A.C. Swann

Tryptophan depletion and aggressive responding in healthy males

In order to study the effect of decreasing plasma tryptophan levels on aggressive responding in a controlled laboratory setting, we administered two doses (25 g and 100 g) of a tryptophan-free amino acid mixture to ten healthy male subjects after 24 h of a low tryptophan diet. Subjects were screened for current or past psychiatric, or non-psychiatric medical illness. Aggressive responding on a free-operant laboratory measure of aggression (the Point Subtraction Aggression Paradigm) and plasma tryptophan levels were measured before and after drinking the amino acid mixture. There was a significant increase in aggressive responding 5 h after the 100 g mixture and a significant increase in aggressive responding 6 h after the 25 g mixture compared to a baseline day when no drink was administered. There was also a significant decrease in plasma tryptophan at 5 hours after ingestion compared to baseline for both doses of amino acid mixture. This study supports the hypothesis that tryptophan depletion increases aggressive responding in healthy males in a laboratory setting; probably by decreasing brain serotonin.

The effects of tryptophan depletion and loading on laboratory aggression in men: time course and a food-restricted control.

Abstract Some studies have shown that sharp reduction of L-tryptophan (Trp) concentration in plasma results in increases in laboratory-measured aggression. Conversely, raising plasma Trp has blunted aggression. These effects are presumably due to impaired or enhanced serotonin synthesis and neurotransmission in the brain. In this study, the laboratory-measured aggressive behavior of eight men under both Trp depletion (T-) and Trp loading (T+) conditions was compared to their aggressive behavior under food-restricted control conditions (overnight fast without an amino acid beverage). Subjects were provoked by periodic subtraction of money which was attributed to a fictitious other participant, and aggression was defined as the number of retaliatory responses the subject made ostensibly to reduce the earnings of the (fictitious) other participant. Following ingestion of the T- beverage, aggressive responding was significantly elevated relative to the food-restricted control condition, and this increased aggressive behavior became more pronounced across behavioral testing sessions on a time-course which paralleled previously documented decreases in plasma Trp concentrations. In contrast, no changes were observed in aggressive responding under T+ conditions relative to food-restricted conditions. These within-subject behavioral changes under depleted plasma Trp conditions support earlier indications of a role of serotonin in regulating aggression.

Dose response characteristics of methylphenidate on different indices of rats' locomotor activity at the beginning of the dark cycle.

Using a computerized infrared activity analysis system, the dose-response relationship, timing, and duration for stimulation of motor activity after a single dose of methylphenidate was studied in Sprague-Dawley rats. After 5 days of acclimation and 2 days of monitored baseline activity, rats received a single subcutaneous injection of vehicle or of 0.6, 2.5, 10 or 40 mg/kg methylphenidate 1 h into the dark cycle. Recording was then resumed for an additional 36 h. Five locomotor indices were analyzed. Each locomotor parameter monitored different aspects of motor activity. The doses of 2.5, 10 and 40 mg/kg significantly increased (P < 0.01) locomotor activity. The time to maximal effect (20, 50, and 90 min) and duration of effect (70, 210, and 280 min) increased with dose respectively. Ten mg/kg had the maximum effect on locomotor activity, while the largest dose, 40 mg/kg, elicited a more focused stereotyped activity that limited the amount of forward ambulation. Single injections of methylphenidate did not alter motor activity the next day. Pharmacological parameters and specific locomotor parameters describing the effects of methylphenidate at the beginning of the dark cycle can later be used in chronopharmacologic studies. They will also provide the basis for investigation of adaptive mechanisms during repeated or chronic administration of methylphenidate.

The Influence of Menstrual-Cycle Phase on the Relationship Between Testosterone and Aggression

Plasma testosterone levels and aggressive behavior were measured in 12 women with and without perimenstrual affective symptomatology (e.g., depression, irritability) during the menstrual, midfollicular, ovulatory, and premenstrual phases of the menstrual cycle. The Point Subtraction Aggression Paradigm was used to quantify aggressive response to provocation. Subjects had two response options: a point-maintained option (100 presses earned a point worth 10 cents) and an aggressive response option (10 presses ostensibly subtracted a point from a fictitious partners counter). Subjects were provoked by the periodic subtraction of a point that was attributed to the responding of a fictitious opponent. Although plasma testosterone levels (determined by radioimmunoassay) increased significantly during the ovulatory phase, aggressive response to provocation remained unchanged across the menstrual cycle. Plasma testosterone did not differ between the 2 groups during any phase. A relationship between plasma testosterone levels and use of the aggressive response option was seen only during the midfollicular phase (Spearman r = .673, p = .017). These preliminary data suggest that: 1. The relationship in female subjects between endogenous testosterone and aggressive behavior is inconsistent; 2. self-report of perimenstrual symptomatology is a more consistent predictor of aggressive behavior across the menstrual cycle than plasma testosterone; and 3. perimenstrual emotional symptomatology is not related to testosterone levels.

Dose-related effects of MK-801 on acute and chronic methylphenidate administration

The non-competitive N-methyl-d-aspartate (NMDA) receptor antagonist MK-801 has been shown to modulate both the effects of stimulants, such as amphetamine and cocaine, in producing locomotion and the chronic effects of stimulants in producing sensitization. In this study, we examine the interactions between MK-801 and the stimulant methylphenidate. Three different doses of MK-801 were administered 60 min prior to methylphenidate injection (2.5 mg/kg) and the acute response to MK-801 alone and the coadministration with methylphenidate were characterized. MK-801 alone was found to produce dose-dependent locomotor activation. The 0.15 mg/kg dose of MK-801 had no effect on the response to methylphenidate, while the 0. 3 and 0.6 mg/kg doses augmented the methylphenidate response. The effect of pretreatment with MK-801 on subsequent repeated methylphenidate administration was assessed. For all three doses tested, MK-801 pretreatment blocked the progressive locomotor sensitization expected during repeated methylphenidate administration. These findings suggest that MK-801 may exert a long-lasting effect on learning and memory process that result in a blocking of the development of sensitization.

The role of MK-801 in sensitization to stimulants.

Behavioral responses to stimulants can be progressively and persistently enhanced by their repeated administration. This phenomenon, called behavioral sensitization, may underlie substance abuse, psychosis, recurrence in bipolar disorder, or other psychiatric problems. A growing body of work has implicated excitatory amino acid systems in behavioral sensitization. Most of the evidence for a role of excitatory amino acids has come from experiments demonstrating prevention of sensitization by excitatory amino acid antagonists, especially the noncompetitive NMDA receptor antagonist MK-801. Results of studies with MK-801 have varied, however, leading to conflicting interpretations of its relationship to behavioral sensitization. This paper critically discusses the design of experiments that have used MK-801, and interprets data from these experiments in terms of the two leading explanations for the role of MK-801: 1) that sensitization is an example of the family of plastic events that require excitatory amino acid transmission or 2) that interoceptive cues associated with MK-801 lead to state-dependent learning that modifies sensitization because, in essence, the animal does not recognize the stimulant as the same drug if it is given in close association with MK-801. Based on conflicting reports on effects of MK-801, we propose 1) strategies for distinguishing components of MK-801s effects on responses to stimulants, 2) a model that is a hybrid of the two interpretations of its effects on sensitization, and 3) experimental strategies for testing this model.

Descending glutamatergic pathways of PFC are involved in acute and chronic action of methylphenidate.

Progressive augmentation of behavioral response following repeated psychostimulant administrations is known as behavioral sensitization, and is an indicator of a drugs liability for abuse. It is known that methylphenidate (MPD) (also known as Ritalin), a drug used to treat attention-deficit hyperactivity disorder (ADHD), induces sensitization in animals following repeated injections. It was recently reported that bilateral electric (non-specific) lesion of prefrontal cortex (PFC) prevented MPD elicited behavioral sensitization. Since PFC sends glutamatergic afferents to both ventral tegmental area (VTA) and nucleus accumbens (NAc), sites that are involved in induction and expression of behavioral sensitization respectively and glutamate from PFC is known to modulate dopamine cell activity in VTA and NAc, this study investigated the role of descending glutamate from PFC in MPD elicited behavioral sensitization. Locomotor activity of three groups of rats-control, sham operated and group with specific chemical lesion of glutamate neurons of PFC-was recorded using an open-field assay. On experimental day (ED) 1, the locomotor activity was recorded post a saline injection. The sham and lesion groups underwent respective surgeries on ED 2, and were allowed to recover for 5 days (from ED 3 to ED 7). The post-surgery baseline was recorded on ED 8 following a saline injection. On EDs 9 through 14, 2.5 mg/kg MPD was given, followed by a 4-day washout period (ED 15 -18). All three groups received a rechallenge injection of 2.5 mg/kg on ED 19 and their locomotor activity on various days was analyzed. It was found that ibotenic acid lesion modulated the acute and chronic effects of MPD and hence suggests that PFC glutamatergic afferents are involved in the acute effect of MPD as well as in its chronic effects such as behavioral sensitization to MPD.

Psychostimulants given in adolescence modulate their effects in adulthood using the open field and the wheel-running assays

Acute and chronic methylphenidate (MPD) were given to adults treated with MPD only in adulthood (adult I) and to adults that had been treated repeatedly during adolescence and adulthood (adult II). Two locomotor activity assays, the open field and the running wheel, were used in a dose response experiment to assess whether methylphenidate (MPD) treatment during adolescence would affect responses to MPD in adulthood. Each experiment lasted 11 days as follows: saline control on experimental day 1 (ED 1), followed by a single daily dose of saline, 0.6, 2.5, or 10mg/kg MPD for 6 days (ED 2 to ED 7), 3 washout days with no drug administration (ED 8 to ED 10), and saline or MPD challenge on ED 11 at a dose identical to that given on ED 2 to ED 7. Acute MPD elicited characteristic dose response increases in locomotion in both experimental assays of adult I and adult II groups. Adult I and adult II rats tested in the open field assay exhibited sensitization to 2.5mg/kg MPD and tolerance to 10mg/kg MPD, while in the wheel-running assay all the three MPD doses elicited sensitization in both adult I and adult II rats. MPD treatment in adolescence did not change the baseline activity when animal reached adulthood. However, the responses to MPD in adult II rat groups were significantly different from the adult I group. Similar observations were noted during washout days. At the low and moderate MPD treatment both experimental assay exhibited similar observations while following the high dose of MPD treatment, the open field assay indicated that tolerance to MPD was expressed, while the wheel-running assay indicated that behavioral sensitization was developed. The distinction between the two assays and adult I and II differences are discussed.

Prolactin response to buspirone was reduced in violent compared to nonviolent parolees

Abstract A neuroendocrine challenge procedure was carried out in male and female parolees. The parolees were divided into violent and non-violent groups based upon their criminal history. Buspirone (0.4 mg/kg), a 5-HT1a agonist, was used as the challenge agent and plasma prolactin levels were determined. The violent parolees had a blunted prolactin response compared to the non-violent parolees. While reduced serotonergic activity may account for this difference, the pharmacology of buspirone and control of prolactin release suggest a role for dopamine. A reduced serotonergic response would be consistent with a large body of data linking reduced serotonin function and aggressive behavior. While the mechanism is not definite, these data clearly provide evidence for an altered and blunted biological response in parolees with a history of violence.

Bilateral Six-hydroxydopamine administration to PFC prevents the expression of behavioral sensitization to Methylphenidate

Psychostimulants like amphetamine and methylphenidate (MPD) are used to treat attention deficit hyperactivity disorder (ADHD), which is marked by developmentally inappropriate inattention, hyperactivity, and impulsivity. Neuropsychological analyses indicate that ADHD patients are impaired on tasks of behavioral inhibition, reward reversal, and working memory, which are functions of the prefrontal cortex (PFC) and are modulated by the mesocortical dopamine (DA) system. Non-specific electrical lesioning of PFC eliminated the expression of behavioral sensitization elicited by chronic MPD administration. Behavioral sensitization is the progressive augmentation of locomotor activity as a result of repetitive (chronic) exposure to the drug. It is believed that the sensitization to chronic drug treatment is caused due to an increase in DA in the mesocorticolimbic DA system, which includes the PFC. Therefore, this study investigated the role of PFC DA in mediating the behavioral sensitization to repeated administration of MPD in adult male Sprague-Dawley rats. On experimental day (ED) 1, the behavior was recorded post-saline injection. On ED 2, the rats were divided into three groups--control, sham and bilateral 6-OHDA treated group; and the sham and 6-OHDA treated groups underwent respective surgeries. After 5 days of rest following surgery, the post-surgery baseline was recorded on ED 8 following a saline injection. All three groups received 2.5 mg/kg MPD for 6 days (from ED 9 to ED 14), followed by a 3-day washout period (ED 15 to ED 18). On ED 19, a rechallenge injection of 2.5 mg/kg MPD was given and locomotor activity was recorded. It was found that the 6-OHDA lesion group failed to exhibit behavioral sensitization to MPD. The involvement of the dopaminergic afferents of PFC in behavioral sensitization to MPD is discussed.