Inferior and Orbital Prefrontal Cortex

Abstract: Patients sustaining lesions of the orbital prefrontal cortex (PFC) exhibit marked impairments in the performance of laboratory-based gambling, or risk-taking, tasks, suggesting that this part of the human PFC contributes to decision-making cognition. However, to date, little is known about the particular regions of the orbital cortex that participate in this function. In the present study, eight healthy volunteers were scanned, using H2150 PET technology, while performing a novel computerized risk-taking task. The task involved predicting which of two mutually exclusive outcomes would occur, but critically, the larger reward (and penalty) was associated with choice of the least likely outcome, whereas the smallest reward (and penalty) was associated with choice of the most likely outcome. Resolving these “conflicting” decisions was associated with three distinct foci of regional cerebral blood flow increase within the right inferior and orbital PFC: laterally, in the anterior part of the middle frontal gyrus [Brodmann area 10 (BA 10)], medially, in the orbital gyrus (BA 11), and posteriorly, in the anterior portion of the inferior frontal gyrus (BA 47). By contrast, increases in the degree of conflict inherent in these decisions was associated with only limited changes in activity within orbital PFC and the anterior cingulate cortex. These results suggest that decision making recruits neural activity from multiple regions of the inferior PFC that receive information from a diverse set of cortical and limbic inputs, and that the contribution of the orbitofrontal regions may involve processing changes in reward-related information.

Associative processes in addiction and reward. The role of amygdala-ventral striatal subsystems

Abstract: Only recently have the functional implications of the organization of the ventral striatum, amygdala, and related limbic-cortical structures, and their neuroanatomical interactions begun to be clarified. Processes of activation and reward have long been associated with the NAcc and its dopamine innervation, but the precise relationships between these constructs have remained elusive. We have sought to enrich our understanding of the special role of the ventral striatum in coordinating the contribution of different functional subsystems to confer flexibility, as well as coherence and vigor, to goal-directed behavior, through different forms of associative learning. Such appetitive behavior comprises many subcomponents, some of which we have isolated in these experiments to reveal that, not surprisingly, the mechanisms by which an animal sequences responding to reach a goal are complex. The data reveal how the different components, pavlovian approach (or sign-tracking), conditioned reinforcement (whereby pavlovian stimuli control goal-directed action), and also more general response-invigorating processes (often called "activation," "stress," or "drive") may be integrated within the ventral striatum through convergent interactions of the amygdala, other limbic cortical structures, and the mesolimbic dopamine system to produce coherent behavior. The position is probably not far different when considering aversively motivated behavior. Although it may be necessary to employ simplified, even abstract, paradigms for isolating these mechanisms, their concerted action can readily be appreciated in an adaptive, functional setting, such as the responding by rats for intravenous cocaine under a second-order schedule of reinforcement. Here, the interactions of primary reinforcement, psychomotor activation, pavlovian conditioning, and the control that drug cues exert over the integrated drug-seeking response can be seen to operate both serially and concurrently. The power of our analytic techniques for understanding complex motivated behavior has been evident for some time. However, the crucial point is that we are now able to map these components with increasing certainty onto discrete amygdaloid, and other limbic cortical-ventral striatal subsystems. The neural dissection of these mechanisms also serves an important theoretical purpose in helping to validate the various hypothetical constructs and further developing theory. Major challenges remain, not the least of which is an understanding of the operation of the ventral striatum together with its dopaminergic innervation and its interactions with the basolateral amygdala, hippocampal formation, and prefrontal cortex at a more mechanistic, neuronal level.

Emotional bias and inhibitory control processes in mania and depression.

Abstract: Background. Despite markedly different clinical presentations, few studies have reported differences in neuropsychological functioning between mania and depression. The disinhibited behaviour characteristic of mania and evidence that subgenual prefrontal cortex is differentially activated in mania and depression both suggest that dissociable deficits will emerge on tasks that require inhibitory control and are subserved by ventromedial prefrontal cortex.Methods. Manic patients and controls undertook computerized neuropsychological tests of memory and planning ability. In addition, manic and depressed patients were directly compared with controls on a novel affective shifting task that requires inhibitory control over different components of cognitive and emotional processing.Results. Manic patients were impaired on tests of memory and planning. Importantly, affective shifting performance of manic patients differed from that of depressed patients. Manic patients were impaired in their ability to inhibit behavioural responses and focus attention, but depressed patients were impaired in their ability to shift the focus of attention. Depressed patients exhibited an affective bias for negative stimuli, and we believe this to be the first demonstration of an affective bias for positive stimuli in manic patients.Conclusions. Observed impairments on tests of memory and planning suggest a global pathology for mania consistent with previous profiles for this disorder and similar to established profiles for depression. The results on the affective shifting task demonstrate the presence of mood-congruent bias and dissociable components of inhibitory control in mania and depression. Against a background of memory and planning impairments in the two groups, these findings are consistent with a role for the ventromedial prefrontal cortex in mediating mood–cognition relationships.

Drug addiction: bad habits add up.

Abstract: We know how many drugs of abuse – cocaine, heroin and nicotine – work, but less about how they lead to addiction. Studies of the brain-learning systems concerned are addressing the causes of addiction, with the intent of developing better treatments.

Dissociation in effects of lesions of the nucleus accumbens core and shell on appetitive pavlovian approach behavior and the potentiation of conditioned reinforcement and locomotor activity by D-amphetamine.

Abstract: Dopamine release within the nucleus accumbens (NAcc) has been associated with both the rewarding and locomotor-stimulant effects of abused drugs. The functions of the NAcc core and shell were investigated in mediating amphetamine-potentiated conditioned reinforcement and locomotion. Rats were initially trained to associate a neutral stimulus (Pavlovian CS) with food reinforcement (US). After excitotoxic lesions that selectively destroyed either the NAcc core or shell, animals underwent additional CS–US training sessions and then were tested for the acquisition of a new instrumental response that produced the CS acting as a conditioned reinforcer (CR). Animals were infused intra-NAcc with d-amphetamine (0, 1, 3, 10, or 20 μg) before each session. Shell lesions affected neither Pavlovian nor instrumental conditioning but completely abolished the potentiative effect of intra-NAcc amphetamine on responding with CR. Core-lesioned animals were impaired during the Pavlovian retraining sessions but showed no deficit in the acquisition of responding with CR. However, the selectivity in stimulant-induced potentiation of the CR lever was reduced, as intra-NAcc amphetamine infusions dose-dependently increased responding on both the CR lever and a nonreinforced (control) lever. Shell lesions produced hypoactivity and attenuated amphetamine-induced activity. In contrast, core lesions resulted in hyperactivity and enhanced the locomotor-stimulating effect of amphetamine. These results indicate a functional dissociation of subregions of the NAcc; the shell is a critical site for stimulant effects underlying the enhancement of responding with CR and locomotion after intra-NAcc injections of amphetamine, whereas the core is implicated in mechanisms underlying the expression of CS–US associations.

Specific cognitive deficits in mild frontal variant frontotemporal dementia

Abstract: Eight patients with relatively mild frontal variant frontotemporal dementia (fvFTD) were compared with age- and IQ-matched control volunteers on tests of executive and mnemonic function. Tests of pattern and spatial recognition memory, spatial span, spatial working memory, planning, visual discrimination learning/attentional set-shifting and decision-making were employed. Patients with fvFTD were found to have deficits in the visual discrimination learning paradigm specific to the reversal stages. Furthermore, in the decision-making paradigm, patients were found to show genuine risk-taking behaviour with increased deliberation times rather than merely impulsive behaviour. It was especially notable that these patients demonstrated virtually no deficits in other tests that have also been shown to be sensitive to frontal lobe dysfunction, such as the spatial working memory and planning tasks. These results are discussed in relation to the possible underlying neuropathology, the anatomical connectivity and the hypothesized heterogeneous functions of areas of the prefrontal cortex. In particular, given the nature of the cognitive deficits demonstrated by these patients, we postulate that, relatively early in the course of the disease, the ventromedial (or orbitofrontal) cortex is a major locus of dysfunction and that this may relate to the behavioural presentation of these patients clinically described in the individual case histories.

Redefining the functional organization of working memory processes within human lateral prefrontal cortex.

Abstract: It is widely held that the frontal cortex plays a critical part in certain aspects of spatial and non-spatial working memory. One unresolved issue is whether there are functionally distinct subdivisions of the lateral frontal cortex that subserve different aspects of working memory. The present study used positron emission tomography (PET) to demonstrate that working memory processes within the human mid-dorsolateral and mid-ventrolateral frontal regions are organized according to the type of processing required rather than according to the nature (i.e. spatial or non-spatial), of the information being processed, as has been widely assumed. Two spatial working memory tasks were used which varied in the extent to which they required different executive processes. During a 'spatial span' task that required the subject to hold a sequence of five previously remembered locations in working memory a significant change in blood-flow was observed in the right mid-ventrolateral frontal cortex, but not in the anatomically and cytoarchitectonically distinct mid-dorsolateral frontal-lobe region. By contrast, during a '2-back' task that required the subject to continually update and manipulate an ongoing sequence of locations within working memory, significant blood flow increases were observed in both mid-ventrolateral and mid-dorsolateral frontal regions. When the two working memory tasks were compared directly, the one that emphasized manipulation of information within working memory yielded significantly greater activity in the right mid-dorsolateral frontal cortex only. This dissociation provides unambiguous evidence that the mid-dorsolateral and mid-ventrolateral frontal cortical areas make distinct functional contributions to spatial working memory and corresponds with a fractionation of working memory processes in psychological terms.

Tryptophan depletion impairs stimulus-reward learning while methylphenidate disrupts attentional control in healthy young adults: implications for the monoaminergic basis of impulsive behaviour.

Abstract: Rationale: Altered serotonergic and dopaminergic function have been widely implicated in behavioural disorders associated with impulsivity and risk-taking. However, little research has addressed the specific cognitive consequences of changed monoaminergic function that might contribute to the production of impulsive behaviour. Objectives and methods: We compared the effects of rapid plasma tryptophan depletion, acute doses of the mixed indirect catecholamine agonist, methylphenidate (40 mg), and acute doses of the α1/α2 agonist, clonidine (1.5 µg/kg), on aspects of visual discrimination learning involving either acquisition of altered stimulus-reward associations (i.e. updating the affective valence of exteroceptive stimuli) or the control of attention towards relevant as opposed to irrelevant stimulus dimensions. Results: Relative to subjects who received placebo, subjects with reduced tryptophan exhibited a deficit in the ability to learn changed stimulus-reward associations, but were still able to shift an acquired attentional set away from a now-irrelevant stimulus dimension towards a newly relevant dimension. By contrast, subjects who received methylphenidate were able to learn effectively about changing stimulus-reward associations, but showed an enhanced ability to shift an attentional bias, in combination with slowed response times. Subjects who received clonidine showed neither of these changes. Conclusions: These results suggest that reduction in central serotonin leads to altered neuromodulation of the cortical and subcortical regions (e.g. orbitofrontal cortex, striatum and anterior temporal structures) that mediate important aspects of associative learning whereby exteroceptive stimuli acquire altered incentive motivational value. On the other hand, facilitation of catecholamine neurotransmitters may disrupt the allocation of attention between relevant and irrelevant features of the environment, perhaps through altered modulation of the dorsolateral prefrontal cortex. The implications of these results for understanding the differential neuromodulation of cognitive functions are discussed.

The effects of chronic administration of hydrocortisone on cognitive function in normal male volunteers.

Abstract: Rationale: Corticosteroids are elevated in certain neuropsychiatric disorders and this may contribute to the neuropsychological impairments reported in these disorders. Objective: To examine the effects of hydrocortisone on learning, memory and executive function. Methods: Hydrocortisone 20 mg was administered twice daily for 10 days to normal male volunteers in a randomized, placebo control, crossover, within-subject design. Learning, memory and executive function were measured using selected subtests from the Cambridge Neuropsychological Test Automated Battery. Results: Hydrocortisone caused impairments of visuo-spatial memory. These included increased within search errors and impaired use of strategies on the spatial working memory subtest. In addition, administration of hydrocortisone was associated with more errors in the paired associate learning subtest, although no effect was found on the Tower of London. Hydrocortisone speeded response latencies in certain tests (pattern and spatial recognition memory). Conclusion: These results indicate that chronic administration of hydrocortisone leads to deficits in certain tests of cognitive function sensitive to frontal lobe dysfunction and may contribute to the cognitive impairment reported in certain neuropsychiatric disorders.

Systemic sulpiride in young adult volunteers simulates the profile of cognitive deficits in Parkinson's disease.

Abstract: Rationale: The mesotelencephalic dopamine system has been implicated in cognitive processes dependent on an intact prefrontal cortex. Most previous research in humans has focused on dopaminergic agonists and their effects on tasks of working memory. Objectives: The present study was designed to investigate the cognitive and subjective effects of two doses (200 mg and 400 mg) of the dopaminergic D2 receptor antagonist, sulpiride on a broad range of well-validated neuropsychological tasks in a group of 34 young healthy male volunteers. Methods: Cognitive tasks were administered to subjects after ingestion of either drug or placebo within a double-blind, placebo-controlled, cross-over design. The cognitive tests included tasks from the Cambridge Neuropsychological Test Automated Battery (CANTAB) and were designed to assess visuospatial recognition memory, planning ability, working memory, strategy learning, sustained attention and attentional set-shifting. In addition, the National Adult Reading Test (NART) was used to assess verbal IQ, and visual analogue scales to assess subjective effects of the drug. Results: Subjects on sulpiride were impaired on the tasks of spatial recognition, spatial working memory (sequence generation), planning (one-touch Tower of London) and attentional set-shifting. Only the spatial working memory task demonstrated a dose dependent effect. The impairments were not due to generalised sedative or motoric influences of sulpiride. Conclusions: All of the tasks impaired following sulpiride are known to be sensitive to frontal lobe damage and the precise pattern of deficits seen is consistent with the anatomical distribution of central dopamine receptors. The results are discussed with particular reference to their close simulation of the impairments seen in idiopathic Parkinson’s disease.

Maternal deprivation of neonatal rats produces enduring changes in dopamine function

Abstract: Isolation-rearing of weanling rats produces a syndrome of behavioral and neurochemical effects that are indicative of enhanced ventrostriatal dopamine function observed in adulthood. By contrast, maternal deprivation of neonatal rats decreases behavioral responses to dopamine agonists when tested in adults, which may indicate the opposite situation. However, in the present study it is reported that in vivo microdialysis of the nucleus accumbens (NAC) revealed enhanced release of dopamine (DA) in response to both d-amphetamine and high K+ perfusate in maternally deprived subjects. Thus, behavioral responses to d-amphetamine are diminished in maternally deprived rats despite apparent increases in presynaptic dopaminergic function in the NAC.

Repeated neonatal maternal separation alters intravenous cocaine self-administration in adult rats

Abstract: Behavioural responses to psychostimulant drugs can be profoundly affected by early environmental influences. The aim of this study was to describe the effects of repeated brief separations of rat pups from their dams during the early neonatal period on cocaine self-administration behaviour as adults. Lister hooded rats exposed to a repeated maternal separation procedure (REMS) showed altered acquisition and maintenance of cocaine self-administration as adults, the effects being dose and gender-dependent. Overall, the patterns of acquisition of self-administration across three doses of cocaine (0.05, 0.08 and 0.5 mg/injection) suggested a rightward shift in the acquisition dose-effect functions for the REMS animals relative to control animals. At 0.05 mg/injection, there was a retarded acquisition of cocaine self-administration in male and female neonatally separated rats. At 0.08 mg/injection there was a facilitated acquisition in female neonatally separated subjects. After establishment of stable self-administration of the training dose, in the same cohort of subjects, rightward and downward shifts in the cocaine self-administration dose-effect functions were determined for female and male REMS subjects, respectively, relative to their controls. The dose-effect function for both female groups was shifted to the left of that of the respective male groups, although the lighter body weights of the females meant that they administered a higher unit dose per unit body weight than the males. Whereas male REMS subjects tended to self-administer less cocaine than the controls at the dose eliciting maximal responding (0.03 mg/injection) and to make fewer lever responses overall at each dose tested, female REMS subjects self-administered significantly more cocaine than their respective controls at a dose of 0.03 mg/injection. There was no differential sensitivity to the rate-altering effects of the selective dopamine D2 receptor antagonist, eticlopride, or to the selective dopamine D1 receptor antagonist, SCH 23390. These data provide further evidence that altered early environment affects drug-taking behaviour in a developmentally specific and gender-specific manner, with the effects of neonatal separation contrasting with previously published data on the effects of post-weaning isolation rearing.

Selective excitotoxic lesions of the nucleus accumbens core and shell differentially affect aversive Pavlovian conditioning to discrete and contextual cues

Abstract: The nucleus accumbens (NAcc) is implicated in reward-related processes and in reinforcement learning. However, its precise role in associative processes is unclear and may not be related solely to appetitive learning. In the present study, the differential effects of selective excitotoxic lesions of the NAcc core and shell were studied on the acquisition of an aversive Pavlovian conditioning task that assessed conditioning to both discrete and contextual cues. Rats with selective lesions of the NAcc shell were not impaired on measures of aversive Pavlovian conditioning to either discrete or contextual cues. In contrast, animals with lesions of the NAcc core showed an impairment in conditioning to discrete cues and an enhancement in conditioning to contextual cues. The NAcc is thus implicated in aspects of aversive Pavlovian conditioning; the significance of this finding for theories of cortico-striatal function is discussed.

Associative plasticity in striatal transplants

Abstract: Striatal lesions disrupt both motor and cognitive performance in rats, many aspects of which can be restored by striatal transplants. Because the normal striatum is involved in the formation and maintenance of motor habits, it has been hypothesized that grafted animals may require explicit retraining to relearn previously established habits that have been disrupted by the lesions. We have used a lateralized-discrimination task to reproduce this “learning to use the transplant” effect, combined with a transfer-of-training paradigm to demonstrate that recovery requires relearning specific lateralized stimulus–response associations and cannot be explained simply by a generalized training-dependent improvement in motor skill. These results have clear implications for developing appropriate strategies for the rehabilitation of Huntington’s disease patients participating in clinical transplantation programs.

Effects of regional striatal lesions on motor, motivational, and executive aspects of progressive-ratio performance in rats.

Abstract: The striatum is implicated in response selection and performance, the dorsal striatum in sensorimotor control and habit learning, and the ventral striatum in motivation and rewarded behaviors. Ventral striatal lesions produce performance changes on food-reinforced, progressiveratio (PR) schedules, but the effects of dorsal striatal lesions on this task are not known. In this study, neither medial nor lateral dorsal striatal lesions produced deficits on the main motivational indices of PR performance. In contrast, significant impairments were observed in motoric or "executive" aspects of performance. Motivationally related manipulations of the task (food deprivation and reward magnitude) produced some subtle lesion-specific changes in behavior on these motoric or executive aspects of performance. Findings are discussed in relation to the roles of the dorsal and ventral striatum in reward-related behaviors.

Effects of transient inactivation of the subthalamic nucleus by local muscimol and APV infusions on performance on the five-choice serial reaction time task in rats.

Abstract: Within the basal ganglia circuitry, recent conceptions of the subthalamic nucleus are that it fulfils integrative functions. We have previously shown that bilateral excitotoxic lesions of the subthalamic nucleus induce behavioural deficits in a five-choice serial reaction time task in the rat, consistent with attentional impairments and suggesting important roles of this basal ganglia structure in mechanisms of behavioural control. In the present study, we tested the effects of (i) blocking its excitatory inputs (originating mainly in the cerebral cortex and the parafascicular nucleus of the thalamus) via the NMDA receptors and (ii) stimulating its GABA receptors to mimick the influence of its inhibitory inputs (mainly from the globus pallidus). Bilateral microinfusions of APV (NMDA receptor antagonist) or muscimol (GABA-A receptor agonist) into the subthalamic nucleus were administered to rats trained in the same five-choice serial reaction time task. Both APV (0.125–0.5 μg) and muscimol (1–3 ng) reduced choice accuracy, slowed correct responses and increased omissions and perseverative responses. Premature responses tended to increase after APV but decrease after muscimol. Increased perseverations at the food magazine occurred only after muscimol infusions. These results reproduce many of the effects of lesions of the STN and are consistent with an integrative role for this structure in pallidal and thalamo-cortical processing.

Comparative Cognitive Neuropsychological Studies of Frontal Lobe Function: Implications for Therapeutic Strategies in Frontal Variant Frontotemporal Dementia

Abstract: Patients with mild frontal variant frontotemporal dementia (fvFTD) who attend the clinic are usually unaware of the pervasive changes in their personality and behaviour, despite the fact it is these changes which have prompted the referral from the patient's spouse or carer. Comparative studies across various species offer unique insights into the heterogeneous structure and functions of the prefrontal cortex, and can allow a novel approach to the precise identification of the neuropsychological deficits present in these patients. We have found that they may show marked deficits on tests sensitive to ventromedial prefrontal or orbitofrontal function, in the relative absence of impairments on tests sensitive to dorsolateral prefrontal function. We highlight important differences in the neurocognitive profile of these patients with that of patients with other neurodegenerative conditions, including basal ganglia diseases and dementia of the Alzheimer type. The specific nature of these neuropsychological deficits, together with converging evidence from clinical and neuropathological studies, may provide useful clues about the predominant locus of dysfunction in the early stages of fvFTD and possible underlying neurotransmitter abnormalities. This is important for the successful development of therapeutic intervention strategies for both cognitive and behavioural symptoms in fvFTD. Finally, we evaluate critically the rationales for therapeutic modulation of noradrenergic, serotonergic and dopaminergic neurotransmitter systems at various stages of disease.

Behavioural recovery following striatal transplantation : effects of postoperative training and P-zone volume

Abstract: Rats were trained on an operant task and then received striatal lesions and grafts. Grafts were derived either from whole-ganglionic eminences or restricted to the lateral eminence. When retested 4 months later; graft-associated behavioural recovery was only apparent with extensive retesting. There was no difference in performance between rats that received whole-dissection or lateral-dissection grafts, and no correlation between performance and the amount of striatal-like (P-zone) tissue within the graft. It is suggested that P-zone reconstruction may be necessary, but not sufficient for behavioural recovery, which may additionally depend upon rehabilitative training.

Idazoxan potentiates rather than antagonizes some of the cognitive effects of clonidine.

Abstract: Several investigations have revealed substantial influences of pharmacological manipulation of central noradrenergic activity upon performance in cognitive tests sensitive to frontal lobe dysfunction. They suggest a significant role for the noradrenergic coeruleo-cortical projection in cognitive function but conflicting findings and the complex pharmacology of adrenoceptor agents make it difficult to be precise about underlying mechanisms. In order to clarify these we have compared the effects of an α1/α2-adrenoceptor agonist, clonidine, an α2-adrenoceptor antagonist, idazoxan, and these agents in combination. Three groups of healthy volunteers were used to investigate the effects of these noradrenergic manipulations upon performance of tasks from the CANTAB test battery known to be sensitive to frontal lobe dysfunction. Previously reported effects of clonidine upon sustained visual attention and upon session-to-session improvement were replicated. Furthermore, idazoxan inhibited the hypotensive effect of clonidine. Idazoxan had no overall effect on performance of any of the tests but did inhibit session-to-session improvement in performance of a planning task, attentional set shifting and sustained visual attention. Rather than leading to the anticipated mutual antagonism of effects, combining clonidine and idazoxan led to a wider and more striking range of cognitive impairments. These results are discussed alongside findings which support a role for imidazoline (I1) receptors in blood pressure control, where clonidine and idazoxan are antagonistic, and evidence of less potent antagonism at somato-dendritic α2-adrenoceptors in the locus coeruleus.

Distinct roles for striatal subregions in mediating response processing revealed by focal excitotoxic lesions.

Abstract: This study examined the relative roles of distinct striatal areas in response processing. Rats were trained on a reaction time task that enabled performance on each side of the rat's body to be assessed independently. Rats then received unilateral lesions of the whole dorsal striatum or restricted medial or lateral lesions. Both medial and lateral lesions induced a response bias in contralateral space, but this bias was less severe in rats with medial lesions. Medial striatal lesions led to an increase in premature responses. Lateral striatal lesions produced an increase in late responses. It is suggested that the lateral striatum mediates the selection of responses, and the medial striatum acts to influence inhibitory control over responding. Discrete striatal areas are thus functionally dissociable, but both have a crucial role in the organization of responding in space.

Contrasts between the cardiovascular concomitants of tests of planning and attention.

Abstract: Physiological response stereotypy is a well-established psychophysiological construct. Unfortunately, specifying parameters of tasks that evoke differing physiological responses has proved difficult. We have recorded cardiovascular activity while subjects carried out executive and attentional tasks that differed not only psychologically but also in their sensitivity to brain pathology and to pharmacological manipulations. Finapres recordings were made of 30 healthy, normal subjects (mean age 24 years) performing two tasks involving differing aspects of sustained attention and two tasks involving differing aspects of spatial working memory and planning. Measures of heart rate and blood pressure, heart rate and blood pressure variability, and their spectral derivatives revealed differing patterns of cardiovascular adjustment between the "attentional" and "planning" tasks. Each test raised blood pressure, but changes in blood pressure and heart rate variability were confined to the attentional tasks. These findings suggest distinct brain mechanisms subserving different forms of arousal.

Effects of excitotoxic lesions of the rat prefrontal cortex on CREB regulation and presynaptic markers of dopamine and amino acid function in the nucleus accumbens.

Abstract: The present study investigated the effects of excitotoxic lesions of the prefrontal cortex (PFC) on dopamine (DA) and excitatory amino acid (EAA) function in the nucleus accumbens core using in vivo microdialysis in freely moving rats. As a postsynaptic marker of neuronal function, the nuclear levels of the transcriptional factor CREB and its active phosphorylated form, CREB-P, were measured in the ventral tegmental area (VTA), and in the core and shell subregions of the nucleus accumbens of sham and lesioned animals. PFC-lesioned animals exhibited a greater locomotor response to novelty and amphetamine administration (125-500 microg/kg i.v.). No change was observed in extracellular levels of glutamate or saturable d-aspartate binding (a marker for the high-affinity EAA transporter) in the nucleus accumbens of PFC-lesioned animals. Extracellular levels of DA were comparable in sham and lesioned animals under tonic conditions, however, following amphetamine administration, DA efflux was significantly attenuated in lesioned animals. No correlation was observed between microdialysate levels of amino acids and the attenuated dopaminergic response to amphetamine in lesioned animals. Further, no effect of the lesion was found on nuclear CREB protein in saline- and amphetamine-treated rats. The density of CREB-P immunoreactive nuclei, while remaining unchanged in the VTA, increased in the nucleus accumbens shell following amphetamine treatment in lesioned animals. The results show that an important modulatory role of the PFC on the behavioural response to novelty and amphetamine is associated with the level of immediate-early gene regulation rather than levels of extracellular DA and amino acids in the ventral striatum.