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1.
Basic Clin Pharmacol Toxicol ; 109(3): 203-7, 2011 Sep.
Article in English | MEDLINE | ID: mdl-21496211

ABSTRACT

Adenosinergic systems have been implicated in anxiety-like states, as caffeine can induce a state of anxiety in human beings. Caffeine is an antagonist at A(1) and A(2) adenosine receptors but it remains unclear whether anxiety is mediated by one or both of these. As the adenosinergic system is rather conserved, we opted to pursue these questions using zebrafish, a widely used model organism in genetics and developmental biology. Zebrafish adenosine 1. 2A.1 and 2A.2 receptors conserve histidine residues in TM6 and TM7 that are responsible for affinity in bovine A1 receptor. We investigated the effects of caffeine, PACPX (an A(1) receptor antagonist) and 1,3-dimethyl-1-propargylxanthine (DMPX) (an A(2) receptor antagonist) on anxiety-like behaviour and locomotor activity of zebrafish in the scototaxis test as well as evaluated the effects of these drugs on pigment aggregation. Caffeine increased anxiety at the dose of 100 mg/kg, while locomotion at the dose of 10 mg/kg was increased. Both doses of 10 and 100 mg/kg induced pigment aggregation. PACPX, on the other hand, increased anxiety at a dose of 6 mg/kg and induced pigment aggregation at the doses of 0.6 and 6 mg/kg, but did not produce a locomotor effect. DMPX, in turn, increased locomotion at the dose of 6 mg/kg but did not produce any effect on pigment aggregation or anxiety-like behaviour. These results indicate that blockade of A(1)-R, but not A(2)-R, induces anxiety and autonomic arousal, while the blockade of A(2)-R induces hyperlocomotion. Thus, as in rodents, caffeine's anxiogenic and arousing effects are probably mediated by A(1) receptors in zebrafish and its locomotor activating effect is probably mediated by A(2) receptors.


Subject(s)
Adenosine A1 Receptor Antagonists/pharmacology , Anxiety/chemically induced , Arousal/drug effects , Caffeine/pharmacology , Receptor, Adenosine A1/physiology , Zebrafish/metabolism , Adenosine A2 Receptor Antagonists/pharmacology , Animals , Anxiety/metabolism , Behavior, Animal/drug effects , Cattle , Darkness , Dose-Response Relationship, Drug , Melanophores/metabolism , Mice , Molecular Sequence Data , Motor Activity/drug effects , Pigments, Biological/metabolism , Receptor, Adenosine A1/metabolism , Receptors, Adenosine A2/metabolism , Receptors, Adenosine A2/physiology , Sequence Alignment
2.
Behav Pharmacol ; 20(2): 134-45, 2009 Mar.
Article in English | MEDLINE | ID: mdl-19307960

ABSTRACT

The strain of spontaneously hypertensive rats (SHR) is considered a genetic model for the study of attention-deficit hyperactivity disorder (ADHD), as it displays hyperactivity, impulsivity and poorly sustained attention. Recently, we have shown the involvement of adenosinergic neuromodulation in the SHR's short-term and long-term memory impairments. In this study, we investigated the performance of male and female SHR in a modified version of the object-recognition task (using objects with different structural complexity) and compared them with Wistar rats, a widely used outbred rat strain for the investigation of learning processes. The suitability of the SHR strain to represent an animal model of ADHD, as far as mnemonic deficits are concerned, was pharmacologically validated by the administration of methylphenidate, the first-choice drug for the treatment of ADHD patients. The role of adenosine A1 and A2A receptors in object discrimination was investigated by the administration of caffeine (nonselective antagonist) or selective adenosine receptor antagonists. Wistar rats discriminated all the objects used (cube vs. pyramid; cube vs. T-shaped object), whereas SHR only discriminated the most structurally distinct pairs of objects (cube vs. pyramid). Pretraining administration of methylphenidate [2 mg/kg, intraperitoneal (i.p.)], caffeine (1-10 mg/kg, i.p.), the selective adenosine receptor antagonists DPCPX (8-cyclopenthyl-1,3-dipropylxanthine; A1 antagonist, 5 mg/kg, i.p.) and ZM241385 (A2A antagonist, 1.0 mg/kg, i.p.), or the association of ineffective doses of DPCPX (3 mg/kg) and ZM241385 (0.5 mg/kg), improved the performance of SHR in the object-recognition task. These findings show that the discriminative learning impairments of SHR can be attenuated by the blockade of either A1 or A2A adenosine receptors, suggesting that adenosinergic antagonists might represent potentially interesting drugs for the treatment of ADHD.


Subject(s)
Adenosine A1 Receptor Antagonists , Adenosine A2 Receptor Antagonists , Attention Deficit Disorder with Hyperactivity/drug therapy , Memory, Short-Term/drug effects , Rats, Inbred SHR/physiology , Recognition, Psychology/drug effects , Animals , Blood Pressure/drug effects , Caffeine/pharmacology , Disease Models, Animal , Female , Male , Memory, Short-Term/physiology , Methylphenidate/pharmacology , Rats , Rats, Wistar , Receptor, Adenosine A1/physiology , Receptors, Adenosine A2/physiology , Recognition, Psychology/physiology , Triazines/administration & dosage , Triazines/pharmacology , Triazoles/administration & dosage , Triazoles/pharmacology , Xanthines/administration & dosage , Xanthines/pharmacology
3.
Peptides ; 29(11): 2033-8, 2008 Nov.
Article in English | MEDLINE | ID: mdl-18682265

ABSTRACT

We have previously demonstrated that adenosine (Ado) reverses the stimulatory effect of angiotensin II (Ang II) on Na(+)-ATPase activity via the A(2A) receptor. In this work, the molecular mechanism involved in Ado-induced shutdown in the signaling pathway triggered by 10(-8)M Ang II was investigated. It was observed that: (1) both 10(-12)M PMA (a PKC activator) and 5x10(-8)M U73122 (an inhibitor of PI-PLCbeta) prevent the reversion effect induced by 10(-6)M Ado (only observed in the presence of 10(-6)M DPCPX (an A(1) receptor antagonist)) on Ang II-stimulated Na(+)-ATPase and PKC activities; (2) Ang II-stimulated PKC activity was reversed by 10(-6)M forskolin (an adenylyl cyclase activator) or 10(-8)M PKA inhibitory peptide and 10(-8)M DMPX (an A(2) receptor-selective antagonist). Considering that PMA prevents the inhibitory effect of Ado on Ang II-stimulated Na(+)-ATPase and PKC activities, it is likely that the PMA-induced effect, i.e. PKC activation, is downstream of the target for Ado-induced reversion of Ang II stimulation of Na(+)-ATPase activity. We investigated the hypothesis that PI-PLCbeta could be the target for Ado-induced PKA activation. Our data demonstrate that Ang II-stimulated PI-PLCbeta activity was reversed by Ado or 10(-7)M cAMP; the reversibility of the Ado-induced effect was prevented by either DMPX or PKA inhibitory peptide. These data demonstrate that Ado-induced PKA activation reduces Ang II-induced stimulation of PI-PLCbeta.


Subject(s)
Adenosine/physiology , Angiotensin II/physiology , Kidney Tubules, Proximal/metabolism , Signal Transduction/drug effects , Sodium-Potassium-Exchanging ATPase/metabolism , Animals , Cyclic AMP-Dependent Protein Kinases/metabolism , Kidney Tubules, Proximal/drug effects , Phosphoinositide Phospholipase C/metabolism , Protein Kinase C/metabolism , Receptors, Adenosine A2/physiology , Swine
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