A quantitative analysis of stereotyped gnawing induced by apomorphine

Contingency learning in zebrafish exposed to apomorphine- and levetiracetam

Cognitive rigidity (CR) refers to inadequate executive adaptation in the face of changing circumstances. Increased CR is associated with a number of psychiatric disorders, for example, obsessive-compulsive disorder, and improving cognitive functioning by targeting CR in these conditions, may be fruitful. Levetiracetam (LEV), clinically used to treat epilepsy, may have pro-cognitive effects by restoring balance to neuronal signalling. To explore this possibility, we applied apomorphine (APO) exposure in an attempt to induce rigid cue-directed responses following a cue (visual pattern)-reward (social conspecifics) contingency learning phase and to assess the effects of LEV on such behaviours. Briefly, zebrafish were divided into four different 39-day-long exposure groups ( n  = 9-10) as follows: control (CTRL), APO (100 µg/L), LEV (750 µg/L) and APO + LEV (100 µg/L + 750 µg/L). The main findings of this experiment were that 1) all four exposure groups performed similarly with respect to reward- and cue-directed learning over the first two study phases, 2) compared to the CTRL group, all drug interventions, but notably the APO + LEV combination, lowered the degree of reward-directed behaviour during a dissociated presentation of the cue and reward, and 3) temporal and spatial factors influenced the manner in which zebrafish responded to the presentation of the reward. Future studies are needed to explore the relevance of these findings for our understanding of the potential cognitive effects of LEV.

Further evidence for the mediation of both subtypes of dopamine D1/D2 receptors and cerebral neuropeptide Y (NPY) in amphetamine-induced appetite suppression

Amphetamine (AMPH) is known as an anorectic agent. Repeated treatments of AMPH for several days induced a marked anorexia on day 1 followed by a gradual return of food intake to normal level. Previously, using daily food intake (DFI) as an indicator, we found that both dopamine (DA) D1 and D2 receptors were involved in AMPH anorexia. In the present study, using DFI and body weight change (BWC) as indicators, we took a further step to examine whether repeated co-administrations of D1 and D2 agonists might produce an AMPH-like action. Results revealed that repeated co-administrations of D1 and D2 agonists, but not D1 or D2 agonist alone, produced an AMPH-like action (i.e., tolerant DFI and BWC), confirming the previous study. In addition, we examined whether cerebral neuropeptide Y (NPY), an orexigenic neurotransmitter reported to mediate AMPH anorexia, was involved in the anorectic action of D1/D2 co-administration. Our result revealed that injection of NPY antisense into brain could modify the anorectic action of repeated D1/D2 agonists, indicating the involvement of NPY. Taken together, the present results confirmed that both subtypes of D1 and D2 receptors and cerebral NPY were involved in the anorectic action of AMPH.

Differential responses in central dopaminergic activity induced by apomorphine in IPL nude rat

The IPL nude rat, derived by spontaneous mutation from the Sprague-Dawley strain, presents alterations in the prolactin synthesis and secretion due to an increased dopaminergic inhibition. However, there are no reports concerned to central dopamine activity. The corpus striatum is a brain area involved in the development of stereotyped behavior after the activation of mesolimbic and/or nigro-striatal dopamine pathways. In order to identify possible mesolimbic and/or nigro-striatal dysfunctions in the IPL nude rat, we study the spontaneous oral behaviors and the effects of apomorphine-induced dopaminergic activation on stereotyped behavior and neurochemical changes. Males from both strains were injected with saline or apomorphine (2 and 5 mg/kgs.c.) and evaluated during 30 min in a stereotypes oral tests. The corpus striatum and nucleus accumbens were used to measure dopamine (DA), 3,4-dihydroxyphenylalanine (DOPA) and 3,4-dihydroxyphenylacetic acid (DOPAC) by HPLC. The concentrations were expressed as synthesis rate (DA/DOPA) and turnover rate (DOPAC/DA). We observed that the spontaneous gnaw movements were significantly different between the untreated IPL nude and Sprague-Dawley (SD) rats. Apomophine injection decreased the amount of stereotyped gnawing in IPL nude rats at the two doses used, but it induced an increase in SD rats. Apomorphine also caused an enhancement in the number of biting and sniffing without modifying the licking behavior. In addition, modifications of the dopaminergic activity were also observed. Synthesis rate in the striatum of IPL nude rats was higher than in SD rats after the injection of saline. Apomorphine caused a reduction of the synthesis rate in both strains. Turnover rate was significantly lower in the striatum of IPL nude rats than in the SD rats injected with saline. Apomorphine caused an increase in the turnover rate in both strains. Contrary to observed in the striatum, the 2 mg/kg dose of apomorphine caused a significant increase in the DA synthesis rate in nucleus accumbens, while 5 mg/kg decrease it in both strains. The DA turnover rate in the same area was lower in IPL nude than in SD rats after saline injection. Apomorphine enhances the DA turnover rate in both strains. We conclude that the modifications of the oral spontaneous and induced stereotypical patterns observed in the IPL nude rats could be related to the differential responses in dopaminergic activity in the two brain areas examined.

Intrinsic and extrinsic influences on play fighting in rats: effects of dominance, partner's playfulness, temperament and neonatal exposure to testosterone propionate

Play fighting is a frequent activity of juvenile rats and appears to show marked variability amongst individuals in that some rats play a great deal and others very little. This study attempted to identify some of the factors involved in producing this individual variability. The major influence over an individual's frequency of play as a juvenile was found to be the frequency of play by the partner. That is, play appears to be contagious, in that a high playing animal stimulates its partner to play frequently as well. In male juveniles, but seemingly not in female juveniles, the subsequent adult status of one partner as dominant influences the subordinate-to-be to initiate more playful contacts. In addition to these extrinsic influences, however, there appear to be intrinsic factors that influence whether an individual is a high or low playing animal. One intrinsic factor appears to be 'boldness', so that bolder animals tend to initiate more playful contacts. Higher players tend to be more susceptible to the stereotypy-inducing effects of the dopamine agonist, apomorphine, and tend to be more dependent upon the playful activity of the partner to maintain their own high levels of play. Both of these characteristics are consistent with other studies comparing bold and timid rats. Boldness, however, only seems to influence how much play a rat will exhibit, not how much play it is capable of exhibiting. Neonatal testosterone augmentation increases juvenile play fighting but not apomorphine susceptibility, suggesting that a high player need not be a bold animal. The total frequency of play an individual is capable of initiating appears to depend upon perinatal exposure to androgens. Boldness and the playfulness of the partner appear to modulate the expression of this hormonally set value.

Behavioural correlates of a progressive dysfunctioning of the caudate nucleus: effects of apomorphine

During the ontogeny of many mammalian species there exists a remarkable resemblance with respect to the strict order in the appearance of distinct motor patterns during development. Moreover, along a cephalocaudal gradient more and more body parts become involved in these motor patterns. The same sequence in motor behaviour can be observed when adult animals start to explore a novel environment. On the other hand, s.c. injections of apomorphine result in a reversed 'ontogenetic' sequence of motor patterns: a 'breakdown' of motor behaviour. The present study investigated whether striatal injections of apomorphine produced a reversed 'breakdown' of a motor pattern sequence. Therefore, cats were tested in a paradigm in which they executed sequences of distinct motor patterns in order to collect food pellets when walking on the belt of a treadmill. As only one of the motor patterns in the sequence is caudate-specific, disturbances at the level of the caudate nucleus as well as disturbances at the level of other brain structures can be distinguished. In contrast to 0.6 and 2.5 micrograms, doses of 5.0 and 10.0 micrograms of apomorphine resulted in the successive breakdown of motor pattern sequences, whereby not only caudate-specific motor patterns were reduced, but also non-caudate-specific motor patterns. Moreover, this regression appeared in the reversed order compared to the order in which distinct patterns are executed during eating behaviour. The regression in motor behaviour following 5.0 micrograms apomorphine was induced via caudate dopamine receptors since it could be prevented by pretreatment with haloperidol. Because of the fact that 5.0 and 10.0 micrograms of apomorphine also affected motor patterns which are not caudate- and dopamine-specific, it is concluded that also brain structures receiving (in)directly caudate output signals are involved in the regression of the motor pattern sequence as observed in the present study. The clinical relevance of the presented data is discussed.

Behavioural and pharmacological characterization of the mouth movements induced by muscarinic agonists in the rat

Pilocarpine administered in doses of 1.25-10.0 mg/kg (IP) produced a variety of mouth movements in the rat. The most frequent of these movements was a chewing behaviour, which increased up to a mean frequency of over 40 per min at the highest doses. Tongue protrusion and gaping also showed dose-dependent increases. Yawning tended to increase in some doses, though these increases were not significant, and yawning was relatively infrequent. Pre-treatment with scopolamine reduced these responses, while pre-treatment with methyl scopolamine did not. Injections of oxotremorine or arecoline, but not carbachol, produced dose-related increases in mouth movements similar to those produced by pilocarpine. These results suggest that mouth movements in the rat are caused by stimulation of central muscarinic receptors. This may prove to be an important behavioural sign of central cholinomimetic activity.

Systematic comparison of apomorphine-induced behavioral changes in two mouse strains with inherited differences in brain dopamine receptors

Dosage and time dependencies of apomorphine-induced changes in stereotyped behaviors (climbing, gnawing and sniffing), locomotor activity and rearing activity were compared in young adult male mice of two inbred strains, DBA/2 and C57BL/6. These two strains are known to differ in their genetically specified brain dopamine receptor number. Apomorphine administered intraperitoneally at dosages of 0.5-20 mg/kg failed to induced stereotyped climbing in DBA/2 at any of the doses tested but markedly increased climbing in C57BL/6 at higher dosages. Apomorphine-induced stereotyped gnawing occurred in both strains at higher dosages although the latency was shorter and maximal effect greater in C57BL/6. Stereotyped sniffing was induced in both strains to a comparable degree at doses greater than or equal to 2.0 mg/kg, and the duration of this stereotypy was indistinguishable between strains. Locomotor activity was inhibited maximally in DBA/2 at an apomorphine dosage of 2 mg/kg and was inhibited to a greater extent than was C57BL/6. Rearing was inhibited in both strains by doses of apomorphine greater than or equal to 0.5 mg/kg; however the duration of the effect was considerably greater in DBA/2 than in C57BL/6. These data suggest that genetically determined differences in central dopamine receptors may have profound and selective effects on behaviors mediated by dopamine pathways; that complex behavioral patterns, e.g., apomorphine-induced stereotypy, may be dissected in to individual components by identifying neuropharmaco genetic differences between strains; that marked strain-specific, inherited differences in dopamine agonist-induced behavioral changes do occur among inbred, non-mutant mouse strains and that their occurrence in other mammalian species including man should be considered.

Behavioral effects of d-amphetamine and apomorphine in the hamster

The effects of d-amphetamine sulfate (0-50 mg/kg) and apomorphine HCl (0-12 mg/kg) on several hamster behaviors were studied. Gnawing, grooming, sniffing, locomoting, circling, rearing, and back arching were measured by direct observation during the period 25-44 min after drug injection. Large doses of d-amphetamine produced significant decreases in grooming and rearing, but significantly increased circling; back arching, sniffing, or gnawing were not affected. Large doses of apomorphine produced significant increases in gnawing and decreases in sniffing, but did not affect grooming, rearing, circling, or back arching. In general, response to either drug was highly variable. The results are discussed in comparison with published data from rats.

Dissociation of stimulation-bound feeding and apomorphine-induced gnawing by lesions of superior colliculus

The intense stereotyped gnawing induced by high doses of apomorphine is almost abolished by large bilateral lesions of the superior colliculus. It has been argued that the feeding produced by electrical stimulation of the lateral hypothalamic area is closely related to dopamine-mediated oral stereotypies; if so, it might be expected that lesions of the superior colliculus would also disrupt stimulation-bound feeding. Feeding was obtained from 14 hypothalamic electrodes in 8 hooded Lister rats. Subsequent electrolytic lesions of the superior colliculus had no overall effect on this behaviour from 13 of the 14 electrodes, even though the lesions reduced the gnawing induced by 8-20 mg/kg apomorphine to less than 10% of its preoperative intensity. It is concluded that stimulation-bound feeding and apomorphine-induced gnawing are not dependent on identical neural circuitry, and therefore stimulation-bound feeding is probably not mediated by the nigrotectal pathway.