The D2 antagonist sulpiride modulates the neural processing of both rewarding and aversive stimuli in healthy volunteers.

Rationale: Animal studies indicate that dopamine pathways in the ventral striatum code for the motivational salience of both rewarding and aversive stimuli, but evidence for this mechanism in humans is less established. We have developed a functional magnetic resonance imaging (fMRI) model which permits examination of the neural processing of both rewarding and aversive stimuli. Objectives: The aim of the study was to determine the effect of the dopamine receptor antagonist, sulpiride, on the neural processing of rewarding and aversive stimuli in healthy volunteers. Methods: We studied 30 healthy participants who were randomly allocated to receive a single dose of sulpiride (400 mg) or placebo, in a double-blind, parallel-group design. We used fMRI to measure the neural response to rewarding (taste or sight of chocolate) and aversive stimuli (sight of mouldy strawberries or unpleasant strawberry taste) 4 h after drug treatment. Results: Relative to placebo, sulpiride reduced blood oxygenation level-dependent responses to chocolate stimuli in the striatum (ventral striatum) and anterior cingulate cortex. Sulpiride also reduced lateral orbitofrontal cortex and insula activations to the taste and sight of the aversive condition. Conclusions: These results suggest that acute dopamine receptor blockade modulates mesolimbic and mesocortical neural activations in response to both rewarding and aversive stimuli in healthy volunteers. This effect may be relevant to the effects of dopamine receptor antagonists in the treatment of psychosis and may also have implications for the possible antidepressant properties of sulpiride.

A comparative study on the effects of the benzodiazepine midazolam and the dopamine agents, apomorphine and sulpiride, on rat behavior in the two-way avoidance test

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.

Effects of maternal exposure to the galactagogue Sulpiride on reproductive parameters in female rats

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Actions of angiotensin II and dopamine in the medial preoptic area on prolactin secretion

Dopamine (DA) is known as a primary regulator of prolactin secretion (PRL) and angiotensin II (Ang II) has been recognized as one brain inhibitory factor of this secretion. In this work, estrogen-primed or unprimed ovariectornized rats were submitted to the microinjection of saline or Ang II after previous microinjection of saline or of DA antagonist (haloperidol, sulpiride or SCH) both in the medial preoptic area (MPOA). Our study of these interactions has shown that 1) estrogen-induced PRL secretion is mediated by Ang II and DA actions in the MPOA, i.e. very high plasma PRL would be prevented by inhibitory action of Ang II, while very low levels would be prevented in part by stimulatory action of DA through D-2 receptors, 2) the inhibitory action of Ang II depends on estrogen and is mediated in part by inhibitory action of DA through D, receptors and in other part by inhibition of stimulatory action of DA through D2 receptors.

Conditioned fear is modulated by D(2) receptor pathway connecting the ventral tegmental area and basolateral amygdala

Excitation of the mesocorticolimbic pathway, originating from dopaminergic neurons in the ventral tegmental area (VTA), may be important for the development of exaggerated fear responding. Among the forebrain regions innervated by this pathway, the amygdala is an essential component of the neural circuitry of conditioned fear. The functional role of the dopaminergic pathway connecting the VIA to the basolateral amygdala (BLA) in fear and anxiety has received little attention. In vivo microdialysis was performed to measure dopamine levels in the BLA of Wistar rats that received the dopamine D(2) agonist quinpirole (1 mu g/0.2 mu l) into the VTA and were subjected to a fear conditioning test using a light as the conditioned stimulus (CS). The effects of intra-BLA injections of the D(1) antagonist SCH 23390 (1 and 2 mu g/0.2 mu l) and D(2) antagonist sulpiride (1 and 2 mu g/0.2 mu l) on fear-potentiated startle (FPS) to a light-CS were also assessed. Locomotor performance was evaluated by use of open-field and rotarod tests. Freezing and increased dopamine levels in the BLA in response to the CS were both inhibited by intra-VTA quinpirole. Whereas intra-BLA SCH 23390 did not affect FPS, intra-BLA sulpiride (2 mu g) inhibited FPS. Sulpiride`s ability to decrease FPS cannot be attributed to nonspecific effects because this drug did not affect motor performance. These findings indicate that the dopamine D(2) receptor pathway connecting the ventral tegmental area and the basolateral amygdala modulates fear and anxiety and may be a novel pharmacological target for the treatment of anxiety. (C) 2010 Elsevier Inc. All rights reserved.

Functional significance of adenosine in carotid body chemosensory activity in control and chronically hypoxic animals

ABSTRACT: Carotid bodies (CB) are peripheral chemoreceptor organs sensing changes in arterial blood O2, CO2 and pH levels. Hypoxia and acidosis or hypercapnia activates CB chemoreceptor cells, which respond by releasing neurotransmitters in order to increase the action potential frequency in their sensory nerve, the carotid sinus nerve (CSN). CSN activity is integrated in the brainstem to induce a fan of cardiorespiratory reflex responses, aimed at normalising the altered blood gases. Exogenously applied adenosine (Ado) increases CSN chemosensory activity inducing hyperventilation through activation of A2 receptors. The importance of the effects of adenosine in chemoreception was reinforced by data obtained in humans, in which the intravenous infusion of Ado causes hyperventilation and dyspnoea, an effect that has been attributed to the activation of CB because Ado does not cross blood-brain barrier and because the ventilatory effects are higher the closer to the CB it is injected. The present work was performed in order to establish the functional significance of adenosine in chemoreception at the carotid body in control and chronically hypoxic rats. To achieve this objective we investigated: 1) The release of adenosine from a rat carotid body in vitro preparation in response to moderate hypoxia and the specificity of this release. We also investigated the metabolic pathways of adenosine production and release in the organ in normoxia and hypoxia; 2) The modulation of adenosine/ATP release from rat carotid body chemoreceptor cells by nicotinic ACh receptors; 3) The effects of caffeine on peripheral control of breathing and the identity of the adenosine receptors involved in adenosine and caffeine effects on carotid body chemoreceptors; 4) The interactions between dopamine D2 receptors and adenosine A2B receptors that modulate the release of catecholamines (CA) from the rat carotid body; 5) The effect of chronic caffeine intake i.e. the continuous blockage of adenosine receptors thereby simulating a caffeine dependence, on the carotid body function in control and chronically hypoxic rats. The methodologies used in this work included: molecular biology techniques (e.g. immunocytochemistry and western-blot), biochemical techniques (e.g. neurotransmitter quantification by HPLC, bioluminescence and radioisotopic methods), electrophysiological techniques (e.g. action potential recordings) and ventilatory recordings using whole-body plethysmography. It was observed that: 1) CB chemoreceptor sensitivity to hypoxia could be related to its low threshold for the release of adenosine because moderate acute hypoxia (10% O2) increased adenosine concentrations released from the CB by 44% but was not a strong enough stimulus to evoke adenosine release from superior cervical ganglia and arterial tissue; 2) Acetylcholine (ACh) modulates the release of adenosine/5’-adenosine triphosphate (ATP) from CB in moderate hypoxia through the activation of nicotinic receptors with α4 and ß2 receptor subunits, suggesting that the excitatory role of ACh in chemosensory activity includes indirect activation of purinergic receptors by adenosine and ATP, which strongly supports the hypothesis that ATP/adenosine are important mediators in chemotransduction; 3) adenosine increases the release of CA from rat CB chemoreceptor cells via A2B receptors; 4) the inhibitory effects of caffeine on CB chemoreceptors are mediated by antagonism of postsynaptic A2A and presynaptic A2B adenosine receptors indicating that chemosensory activity elicited by hypoxia is controlled by adenosine; 5) The release of CA from rat CB chemoreceptor cells is modulated by adenosine through an antagonistic interaction between A2B and D2 receptors, for the first time herein described; 6) chronic caffeine treatment did not significantly alter the basal function of CB in normoxic rats assessed as the dynamics of their neurotransmitters, dopamine, ATP and adenosine, and the CSN chemosensory activity. In contrast, the responses to hypoxia in these animals were facilitated by chronic caffeine intake because it increased the ventilatory response, slightly increased CSN chemosensory activity and increased dopamine (DA) and ATP release; 7) In comparison with normoxic rats, chronically hypoxic rats exhibited an increase in several parameters: ventilatory hypoxic response; basal and hypoxic CSN activity; tyrosine hydroxylase expression, CA content, synthesis and release; basal and hypoxic adenosine release; and in contrast a normal basal release and diminished hypoxia-induced ATP release; 8) Finally, in contrast to chronically hypoxic rats, chronic caffeine treatment did not alter the basal CSN chemosensory activity. Nevertheless, the responses to mild and intense hypoxia, and hypercapnia, were diminished. This inhibitory effect of chronic caffeine in CB output is compensated by central mechanisms, as the minute ventilation parameter in basal conditions and in response to acute hypoxic challenges remained unaltered in rats exposed to chronic hypoxia. We can conclude that adenosine both in acute and chronically hypoxic conditions have an excitatory role in the CB chemosensory activity, acting directly on adenosine A2A receptors present postsynaptically in CSN, and acting presynaptically via A2B receptors controlling the release of dopamine in chemoreceptor cells. We suggest that A2B -D2 adenosine / dopamine interactions at the CB could explain the increase in CA metabolism caused by chronic ingestion of caffeine during chronic hypoxia. It was also concluded that adenosine facilitates CB sensitisation to chronic hypoxia although this effect is further compensated at the central nervous system.-------- RESUMO: Os corpos carotídeos (CB) são pequenos orgãos emparelhados localizados na bifurcação da artéria carótida comum. Estes órgãos são sensíveis a variações na PaO2, PaCO2, pH e temperatura sendo responsáveis pela hiperventilação que ocorre em resposta à hipóxia, contribuindo também para a hiperventilação que acompanha a acidose metabólica e respiratória. As células quimiorreceptoras (tipo I ou glómicas) do corpo carotídeo respondem às variações de gases arteriais libertando neurotransmissores que activam as terminações sensitivas do nervo do seio carotídeo (CSN) conduzindo a informação ao centro respiratório central. Está ainda por esclarecer qual o neurotransmissor (ou os neurotransmissores) responsável pela sinalização hipóxica no corpo carotídeo. A adenosina é um neurotransmissor excitatório no CB que aumenta a actividade eléctrica do CSN induzindo a hiperventilação através da activação de receptores A2. A importância destes efeitos da adenosina na quimiorrecepção, descritos em ratos e gatos, foi reforçada por resultados obtidos em voluntários saudáveis onde a infusão intravenosa de adenosina em induz hiperventilação e dispneia, efeito atribuído a uma activação do CB uma vez que a adenosina não atravessa a barreira hemato-encefálica e o efeito é quanto maior quanto mais perto do CB for a administração de adenosina. O presente trabalho foi realizado com o objectivo de esclarecer qual o significado funcional da adenosina na quimiorrecepção no CB em animais controlo e em animais submetidos a hipoxia crónica mantida. Para alcançar este objectivo investigou-se: 1) o efeito da hipóxia moderada sobre a libertação de adenosina numa preparação in vitro de CB e a especificidade desta mesma libertação comparativamente com outros tecidos não quimiossensitivos, assim como as vias metabólicas de produção e libertação de adenosina no CB em normoxia e hipóxia; 2) a modulação da libertação de adenosina/ATP das células quimiorreceptoras do CB por receptores nicotínicos de ACh; 3) os efeitos da cafeína no controlo periférico da ventilação e a identidade dos receptores de adenosina envolvidos nos efeitos da adenosina e da cafeína nos quimiorreceptores do CB; 4) as interacções entre os receptores D2 de dopamina e os receptores A2B de adenosina que modulam a libertação de catecolaminas (CA) no CB de rato e; 5) o efeito da ingestão crónica de cafeína, isto é, o contínuo bloqueio e dos receptores de adenosina, simulando assim o consumo crónico da cafeína, tal como ocorre na população humana mundial e principalmente no ocidente, na função do corpo carotídeo em ratos controlo e em ratos submetidos a hipoxia crónica. Os métodos utilizados neste trabalho incluíram: técnicas de biologia molecular como imunocitoquímica e western-blot; técnicas bioquímicas, tais como a quantificação de neurotransmissores por HPLC, bioluminescência e métodos radioisotópicos; técnicas electrofisiológicas como o registro de potenciais eléctricos do nervo do seio carotídeo in vitro; e registros ventilatórios in vivo em animais não anestesiados e em livre movimento (pletismografia). Observou-se que: 1) a especificidade dos quimiorreceptores do CB como sensores de O2 está correlacionada com o baixo limiar de libertação de adenosina em resposta à hipóxia dado que a libertação de adenosina do CB aumenta 44% em resposta a uma hipóxia moderada (10% O2), que no entanto não é um estímulo suficientemente intenso para evocar a libertação de adenosina do gânglio cervical superior ou do tecido arterial. Observou-se também que aproximadamente 40% da adenosina libertada pelo CB provém do catabolismo extracelular do ATP quer em normóxia quer em hipóxia moderada, sendo que PO2 reduzidas induzem a libertação de adenosina via activação do sistema de transporte equilibrativo ENT1. 2) a ACh modula a libertação de adenosina /ATP do CB em resposta à hipoxia moderada sugerindo que o papel excitatório da ACh na actividade quimiossensora inclui a activação indirecta de receptores purinérgicos pela adenosina e ATP, indicando que a adenosina e o ATP poderiam actuar como mediadores importantes no processo de quimiotransducção uma vez que: a) a activação dos receptores nicotínicos de ACh no CB em normóxia estimula a libertação de adenosina (max 36%) provindo aparentemente da degradação extracelular do ATP. b) a caracterização farmacológica dos receptores nicotínicos de ACh envolvidos na estimulação da libertação de adenosina do CB revelou que os receptores nicotínicos de ACh envolvidos são constituídos por subunidades α4ß2. 3) a adenosina modula a libertação de catecolaminas das células quimiorreceptoras do CB através de receptores de adenosina A2B dado que: a)a cafeína, um antagonista não selectivo dos receptores de adenosina, inibiu a libertação de CA quer em normóxia quer em resposta a estímulos de baixa intensidade sendo ineficaz na libertação induzida por estímulos de intensidade superior; b) o DPCPX e do MRS1754 mimetizaram os efeitos da cafeína no CB sendo o SCH58621 incapaz de induzir a libertação de CA indicando que os efeitos da cafeína seriam mediados por receptores A2B de adenosina cuja presença nas células quimiorreceptoras do CB demonstramos por imunocitoquímica. 4) a aplicação aguda de cafeína inibiu em 52% a actividade quimiossensora do CSN induzida pela hipóxia sendo este efeito mediado respectivamente por receptores de adenosina A2A pós-sinápticos e A2B pré-sinápticos indicando que a actividade quimiossensora induzida pela hipóxia é controlada pela adenosina. 5) existe uma interacção entre os receptores A2B e D2 que controla a libertação de CA do corpo carotídeo de rato uma vez que: a) os antagonistas dos receptores D2, domperidona e haloperidol, aumentaram a libertação basal e evocada de CA das células quimiorreceptoras confirmando a presença de autorreceptores D2 no CB de rato que controlam a libertação de CA através de um mecanismo de feed-back negativo. b) o sulpiride, um antagonista dos receptores D2, aumentou a libertação de CA das células quimiorreceptoras revertendo o efeito inibitório da cafeína sobre esta mesma libertação; c) a propilnorapomorfina, um agonista D2 inibiu a libertação basal e evocada de CA sendo este efeito revertido pela NECA, um agonista dos receptores A2B. O facto de a NECA potenciar o efeito do haloperidol na libertação de CA sugere que a interacção entre os receptores D2 e A2B poderia também ocorrer ao nível de segundos mensageiros, como o cAMP. 6) a ingestão crónica de cafeína em ratos controlo (normóxicos) não alterou significativamente a função basal do CB medida como a dinâmica dos seus neurotransmissores, dopamina, ATP e adenosina e como actividade quimiossensora do CSN. Contrariamente aos efeitos basais, a ingestão crónica de cafeína facilitou a resposta à hipóxia, dado que aumentou o efeito no volume minuto respiratórioapresentando-se também uma clara tendência para aumentar a actividade quimiossensora do CSN e aumentar a libertação de ATP e dopamina.7) após um período de 15 dias de hipóxia crónica era evidente o fenómeno de aclimatização dado que as respostas ventilatórias à hipóxia se encontram aumentadas, assim como a actividade quimiossensora do CSN basal e induzida pela hipóxia. As alterações observadas no metabolismo da dopamina, assim como na libertação basal de dopamina e de adenosina poderiam contribuir para a aclimatização durante a hipoxia crónica. A libertação aumentada de adenosina em resposta à hipóxia aguda em ratos hipóxicos crónicos sugere um papel da adenosina na manutenção/aumento das respostas ventilatórias à hipóxia aguda durante a hipóxia crónica. Observou-se também que a libertação de ATP induzida pela hipóxia aguda se encontra diminuída em hipóxia crónica, contudo a ingestão crónica de cafeína reverteu este efeito para valores similares aos valores controlo, sugerindo que a adenosina possa modular a libertação de ATP em hipóxia crónica. 8) a ingestão crónica de cafeína em ratos hipóxicos crónicos induziu o aumento do metabolismo de CA no CB, medido como expressão de tirosina hidroxilase, conteúdo, síntese e libertação de CA. 9) a ingestão crónica de cafeína não provocou quaisquer alterações na actividade quimiossensora do CSN em ratos hipóxicos crónicos no entanto, as respostas do CSN à hipóxia aguda intensa e moderada e à hipercapnia encontram-se diminuídas. Este efeito inibitório que provém da ingestão crónica de cafeína parece ser compensado ao nível dos quimiorreceptores centrais dado que os parâmetros ventilatórios em condições basais e em resposta à hipoxia aguda não se encontram modificados em ratos expostos durante 15 dias a uma atmosfera hipóxica. Resumindo podemos assim concluir que a adenosina quer em situações de hipoxia aguda quer em condições de hipoxia crónica tem um papel excitatório na actividade quimiossensora do CB actuando directamente nos receptores A2A presentes pós-sinapticamente no CSN, assim como facilitando a libertação de dopamina pré-sinapticamente via receptores A2B presentes nas células quimiorreceptoras. A interacção negativa entre os receptores A2B e D2 observadas nas células quimiorreceptoras do CB poderia explicar o aumento do metabolismo de CA observado após a ingestão crónica de cafeína em animais hipóxicos. Conclui-se ainda que durante a aclimatização à hipóxia a acção inibitória da cafeína, em termos de resposta ventilatória, mediada pelos quimiorreceptores periféricos é compensada pelos efeitos excitatórios desta xantina ao nível do quimiorreceptores centrais.------- RESUMEN Los cuerpos carotídeos (CB) son órganos emparejados que están localizados en la bifurcación de la arteria carótida común. Estos órganos son sensibles a variaciones en la PaO2, en la PaCO2, pH y temperatura siendo responsables de la hiperventilación que ocurre en respuesta a la hipoxia, contribuyendo también a la hiperventilación que acompaña a la acidosis metabólica y respiratoria. Las células quimiorreceptoras (tipo I o glómicas) del cuerpo carotídeo responden a las variaciones de gases arteriales liberando neurotransmissores que activan las terminaciones sensitivas del nervio del seno carotídeo (CSN) llevando la información al centro respiratorio central. Todavía esta por clarificar cual el neurotransmisor (o neurotransmisores) responsable por la señalización hipóxica en el CB. La adenosina es un neurotransmisor excitatório en el CB ya que aumenta la actividad del CSN e induce la hiperventilación a través de la activación de receptores de adenosina del subtipo A2. La importancia de estos efectos de la adenosina en la quimiorrecepción, descritos en ratas y gatos, ha sido fuertemente reforzada por resultados obtenidos en voluntarios sanos en los que la infusión intravenosa de adenosina induce hiperventilación y dispnea, efectos estés que han sido atribuidos a una activación del CB ya que la adenosina no cruza la barrera hemato-encefalica y el efecto es tanto más grande cuanto más cercana del CB es la administración. Este trabajo ha sido realizado con el objetivo de investigar cual el significado funcional de la adenosina en la quimiorrecepción en el CB en animales controlo y en animales sometidos a hipoxia crónica sostenida. Para alcanzar este objetivo se ha estudiado: 1) el efecto de la hipoxia moderada en la liberación de adenosina en una preparación in vitro de CB y la especificidad de esta liberación en comparación con otros tejidos no-quimiosensitivos, así como las vías metabólicas de producción y liberación de adenosina del órgano en normoxia y hipoxia; 2) la modulación de la liberación de adenosina/ATP de las células quimiorreceptoras del CB por receptores nicotínicos de ACh; 3) los efectos de la cafeína en el controlo periférico de la ventilación y la identidad de los receptores de adenosina involucrados en los efectos de la adenosina y cafeína en los quimiorreceptores del CB; 4) las interacciones entre los receptores D2 de dopamina y los receptores A2B de adenosina que modulan la liberación de catecolaminas (CA) en el CB de rata y; 5) el efecto de la ingestión crónica de cafeína, es decir, el bloqueo sostenido de los receptores de adenosina, simulando la dependencia de cafeína observada en la populación mundial del occidente, en la función del CB en ratas controlo y sometidas a hipoxia crónica sostenida. Los métodos utilizados en este trabajo incluirán: técnicas de biología molecular como imunocitoquímica y western-blot; técnicas bioquímicas, tales como la cuantificación de neurotransmissores por HPLC, bioluminescencia y métodos radioisotópicos; técnicas electrofisiológicas como el registro de potenciales eléctricos del nervio do seno carotídeo in vitro; y registros ventilatórios in vivo en animales no anestesiados y en libre movimiento (pletismografia). Se observó que: 1) la sensibilidad de los quimiorreceptores de CB esta correlacionada con un bajo umbral de liberación de adenosina en respuesta a la hipoxia ya que en respuesta a una hipoxia moderada (10% O2) la liberación de adenosina en el CB aumenta un 44%, sin embargo esta PaO2 no es un estimulo suficientemente fuerte para inducir la liberación de adenosina del ganglio cervical superior o del tejido arterial; se observó también que aproximadamente 40% de la adenosina liberada del CB proviene del catabolismo extracelular del ATP en normoxia y en hipoxia moderada, y que bajas PO2 inducen la liberación de adenosina vía activación del sistema de transporte equilibrativo ENT1. 2) la ACh modula la liberación de adenosina /ATP del CB en respuesta a la hipóxia moderada lo que sugiere que el papel excitatório de la ACh en la actividad quimiosensora incluye la activación indirecta de receptores purinérgicos por la adenosina y el ATP, indicando que la adenosina y el ATP pueden actuar como mediadores importantes en el proceso de quimiotransducción ya que: a) la activación de los receptores nicotínicos de ACh en el CB en normoxia estimula la liberación de adenosina (max 36%) que aparentemente proviene de la degradación extracelular del ATP. Se observó también que este aumento de adenosina en el CB en hipoxia ha sido antagonizado parcialmente por antagonistas de estos mismos receptores; b) la caracterización farmacológica de los receptores nicotínicos de ACh involucrados en la estimulación de la liberación de adenosina del CB ha revelado que los receptores nicotínicos de ACh involucrados son constituidos por sub-unidades α4ß2. 3) la adenosina modula la liberación de CA de las células quimiorreceptoras del CB a través de receptores de adenosina A2B ya que: a) la cafeína, un antagonista no selectivo de los receptores de adenosina, ha inhibido la liberación de CA en normoxia y en respuesta a estímulos de baja intensidad siendo ineficaz en la liberación inducida por estímulos de intensidad superior; b) el DPCPX y el MRS1754 ha mimetizado los efectos de la cafeína en el CB y el SCH58621 ha sido incapaz de inducir la liberación de CA lo que sugiere que los efectos de la cafeína son mediados por receptores A2B de adenosina que están localizados pré-sinapticamente en las células quimiorreceptoras del CB. 4) la aplicación aguda de cafeína ha inhibido en 52% la actividad quimiosensora del CSN inducida por la hipoxia siendo este efecto mediado respectivamente por receptores de adenosina A2A pós-sinápticos y A2B pré-sinápticos lo que indica que la actividad quimiosensora inducida por la hipoxia es controlada por la adenosina. 5) existe una interacción entre los receptores A2B y D2 que controla la liberación de CA del CB de rata ya que: a) el sulpiride, un antagonista de los receptores D2, ha aumentado la liberación de CA de las células quimiorreceptoras revertiendo el efecto inhibitorio de la cafeína sobre esta misma liberación; b) los antagonistas de los receptores D2, domperidona y haloperidol, han aumentado la liberación basal e evocada de CA de las células quimiorreceptoras confirmando la presencia de autorreceptores D2 en el CB de rata que controlan la liberación de CA a través de un mecanismo de feed-back negativo; c) la propilnorapomorfina, un agonista D2, ha inhibido la liberación basal e evocada de CA sendo este efecto revertido por la NECA, un agonista de los receptores A2B. Ya que la NECA potencia el efecto del haloperidol en la liberación de CA la interacción entre los D2 y A2B puede también ocurrir al nivel de segundos mensajeros, como el cAMP. 6) la ingestión crónica de cafeína en ratas controlo (normóxicas) no ha cambiado significativamente la función basal del CB medida como la dinámica de sus neurotransmisores, dopamina, ATP y adenosina y como actividad quimiosensora del CSN. Al revés de lo que pasa con los efectos básales, la ingestión crónica de cafeína facilitó la respuesta a la hipóxia, ya que ha aumentado la respuesta ventilatória medida como volumen minuto presentando también una clara tendencia para aumentar la actividad quimiosensora del CSN y aumentar la liberación de ATP y dopamina. 7. Después de un período de 15 días de hipoxia crónica se puede observar el fenómeno de climatización ya que las respuestas ventilatórias a la hipoxia están aumentadas, así como la actividad quimiosensora del CSN basal e inducida por la hipoxia. Los cambios observados en el metabolismo de la dopamina, así como en la liberación basal de dopamina y de adenosina podrían contribuir para la climatización en hipoxia crónica. El aumento en la liberación de adenosina en respuesta a la hipoxia aguda en ratas sometidas a hipoxia crónica sugiere un papel para la adenosina en el mantenimiento/aumento de las respuestas ventilatórias a la hipoxia aguda en hipoxia crónica sostenida. Se ha observado también que la liberación de ATP inducida por la hipoxia aguda está disminuida en hipoxia crónica y que la ingestión crónica de cafeína reverte este efecto para valores similares a los valores controlo, sugiriendo que la adenosina podría modular la liberación de ATP en hipoxia crónica. 8. la ingestión crónica de cafeína ha inducido el aumento del metabolismo de CA en el CB en ratas hipóxicas crónicas, medido como expresión de la tirosina hidroxilase, contenido, síntesis y liberación de CA. 9. la ingestión crónica de cafeína no ha inducido cambios en la actividad quimiosensora del CSN en ratas hipóxicas crónicas sin embargo las respuestas do CSN a una hipoxia intensa y moderada y a la hipercapnia están disminuidas. Este efecto inhibitorio que es debido a la ingestión crónica de cafeína es compensado al nivel de los quimiorreceptores centrales ya que los parámetros ventilatórios en condiciones básales y en respuesta a la hipoxia aguda no están modificados en ratas expuestas durante 15 días a una atmósfera hipóxica. Resumiendo se puede concluir que la adenosina en situaciones de hipoxia aguda así como en hipoxia crónica tiene un papel excitatório en la actividad quimiosensora del CB actuando directamente en los receptores A2A localizados pós-sinapticamente en el CSN, así como controlando la liberación de dopamina pré-sinaptica vía receptores A2B localizados en las células quimiorreceptoras. Las interacciones entre los receptores A2B y D2 observadas en las células quimiorreceptoras del CB podrían explicar el aumento del metabolismo de CA observado después de la ingestión crónica de cafeína en animales hipóxicos. Por fin, pero no menos importante se puede concluir que durante la climatización a la hipoxia la acción inhibitoria de la cafeína, medida como respuesta ventilatória, mediada por los quimiorreceptores periféricos es compensada por los efectos excitatórios de esta xantina al nivel de los quimiorreceptores centrales.

Chronic effect of antidopaminergic drugs or estrogen on male Wistar rat lactotrophs and somatotrophs

The aim of the present study was to evaluate the effect of antidopaminergic agents on the somatotrophs in the presence of hyperprolactinemia. Adult male Wistar rats were divided into 6 groups: a control group and five groups chronically treated (60 days) with haloperidol, fluphenazine, sulpiride, metoclopramide or estrogen. Somatotrophs and lactotrophs were identified by immunohistochemistry and the data are reported as percent of total anterior pituitary cells counted. The drugs significantly increased the percentage of lactotrophs: control (mean ± SD) 21.3 ± 4.4, haloperidol 27.8 ± 2.2, fluphenazine 34.5 ± 3.6, sulpiride 32.7 ± 3.5, metoclopramide 33.4 ± 5.5 and estrogen 42.4 ± 2.8. A significant reduction in somatotrophs was observed in animals treated with haloperidol (23.1 ± 3.0), fluphenazine (22.1 ± 1.1) and metoclopramide (24.2 ± 3.0) compared to control (27.3 ± 3.8), whereas no difference was observed in the groups treated with sulpiride (25.0 ± 2.2) and estrogen (27.1 ± 2.8). In the groups in which a reduction occurred, this may have simply been due to dilution, secondary to lactotroph hyperplasia. In view of the duplication of the percentage of prolactin-secreting cells, when estrogen was applied, the absence of a reduction in the percent of somatotrophs suggests a replication effect on this cell population. These data provide additional information about the direct or indirect effect of drugs which, in addition to interfering with the dopaminergic system, may act on other pituitary cells as well as on the lactotrophs.

Dopaminergic modulation of grooming behavior in virgin and pregnant rats

Dopamine receptors are involved in the expression of grooming behavior. The pregnancy-induced increase in self-licking observed in rats is important for mammary gland development and lactation. This study focuses on the role of dopamine receptor subtypes in grooming behavior of virgin and pregnant female rats. General and mammary gland grooming were measured in virgin rats treated with 0.25 mg/kg of the D1-like agonist SKF-81297 and antagonist SKF-83566 and the D2-like agonist lisuride and antagonist sulpiride. The effects of 0.01 and 0.25 mg/kg doses of the same agonists and antagonists were evaluated in pregnant rats as well. In virgin animals both SKF-83566 and sulpiride treatments significantly reduced the time spent in general grooming, while none of the dopamine agonists was able to significantly change any parameter of general grooming. Time spent in grooming directed at the mammary glands was not affected significantly by any of the drug treatments in virgin rats. All drugs tested significantly decreased the frequency of and the time spent with general grooming, while SKF-81297 treatment alone did not significantly reduce the duration of mammary gland grooming in pregnant rats. These data show that in female rats the behavioral effects of D1-like and D2-like dopamine receptor stimulation and blockade differ according to physiological state. The results suggest that dopamine receptors may play specific roles modulating grooming behavior in pregnant rats. Since grooming of the mammary gland during pregnancy may influence lactation, this aspect is relevant for studies regarding the perinatal use of dopamine-related drugs.

Antidepressant-like effect of Hoodia gordonii in a forced swimming test in mice: evidence for involvement of the monoaminergic system

Hoodia gordonii is a plant species used traditionally in southern Africa to suppress appetite. Recently, it has been associated with a significant increase in blood pressure and pulse rate in women, suggesting sympathomimetic activity. The present study investigated the possible antidepressant-like effects of acute and repeated (15 days) administration of H. gordonii extract (25 and 50 mg/kg, po) to mice exposed to a forced swimming test (FST). Neurochemical analysis of brain monoamines was also carried out to determine the involvement of the monoaminergic system on these effects. Acute administration of H. gordonii decreased the immobility of mice in the FST without accompanying changes in general activity in the open-field test during acute treatment, suggesting an antidepressant-like effect. The anti-immobility effect of H. gordonii was prevented by pretreatment of mice with PCPA [an inhibitor of serotonin (5-HT) synthesis], NAN-190 (a 5-HT1A antagonist), ritanserin (a 5-HT2A/2C antagonist), ondansetron (a 5-HT3A antagonist), prazosin (an α1-adrenoceptor antagonist), SCH23390 (a D1 receptor antagonist), yohimbine (an α2-adrenoceptor antagonist), and sulpiride (a D2 receptor antagonist). A significant increase in 5-HT levels in the striatum was detected after acute administration, while 5-HT, norepinephrine and dopamine were significantly elevated after chronic treatment. Results indicated that H. gordonii possesses antidepressant-like activity in the FST by altering the dopaminergic, serotonergic, and noradrenergic systems.

Dopaminergic Regulation of Glucose-induced Insulin Secretion through Dopamine D2 Receptors in the Pancreatic Islets In Vitro

The stimulatory effect of dopamine through dopamine 1)2 receptor on glucose - induced insulin secretion was studied in the pancreatic islets in nitro. I)oparnilie signifieanlly stimula(ed insulin secretion at a concentration of 10 a N1 in the presence of high,glucose ( 20 nii1 ). ' fhe higher concentrations of dopamine (111 -1() 4) inhibited glucose- induced insulin secretion in the presence of both 4 mM1 and 20 m M glucose. Stimulatory and inhibitory effect of dopamine on glucose - induced insulin secretion was reverted by the addition of dopamine 1)2 receptor antagonists such as butaclamol and sulpiride . Norepinephrine (NE) at 111 4 11 concentration inhibited the dopamine uptake as well as its stimulatory effect at 11) - 8 IN1 concentration on glucose induced insulin secretion. Our results suggest that dopamine exerts a differential effect on glucose -induced insulin secretion through dopamine D2 receptor and it is essential for the regulation of glucose-induced insulin secretion by pancreatic islets.

Enhanced dopamine D2 receptor function in hypothalamus and corpus striatum: their role in liver, plasma and in vitro hepatocyte ALDH regulation in ethahol treated rats

Dopamine D2 receptors are involved in ethanol self- administration behavior and also suggested to mediate the onset and offset of ethanol drinking. In the present study, we investigated dopamine (DA) content and Dopamine D2 (DA D2) receptors in the hypothalamus and corpus striatum of ethanol treated rats and aldehyde dehydrogenase (ALDH) activity in the liver and plasma of ethanol treated rats and in vitro hepatocyte cultures. Hypothalamic and corpus striatal DA content decreased significantly (P\0.05, P\0.001 respectively) and homovanillic acid/ dopamine (HVA/DA) ratio increased significantly (P\0.001) in ethanol treated rats when compared to control. Scatchard analysis of [3H] YM-09151-2 binding to DA D2 receptors in hypothalamus showed a significant increase (P\0.001) in Bmax without any change in Kd in ethanol treated rats compared to control. The Kd of DA D2 receptors significantly decreased (P\0.05) in the corpus striatum of ethanol treated rats when compared to control. DA D2 receptor affinity in the hypothalamus and corpus striatum of control and ethanol treated rats fitted to a single site model with unity as Hill slope value. The in vitro studies on hepatocyte cultures showed that 10-5 M and 10-7 M DA can reverse the increased ALDH activity in 10% ethanol treated cells to near control level. Sulpiride, an antagonist of DA D2, reversed the effect of dopamine on 10% ethanol induced ALDH activity in hepatocytes. Our results showed a decreased dopamine concentration with enhanced DA D2 receptors in the hypothalamus and corpus striatum of ethanol treated rats. Also, increased ALDH was observed in the plasma and liver of ethanol treated rats and in vitro hepatocyte cultures with 10% ethanol as a compensatory mechanism for increased aldehyde production due to increased dopamine metabolism. A decrease in dopamine concentration in major brain regions is coupled with an increase in ALDH activity in liver and plasma, which contributes to the tendency for alcoholism. Since the administration of 10-5 M and 10-7 M DA can reverse the increased ALDH activity in ethanol treated cells to near control level, this has therapeutic application to correct ethanol addicts from addiction due to allergic reaction observed in aldehyde accumulation.

Agonist-dependent internalization of D2 receptors: imaging quantification by confocal microscopy

In positron emission tomography and single photon emission computed tomography studies using D2 dopamine (DA) receptor radiotracers, a decrease in radiotracer binding potential (BP) is usually interpreted in terms of increased competition with synaptic DA. However, some data suggest that this signal may also reflect agonist (DA)-induced increases in D2 receptor (D2R) internalization, a process which would presumably also decrease the population of receptors available for binding to hydrophilic radioligands. To advance interpretation of alterations in D2 radiotracer BP, direct methods of assessment of D2R internalization are required. Here, we describe a confocal microscopy-based approach for the quantification of agonist-dependent receptor internalization. The method relies upon double-labeling of the receptors with antibodies directed against intracellular as well as extracellular epitopes. Following agonist stimulation, DA D2R internalization was quantified by differentiating, in optical cell sections, the signal due to the staining of the extracellular from intracellular epitopes of D2Rs. Receptor internalization was increased in the presence of the D2 agonists DA and bromocriptine, but not the D1 agonist SKF38393. Pretreatment with either the D2 antagonist sulpiride, or inhibitors of internalization (phenylarsine oxide and high molarity sucrose), blocked D2-agonist induced receptor internalization, thus validating this method in vitro. This approach therefore provides a direct and streamlined methodology for investigating the pharmacological and mechanistic aspects of D2R internalization, and should inform the interpretation of results from in vivo receptor imaging studies.

Mechanisms of inverse agonist action at D-2 dopamine receptors

1 Mechanisms of inverse agonist action at the D-2(short) dopamine receptor have been examined. 2 Discrimination of G-protein-coupled and -uncoupled forms of the receptor by inverse agonists was examined in competition ligand-binding studies versus the agonist [H-3]NPA at a concentration labelling both G-protein-coupled and -uncoupled receptors. 3 Competition of inverse agonists versus [H-3] NPA gave data that were fitted best by a two-binding site model in the absence of GTP but by a one-binding site model in the presence of GTP. K-i values were derived from the competition data for binding of the inverse agonists to G-protein-uncoupled and -coupled receptors. K-coupled and K-uncoupled were statistically different for the set of compounds tested ( ANOVA) but the individual values were different in a post hoc test only for (+)-butaclamol. 4 These observations were supported by simulations of these competition experiments according to the extended ternary complex model. 5 Inverse agonist efficacy of the ligands was assessed from their ability to reduce agonist-independent [S-35]GTPγ S binding to varying degrees in concentration-response curves. Inverse agonism by (+)-butaclamol and spiperone occurred at higher potency when GDP was added to assays, whereas the potency of (-)-sulpiride was unaffected. 6 These data show that some inverse agonists ((+)-butaclamol, spiperone) achieve inverse agonism by stabilising the uncoupled form of the receptor at the expense of the coupled form. For other compounds tested, we were unable to define the mechanism.

The reproductive response of rams to thyroidectomy: mediation by impaired inhibin feedback rather than a change in LH pulsatility

A series of experiments was conducted to examine the mechanism by which removal of the thyroid glands in seasonally suppressed rams brings about rapid testicular growth. In the first experiment, thyroidectomy at the nadir of the testicular cycle (late winter) initiated testis growth without any detectable change in the extent of spermatogenesis compared with sham-operated controls. The serum concentration of FSH, but not LH, was also markedly increased by thyroidectomy. In the second experiment, serum FSH concentration was again increased by thyroidectomy in late winter but there was no effect of thyroidectomy on LH concentration, LH pulses (measured in frequent blood samples) or testosterone concentration. Furthermore, there was no evidence of a change in central dopaminergic inhibition of GnRH, as measured by the pulsatile LH response to an i.m. injection of the dopaminergic D-2 agonist bromocriptine or antagonist sulpiride. The rapid increase in FSH concentration occurred despite a markedly increased serum inhibin A concentration in thyroidectomized rams. Therefore, the efficacy of inhibin feedback was examined by testing the FSH-suppressive effect of an inhibin preparation (5 ml charcoal-stripped bovine follicular fluid i.v.) in long-term thyroidectomized and thyroid intact castrated rams. Bovine follicular fluid suppressed FSH concentrations in control rams as expected but in marked contrast, was completely without effect in thyroidectomized animals. In castrated rams, the FSH concentration was only marginally increased by thyroidectomy, indicating that there is a major component of the mediation of the effects of thyroidectomy that is testicular in origin. It was concluded that a reduction in the ability of endogenous inhibin to inhibit FSH release at the pituitary, rather than a hypothalamic mechanism, is the primary cause of the stimulation of testis growth by thyroidectomy.

Mechanisms of inverse agonist action at D-2 dopamine receptors

1 Mechanisms of inverse agonist action at the D-2(short) dopamine receptor have been examined. 2 Discrimination of G-protein-coupled and -uncoupled forms of the receptor by inverse agonists was examined in competition ligand-binding studies versus the agonist [H-3]NPA at a concentration labelling both G-protein-coupled and -uncoupled receptors. 3 Competition of inverse agonists versus [H-3] NPA gave data that were fitted best by a two-binding site model in the absence of GTP but by a one-binding site model in the presence of GTP. K-i values were derived from the competition data for binding of the inverse agonists to G-protein-uncoupled and -coupled receptors. K-coupled and K-uncoupled were statistically different for the set of compounds tested ( ANOVA) but the individual values were different in a post hoc test only for (+)-butaclamol. 4 These observations were supported by simulations of these competition experiments according to the extended ternary complex model. 5 Inverse agonist efficacy of the ligands was assessed from their ability to reduce agonist-independent [S-35]GTPγ S binding to varying degrees in concentration-response curves. Inverse agonism by (+)-butaclamol and spiperone occurred at higher potency when GDP was added to assays, whereas the potency of (-)-sulpiride was unaffected. 6 These data show that some inverse agonists ((+)-butaclamol, spiperone) achieve inverse agonism by stabilising the uncoupled form of the receptor at the expense of the coupled form. For other compounds tested, we were unable to define the mechanism.