Gary L. Brammer

Serotonergic mechanisms promote dominance acquisition in adult male vervet monkeys

In a counter-balanced, cross-over study, we examined the contributions of serotonergic systems to the acquisition of social dominance in adult male vervet monkeys. Subjects were members of 12 social groups, each containing 3 adult males, at least 3 adult females, and their offspring. Animals were observed in 5 intervals including a first baseline, a first experimental, a second baseline, a second experimental, and a third baseline period. At the end of the first baseline period, the dominant male was removed from each group. In each group, one of the two remaining subordinate males was selected at random for treatment and during the first experimental period, 6 of the 12 treated males received drugs that enhanced serotonergic activity (3 were given tryptophan 40 mg/kg/day and 3 fluoxetine 2 mg/kg/day). The other 6 treated males received drugs that reduced serotonergic function (3 were given fenfluramine 2 mg/kg/day and 3 cyproheptadine 60 micrograms/kg/day). At the end of the first experimental period, the original dominant male was returned to his group and the second baseline period began. In all instances, the originally dominant male regained his dominant position. The second experimental period began with the dominant male again being removed and, the 12 treated males were given the treatment they had not received in the first experimental period. At the start of the third 12-week baseline period, the original dominant male was returned to his group and resumed his dominant status. When the 12 treated subjects received tryptophan or fluoxetine, they became dominant in all instances. When they received fenfluramine or cyproheptadine, their vehicle-treated cage mates became dominant. The sequence of the behavioral changes shown by the treated males as they acquired dominance status paralleled those seen in naturalistic conditions. These observations support the distinction between dominance and aggression and strongly suggest that when hierarchical relationships are uncertain, serotonergic mechanisms may mediate the behaviors which permit a male to attain high dominance status.

Dominant social status facilitates the behavioral effects of serotonergic agonists

The effects of dominance rank on the behavioral responses to drugs that enhance central serotonergic function were examined in 45 adult male vervet monkeys living in 15 stable social groups. Each group contained 3 adult males, 3 adult females, and their immature offspring. Dominance rank was assessed by measuring success in intermale agonistic encounters. In every group one male was clearly the dominant, or alpha male, and the other two males were subordinate. Males from 5 groups received 3 doses of the serotonin reuptake inhibitor fluoxetine (0.5, 1.0 and 2.0 mg/kg/day); those from a second set of 5 groups received 3 doses of the receptor agonist quipazine (0.25, 0.50 and 1.0 mg/kg/day); those from a third set of 5 groups received the serotonin precursor tryptophan (10, 20 and 40 mg/kg/day). The 3 drug treatments produced strikingly similar behavioral effects. Each produced dose-dependent increases in approaching, grooming, resting and eating and decreases in locomoting, avoiding, being vigilant and being solitary. Dominant males were significantly more responsive behaviorally to all 3 drugs than were subordinate males: the increase or decrease in each behavioral measure was larger in dominant than in subordinate males. In combination with previous studies, these data suggest that dominant and subordinate males differ in the drug sensitivity of their serotonergic systems.

Serotonergic influences on the social behavior of vervet monkeys (Cercopithecus aethiops sabaeus)

The behavioral effects of altering serotonin neurotransmission by chronic drug treatments in socially living vervet monkeys (Cercopithecus aethiops sabaeus) were examined. Animals received tryptophan (TRP, 20 mg/kg/day), parachlorophenylalanine (PCPA, 80 mg/kg/day), 5-hydroxytryptophan (5-HTP, 40 mg/kg/day), chlorgyline (10 mg/kg/day), or PCPA followed by concurrent PCPA and 5-HTP. Grooming, approaching, resting, and eating were increased by TRP and decreased by PCPA; TRP decreased and PCPA increased locomoting, avoiding, being solitary, and being vigilant. Grooming, being vigilant, and receiving aggression were increased by 5-HTP, and PCPA increased initiating aggression and decreased huddling. Concurrent administration of 5-HTP and PCPA reversed the effects of PCPA on approaching, grooming, and resting; augmented the PCPA effects on avoiding, being solitary, and aggression; and did not alter the PCPA effects on eating, locomoting, and huddling. Chlorgyline increased grooming, approaching, and being vigilant and decreased being solitary. No treatment significantly affected sexual behavior. These data suggest that serotonergic systems contribute relatively substantially to the mediation of grooming and approaching, participate less strongly in resting and locomoting, are implicated still more weakly in being solitary, avoiding, and being vigilant, and have little if any involvement in huddling, aggression, and sexual behavior.

Resting cortisol levels and the emergence of dominant status among male vervet monkeys

Resting serum cortisol was measured in adult male vervet monkeys (Cercopithicus aethiops sabaeus) in four different conditions: (1) among groups with unaltered group membership and established dominance hierarchies; (2) among groups from which the original dominant male had been removed and in which the remaining males competed for dominant status; (3) among newly formed groups of three unfamiliar males each of which had been the dominant male in his previous group; and (4) among groups from which a dominant male was temporarily separated and returned. In Condition 1, cortisol concentrations did not differ between dominant and subordinate males. The second condition showed that cortisol levels were highest among males who eventually emerged as the dominant male. In the third condition, however, cortisol levels did not differentiate eventually dominant from eventually subordinate males. In the last condition, cortisol levels were highest in the animals that became or remained dominant following reintroduction. These data indicate that cortisol concentration does not differ between dominant and subordinate males in stable groups and that cortisol rises during competition for dominance among familiar males.

Serum testosterone, male dominance, and aggression in captive groups of vervet monkeys (Cercopithecus aethiops sabaeus)

The relationship of serum testosterone concentration to male dominance rank and frequency of aggression was investigated in stable vervet monkey social groups, each containing two or three adult males, several adult females, and their offspring. Dominance relationships were determined by noting an animals success in intermale aggressive encounters. A striking finding was the marked within-subject variation in testosterone concentration: 5- to 10-fold fluctuations were often observed on successive days. When all 15 groups were considered together, testosterone concentration was unrelated to dominance rank. Although mean testosterone concentration for all dominant males was higher than the mean for all subordinate males, this difference was not significant. In a subset of 4 groups, the rate of aggression initiated was significantly correlated with same-day testosterone in dominant but not in subordinate males.

Fenfluramine effects on serotonergic measures in vervet monkeys.

Chronic fenfluramine treatment reduced whole blood serotonin and CSF 5-hydroxyindoleacetic acid, but increased aggressive and locomotor behavior, in adult male vervet monkeys (Cercopithecus aethiops sabaeus). Following a drug-free washout period to monitor the drug recovery course, we initiated a second period of fenfluramine treatment in the same animals. When whole blood serotonin concentrations were reduced by about 40% from predrug baseline levels, we examined 11 cortical and subcortical brain regions for their content of 5-hydroxytryptamine, 5-hydroxyindoleacetic acid, norepinephrine, and dopamine. We observed correspondence between the reduction in whole blood serotonin and the reduction in brain 5-hydroxytryptamine. Similarly, there was a correspondence between the reduced 5-hydroxyindoleacetic acid levels observed in CSF and brain. No alterations were noted in the concentrations of norepinephrine or dopamine. These observations suggest that the behavioral effects observed in monkeys after chronic fenfluramine treatment result from reduced central serotonin.

Adaptation, selection, and benefit-cost balances: Implications of behavioral-physiological studies of social dominance in male vervet monkeys

Abstract This paper reviews findings from studies of physiological-behavioral relationships in captive male vervet monkeys ( Cercopithecus aethiops sabaeus ). Among dominant males whole blood serotonin levels exceed levels for subordinate males; social status changes are accompanied by changes in whole blood serotonin and basal cortisol levels; and animals of different social status behave differently in individual behavior tests. Reported findings are used as a background for speculation on relationships between social dominance, adaptation, selection, and benefit-cost interpretations of behavior.

N-acetyltransferase activity of the rat harderian gland

Harderian gland extracts from male rats catalyze the conversion of serotonin to N-acetylserotonin and of tryptamine to N-acetyltryptamine. The reaction is linear up to 14 mg tissue and departs from linearity after 10 min. The pH otpimum with tryptamine as substrate is between 8 and 9. Enzymic activity of the gland in vivo does not show diurnal variations. Enzymic activity of tissue in organ culture is not stimulated by 10 micrometer isoproterenol or 100 micrometer dibutyryl cyclic AMP. Harderian gland tissue in culture can acetylate tryptamine and serotonin and can O-methylate the N-acetylserotonin to form melatonin.

Vervet monkey (cercopithecus aethiops sabaeus) whole blood serotonin level is determined by platelet uptake sites

Whole blood serotonin levels in adult male vervet monkeys living in social groups are sensitive to the animals social environment. The mechanisms that translate different behavioral and environmental cues into altered whole blood serotonin levels are unknown. In this study, we have measured platelet number, size, serotonin content, and serotonin uptake, as well as the serum concentrations of tryptophan, Mg+2 and Ca+2. Results showed that whole blood serotonin levels, platelet serotonin content, and the serotonin uptake parameter Vmax were stable within animals on repeated sampling. The whole blood serotonin level was highly positively associated with platelet serotonin content, and the platelet serotonin content was highly positively associated with Vmax. These findings suggested that whole blood serotonin levels were a function of the number of platelet uptake sites.

Comparison of ketamine, physical restraint, halothane and pentobarbital: Lack of influence on serotonergic measures in monkeys and rats

The consequences of the use of ketamine for immobilization have been examined on the concentration of whole blood serotonin, concentrations of neurotransmitters and metabolites in CSF and brain, and specific binding of ligands related to neurotransmitters in brain. Vervet monkeys (Cercopithecus aethiops sabaeus) were examined under conditions which compared ketamine with physical restraint and with halothane. It was found that ketamine, used acutely in monkeys for restraint, had no influence on the concentration of serotonin in whole blood or the concentration of 5-hydroxyindoleacetic acid or homovanillic acid in the CSF. In rats, untreated animals were compared with those treated with ketamine alone, or in conjunction with pentobarbital. Treatment with ketamine had no influence on the specific binding of ketanserin, imipramine, prazosin or dihydroalprenolol in brain of rat, nor any influence on the concentrations of serotonin, 5-hydroxyindoleacetic acid, norepinephrine, epinephrine, dopamine, or dihydroxyphenylacetic acid in brain. A moderately increased concentration of homovanillic acid was observed in several areas of the brain of the rat after ketamine alone or paired with pentobarbital.