23 resultados para Apomorphine
Resumo:
In recent years. studies in behavioral pharmacology have shown the involvement of dopaminergic mechanisms in avoidance behavior as assessed by the two-way active avoidance test (CAR). Changes in dopaminergic transmission also occur in response to particularly threatening challenges. However, studies on the effects of benzodiazepine (BZD) drugs ill this test are still unclear. Given the interplay of dopamine and other neurotransmitters in the neurobiology of anxiety and schizophrenia the aim of this work was to evaluate the effects of systemic administration of midazolam, the dopaminergic agonist apomorphine, and the D(2) receptor antagonist sulpiride using the CAR, a test that shows good sensitivity to typical neuroleptic drugs. Whereas midazolam did not alter the avoidance response. apomorphine increased and sulpiride reduced them in this test. Escape was not affected by any drug treatments. Heightened avoidance was not associated with the increased motor activity caused by apomorphine. In contrast with the benzodiazepine midazolam, activation of post-synaptic D(2) receptors with apomorphine facilitates, whereas the D(2) receptor antagonism with sulpiride inhibited the acquisition of the avoidance behavior. Together, these results bring additional evidence for a role of D(2) mechanisms in the acquisition of the active avoidance. (C) 2009 Elsevier Inc. All rights reserved.
Resumo:
In male rats, the dopamine agonist apomorphine (APO) generally facilitates copulatory behavior. However, disruptive effects of high APO doses have been reported. These have been interpreted in diverse ways, as products of a dopaminergic system that inhibits sexual behavior or as consequences of APO's stimulation of competing responses. To test the generality of these effects, we observed APO's impact on copulatory behavior in male hamsters. Several effects were observed, all attributable to a relatively high dose and involving the disruption of male behavior. More unexpectedly, APO treatment caused males to attack estrous stimulus females in the course of these tests. To clarify these effects, we observed the effects of APO on flank marking, a type of scent marking closely allied to aggression and dominance in hamsters. Treatment reliably decreased the latency of marking. It also increased the rate of marking when appropriate measures were taken to prevent this effect from being obscured by drug-induced cheek pouching. Together, these results confirm and extend APO's well-known ability to increase aggression. Further, they suggest that APO-induced aggression can intrude into other contexts so as to disrupt, or possibly facilitate, other forms of social behavior.
Resumo:
The general dopamine agonist apomorphine has been shown to have mostly facilitative effects on sexual behavior in rodents (Domingues & Hull, 2005; Bitran & Hull, 1987). A study looking at the effectsof apomorphine on sexual behavior in male golden hamsters observed that after systemic injections of apomorphine the males became aggressive towards the estrous females (Floody, unpublished). Studies on aggressive behavior have shown that apomorphine has facilitative effects on aggression in rodents (Nelson & Trainor, 2007; van Erp & Miczek, 2000; Ferrari, van Erp, Tornatzky, & Miczek, 2003). The studies presented here attempt to unravel the effects that apomorphine has on sexual and aggressive behavior in male golden hamsters. Studies 1, 2, 3, and 4 focused on the effects of apomorphine on aggression and Study 5 focused on the effects of apomorphine on sexual behavior. It was important for the purposes ofthis study to have separate, specific measures of aggression and sexual behavior that did not involve a social context that would involve multiple behaviors and motivations. The measure used to assessaggression was flank marking behavior. The measure used to assess sexual behavior was the number of vocalizations in response to sexual stimuli. The results from Studies 1, 2, and 3 suggested thatapomorphine increased aggressive motivation in a dose-dependent manner. In Studies 1 and 2 there was a high occurrence of stereotyped cheek pouching that interfered with the flank marking behavior. In Study 3 the procedure was modified to prevent cheek pouching and flank marking was observed uninhibited. Study 5 suggested a decrease in vocalizations after apomorphine treatment. However, this decrease may have been a result of the increase in stereotyped licking behavior. Results suggested that systemic apomorphine treatments increase aggressive motivation in hamsters. The increase in aggressive motivation may confuse the perception of the sensory signals that the males receive from the estrous females. They may haveperceived the estrous female as a nonestrous female which they would normally associate with an aggressive interaction (Lehman, Powers, & Winans, 1983).
Resumo:
Apomorphine is a dopamine receptor agonist that was recently licensed for the treatment of erectile dysfunction. However, although sexual activity can be stressful, there has been little investigation into whether treatments for erectile dysfunction affect stress responses. We have examined whether a single dose of apomorphine, sufficient to produce penile erections (50 mug/kg, i.a.), can alter basal or stress-induced plasma ACTH levels, or activity of central pathways thought to control the hypothalamic-pituitary-adrenal axis in rats. An immune challenge (interleukin-1beta, 1 mug/kg, i.a.) was used as a physical stressor while sound stress (100 dB white noise, 30 min) was used as a psychological stressor. Intravascular administration of apomorphine had no effect on basal ACTH levels but did substantially increase the number of Fos-positive amygdala and nucleus tractus solitarius catecholamine cells. Administration of apomorphine prior to immune challenge augmented the normal ACTH response to this stressor at 90 min and there was a corresponding increase in the number of Fos-positive paraventricular nucleus corticotropin-releasing factor cells, paraventricular nucleus oxytocin cells and nucleus tractus solitarius catecholamine cells. However, apomorphine treatment did not alter ACTH or Fos responses to sound stress. These data suggest that erection-inducing levels of apomorphine interfere with hypothalamic-pituitary-adrenal axis inhibitory feedback mechanisms in response to a physical stressor, but have no effect on the response to a psychological stressor. Consequently, it is likely that apomorphine acts on a hypothalamic-pituitary-adrenal axis control pathway that is unique to physical stressors. A candidate for this site of action is the nucleus tractus solitarius catecholamine cell population and, in particular, A2 noradrenergic neurons. (C) 2003 Elsevier Science Ltd. All rights reserved.
Resumo:
Rats produce ultrasonic vocalizations that can be categorized into two types of ultrasonic calls based on their sonographic structure. One group contains 22-kHz ultrasonic vocalization (USVs), characterized by relatively constant (flat) frequency with peak frequency ranging from 19 to 28-kHz, and a call duration ranging between 100 – 3000 ms. These vocalization can be induced by cholinomimetic agents injected into the ascending mesolimbic cholinergic system that terminates in the anterior hypothalamic-preoptic area (AH-MPO) and lateral septum (LS). The other group of USVs contains 50-kHz USVs, characterized by high peak frequency, ranging from 39 to 90-kHz, short duration ranging from 10-90 ms, and varying frequency and complex sonographic morphology. These vocalizations can be induced by dopaminergic agents injected into the nucleus accumbens, the target area for the mesolimbic dopaminergic system. 22-kHz USVs are emitted in situations that are highly aversive, such as proximity of a predator or anticipation of a foot shock, while 50 kHz USVs are emitted in rewarding and appetitive situations, such as juvenile play behaviour or anticipation of rewarding electrical brain stimulation. The activities of these two mesolimbic systems were postulated to be antagonistic to each other. The current thesis is focused on the interaction of these systems indexed by emission of relevant USVs. It was hypothesized that emission of 22 kHz USVs will be antagonized by prior activation of the dopaminergic system while emission of 50 kHz will be antagonized by prior activation of the cholinergic system. It was found that injection of apomorphine into the shell of the nucleus accumbens significantly decreased the number of carbachol-induced 22 kHz USVs from both AH-MPO and LS. Injection of carbachol into the LS significantly decreased the number of apomorphine-induced 50 kHz USVs from the shell of the nucleus accumbens. The results of the study supported the main hypotheses that the mesolimbic dopaminergic and cholinergic systems function in antagonism to each other.
Resumo:
Rats produce ultrasonic vocalizations that can be categorized into two types of ultrasonic calls based on their sonographic structure. One group contains 22-kHz ultrasonic vocalization (USVs), characterized by relatively constant (flat) frequency with peak frequency ranging from 19 to 28-kHz, and a call duration ranging between 100 – 3000 ms. These vocalization can be induced by cholinomimetic agents injected into the ascending mesolimbic cholinergic system that terminates in the anterior hypothalamic-preoptic area (AH-MPO) and lateral septum (LS). The other group of USVs contains 50-kHz USVs, characterized by high peak frequency, ranging from 39 to 90-kHz, short duration ranging from 10-90 ms, and varying frequency and complex sonographic morphology. These vocalizations can be induced by dopaminergic agents injected into the nucleus accumbens, the target area for the mesolimbic dopaminergic system. 22-kHz USVs are emitted in situations that are highly aversive, such as proximity of a predator or anticipation of a foot shock, while 50 kHz USVs are emitted in rewarding and appetitive situations, such as juvenile play behaviour or anticipation of rewarding electrical brain stimulation. The activities of these two mesolimbic systems were postulated to be antagonistic to each other. The current thesis is focused on the interaction of these systems indexed by emission of relevant USVs. It was hypothesized that emission of 22 kHz USVs will be antagonized by prior activation of the dopaminergic system while emission of 50 kHz will be antagonized by prior activation of the cholinergic system. It was found that injection of apomorphine into the shell of the nucleus accumbens significantly decreased the number of carbachol-induced 22 kHz USVs from both AH-MPO and LS. Injection of carbachol into the LS significantly decreased the number of apomorphine-induced 50 kHz USVs from the shell of the nucleus accumbens. The results of the study supported the main hypotheses that the mesolimbic dopaminergic and cholinergic systems function in antagonism to each other.
Resumo:
The production of 50 kHz ultrasonic vocalizations in rats has been associated with both positive social interactions and appetitive behavioural situations. Furthermore, there is significant evidence showing that these vocalizations are controlled by the meso-limbic dopamine system. The purpose of this study was to perform a pharmacological analysis of 50 kHz calls by using dopamine and two dopamine agonists amphetamine and apomorphine, to induce calls. The acoustic parameters of the different call types were compared across each agonist. All three agonists were able to significantly induce more 50 kHz vocalizations compared to the vehicle control. Furthermore, calls elicited by apomorphine had a significantly higher bandwidth compared to those elicited by dopamine and amphetamine. All three agonists also had significantly different pharmacokinetic properties. These observations suggest that the D2 receptor sub-type is involved in the length of call bandwidths.
Resumo:
Rats with unilateral lesion of the substantia nigra pars compacta (SNpc) have been used as a model of Parkinson`s disease. Depending on the lesion protocol and on the drug challenge, these rats rotate in opposite directions. The aim of the present study was to propose a model to explain how critical factors determine the direction of these turns. Unilateral lesion of the SNpc was induced with 6-hydroxydopamine (6-OHDA) or 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). Separate analysis showed that neither the type of neurotoxin nor the site of lesion along the nigrostriatal. pathway was able to predict the direction of the turns these rats made after they were challenged with apomorphine. However, the combination of these two factors determined the magnitude of the lesion estimated by tyrosine-hydroxylase immunohistochemistry and HPLC-ED measurement of striatal dopamine. Very small lesions did Dot cause turns, medium-size lesions caused ipsiversive turns, and large lesions caused contraversive turns. Large-size SNpc lesions resulted in an increased binding of [H-3] raclopride to D2 receptors, while medium-size lesions reduced the binding of [H-3]SCH-23390 D1 receptors in the ipsilateral striatum. These results are coherent with the model proposing that after challenged with a dopamine receptor agonist, unilaterally SNpc-lesioned rats rotate toward the side with the weaker activation of dopamine receptors. This activation is weaker on the lesioned side in animals with small SNpc lesions due to the loss of dopamine, but stronger in animals with large lesions due to dopamine receptor supersensitivity. (C) 2008 Elsevier B.V. All rights reserved.
Resumo:
A Doença de Parkinson (DP) é uma das doenças neurodegenerativas mais comuns relacionadas com a idade, e apresenta sintomatologia com alterações motoras clássicas que estão relacionadas com a degeneração dos neurônios dopaminérgicos da SNpc e a diminuição de dopamina no estriado. Modelos animais da DP são instrumentos importantes utilizados por pesquisadores para uma maior compreensão de mecanismos patológicos envolvidos na doença e para a avaliação de possíveis intervenções terapêuticas. Tais modelos devem mimetizar algum aspecto da doença, como a degeneração dos neurônios dopaminérgicos nigrais. Neste contexto, o modelo da DP induzido pela injeção da neurotoxina 6- hidroxidopamina (6-OHDA) já se encontra bem estabelecido em ratos, mas necessita ainda de melhor caracterização das alterações comportamentais e lesões no sistema nigro-estriatal em camundongos de diferentes linhagens a fim de que haja interpretações confiáveis quando o modelo for usado em testes terapêuticos. O presente estudo teve como objetivo melhorar a caracterização do modelo unilateral da DP com 6-OHDA em camundongos suíços, avaliando alterações comportamentais e o efeito sobre os neurônios dopaminérgicos da SNpc. Nesta investigação utilizou-se uma única injeção intraestriatal unilateral de 6-OHDA, em duas diferentes concentrações da toxina: 5µg/µl e 10µg/µl. Os nossos resultados mostraram que ambas as concentrações utilizadas causaram perda severa de neurônios dopaminérgicos na SNpc, com uma média de 74,5% e 89,5% de per da, respectivamente. Esta perda apresentou uma correlação alta com o comportamento rotatório induzido por apomorfina e uma correlação baixa com a ambulação no teste do campo aberto. Desta forma, injeções intraestriatais de 5µg/µl ou 10µg/µl de 6-OHDA, em camundongos suíços, reproduzem de forma efetiva o modelo animal unilateral da DP com 6-OHDA, podendo ser utilizadas de forma confiável em experimentos que visem a investigação de terapias farmacológicas, celulares e/ou de neuroproteção para a DP.
Resumo:
A doença de Parkinson (DP) é caracterizada pela degeneração progressiva dos neurônios dopaminérgicos da substância negra e por presença de sinais clínicos clássicos, tais como bradicinesia, rigidez muscular, tremor em repouso e instabilidade postural. A etiologia ainda é desconhecida e as opções de tratamento disponíveis promovem apenas o alívio dos sintomas. Nesse sentido, os modelos experimentais de DP são fundamentais em estudos visando identificar os eventos moleculares envolvidos na doença e a descoberta de novas terapias neuroprotetoras. Este trabalho utilizou um modelo de hemiparkinsonismo, com lesão induzida por 6- hidroxidopamina (6-OHDA), e investigou os efeitos do extrato aquoso de folhas de mogno (Swietenia macrophylla) sobre as células dopaminérgicas da substância negra pars compacta (SNpc) e sobre parâmetros comportamentais avaliados no teste do campo aberto e no teste de rotações induzidas por apormofina. Os resultados mostraram que os animais lesionados com 6-OHDA apresentaram rotação contralateral induzida por apomorfina e redução significativa dos neurônios dopaminérgicos na SNpc. Entretanto, apenas o grupo injetado com 6-OHDA e tratado com mogno apresentou diminuição significante de neurônios no lado injetado em comparação com o grupo veículo/veículo. Houve também um decréscimo significante na ambulação e na bipedestação no grupo 6-OHDA/mogno. Com isso, nós concluímos que o extrato aquoso de mogno, nas condições utilizadas no presente estudo, potencializou o efeito citotóxico da 6-OHDA e ainda promoveu a piora do quadro comportamental dos animais.
Resumo:
Estudos prévios indicam que o extrato de folhas de mogno Swietenia macrophylla possui composição química rica em substâncias antioxidantes com efeito neuroprotetor em cultura. Um dos principais mecanismos envolvidos na neurodegeração da Doença de Parkinson (DP) é o estresse oxidativo. Portanto, substâncias antioxidantes são candidatas potenciais para terapias que retardem o processo neurodegenerativo da doença. Este estudo tem por objetivo caracterizar os efeitos do extrato de folhas de mogno frente à degeneração nigroestriatal e alterações comportamentais de camundongos expostos a uma única injeção intraestriatal de 6-OHDA unilateralmente. Foram utilizados camundongos machos, os quais foram submetidos à cirurgia estereotáxica para a injeção de 20 μg de 6-OHDA no estriado esquerdo. Os animais foram subdivididos em 4 grupos, de acordo com a dose de extrato de mogno administrada. O extrato foi aplicado por via intraperitoneal nos 7 primeiros dias após a injeção de 6-OHDA nas doses de 0,0 (controle), 0,5 (G1), 1,0 (G2) e 5,0 mg/kg (G3). O grupo controle (GC) recebeu injeções de salina a 0,9% (veículo). Foi feita análise da ambulação no campo aberto antes, no 7º e no 21º dias e do número de rotações induzidas por apomorfina no 7º e no 21º dias após a cirurgia. Avaliação da neurodegeneração foi realizada através da contagem de neurônios dopaminérgicos TH+ na substância negra por estereologia. Como resultado, encontrou-se diferença estatisticamente significativa no 21º dia, onde os grupos G2 e G3 apresentaram redução no comportamento ambulatório em relação aos grupos G1 e GC; este dois últimos tiveram comportamento ambulatório equivalente entre si. Em relação às rotações induzidas por apomorfina, no 21º dia, o G1 apresentou média de rotações significativamente menor do que os grupos GC, G2 e G3. Na contagem de células, G1 apresentou diminuição na perda dos neurônios dopaminérgicos estatisticamente significativa em relação ao controle. Assim, concluímos que o extrato de mogno na concentração de 0,5 mg/kg promoveu neuroproteção na neurodegeneração do sistema nigroestriatal induzida por 6-OHDA.
Resumo:
A doença de Parkinson (DP) é a segunda doença neurodegenerativa mais comum em idosos, caracterizada pela neurodegeneração de neurônios dopaminérgicos da substância negra (SN), com etiologia não claramente estabelecida, entretanto as causas podem estar associadas a exposição de toxinas ambientais e fatores genéticos. Os processos patológicos envolvidos na DP são disfunção mitocondrial, estresse oxidativo, inflamação e excitotoxicidade. A sintomatologia da DP são alterações motoras, cognitivas e autonômicas. Contudo, poucos estudos analisam os sintomas não-motores da DP, principalmente em modelos animais. Nesse contexto o objetivo deste trabalho foi avaliar sintomas não-motores da DP em modelo animal com lesão provocada pela neurotoxina 6-hidroxidopamina com duas doses diferentes, injetadas bilateralmente no estriado. Para alcançar nossos objetivos realizamos os testes de campo aberto, apomorfina, labirinto aquático de Morris e testes de discriminação olfativa, além de análises histológicas. Nossos resultados mostraram alterações motoras, déficits de memória e aprendizado, associadas a diminuição de células dopaminérgicas na SN, neurônios estriatais e neurônios da região hipocampal CA1. Dessa forma, esse modelo para os sintomas não-motores da DP pode ser utilizado para a compreensão dos mecanismos que envolvem a doença, assim como para avaliar medidas terapêuticas que possam retardar ou interromper a progressão da DP.
