is.dal.ca

The present study determined (1) whether amitriptyline could produce a local antinociceptive action in the formalin test, (2) whether endogenous adenosine was involved in this action, and (3) which other systems might contribute to such an action. Coadministration of amitriptyline 10-100 nmol with 2.5% formalin produced a dose-related reduction in phase 1 (0-12 min) and phase 2 (16-60 min) flinching behaviours, as well as in phase 2 biting/licking time (no phase 1 expression). This action was not seen or only partially expressed at low concentrations of formalin (0.5%, 0.75%). Coadministration of caffeine with amitriptyline partially reversed the antinociceptive action of amitriptyline against both behaviours at 2.5% formalin. At 1.5% formalin, caffeine still produced only a partial reversal of effect; this appeared to be due to a block of adenosine A1 receptors, as it was also seen with the selective adenosine A1 receptor antagonist, 8-cyclopentyl-1,3-dimethylxanthine. Using antagonists for a number of other systems, no evidence for an involvement of alpha-adrenergic, histamine, excitatory amino acid or opioid receptors in the action of amitriptyline was observed or inferred. A local anaesthetic action for amitriptyline remains a possibility for the residual action. These results indicate that amitriptyline can produce a local peripheral antinociceptive action which is mediated, in part, by an interaction with endogenous adenosine, most likely an inhibition of the cellular uptake of adenosine with a consequent activation of adenosine A1 receptors on sensory nerve terminals. Local application of amitriptyline by cream or gel might prove to be a useful method of drug delivery in inflammatory pain states.

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Pharmacol Biochem Behav. 1999 Apr;62(4):613-8.
Attenuation by nimodipine of amitriptyline-induced avoidance impairment in mice.

Sansone M, Battaglia M, Pavone F.

Istituto di Psicobiologia e Psicofarmacologia, CNR, Roma, Italy.

The effects of the dihydropyridine calcium channel blocker nimodipine on avoidance impairment induced by the tricyclic antidepressant amitriptyline were assessed during shuttle-box training and in previously trained mice of the DBA/2 strain. Nimodipine (0, 0.5, 1, 2.5, or 5 mg/kg) had no effect alone, but attenuated the avoidance impairment induced by 5 mg/kg amitriptyline on avoidance acquisition, as well as on a previously learned avoidance response. The avoidance improving action of the calcium channel blocker was less evident in mice receiving a larger dose (7.5 mg/kg) of the antidepressant drug. The effect of nimodipine did not appear to be specifically related to the avoidance impairment induced by amitriptyline, because the calcium antagonist also attenuated the avoidance impairing action of the neuroleptic chlorpromazine. The avoidance impairment induced by amitriptyline and chlorpromazine, and the related ameliorating action of nimodipine, seem imputable to drug effects on the performance of the avoidance response, rather than to interferences with learning processes. The results suggest that, in the case of concomitant administration, nimodipine could alleviate adverse side effects of tricyclic antidepressant, i.e., psychomotor disturbances.

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Neurochem Res. 1999 Mar;24(3):391-8.
High concentrations of tricyclic antidepressants increase intracellular Ca2+ in cultured neural cells.

Joshi PG, Singh A, Ravichandra B.

Department of Biophysics, National Institute of Mental Health and Neurosciences, Bangalore, India.

We examined the effect of tricyclic antidepressants on intracellular Ca2+ signalling in cultured cells of neuronal and glial origin. High concentrations of amitriptyline and desipramine increased the intracellular Ca2+ in PC-12 and U-87 MG cells. In PC-12 cells amitriptyline induced a biphasic rise in intracellular Ca2+. A rapid and transient increase due to release of Ca2+ from intracellular pools was followed by sustained elevation of [Ca2+]i due to influx from the extracellular medium. Desipramine evoked the Ca2+ release from intracellular pools but the influx of Ca2+ was not elicited. In U-87 MG cells both the drugs induced Ca2+ release from intracellular pools, however amitriptyline also induced a transient influx of Ca2+. To delineate the mechanisms involved in mobilization of Ca2+ by the drugs pharmacological agents that inhibit IP3 formation in cells and Ca2+ channel blockers were used and changes in [Ca2+]i and membrane potential were monitored. The results show that both the drugs release Ca2+ from IP3 sensitive pools by activation of phospholipase C and amitriptyline in addition activates a non specific cation channel in the plasma membrane of cells. Paradoxically at relatively lower concentrations (< 50 microM) amitriptyline and desipramine inhibited the Ca2+ signal induced by adenosine triphosphate in both the cell types. Our data demonstrate that tricyclic antidepressants at different doses may have inhibitory or stimulatory effects on cellular Ca2+ signalling.

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Res Commun Chem Pathol Pharmacol. 1980 Oct;30(1):41-58.
Drug interactions of amitriptyline and nortriptyline with warfarin in the rat.

Loomis CW, Racz WJ.

Treatment of rats with amitriptyline or nortriptyline for 6 days at 6, 15 and 30 mg/kg produced no increases in the activities of aniline hydroxylase and aminopyrine N-demethylase or the content of microsomal protein and cytochrome P-450. Significant decreases in aminopyrine N-demethylase activity and cytochrome P-450 content were observed at 30 mg/kg. This inhibition of activity appeared to be at the level of cytochrome P-450 and not a cytotoxic effect in liver cells. Concomitant administration of amitriptyline or nortriptyline (6, 15 and 30 mg/kg)with warfarin to rats produced a dose dependent increase in the prothrombin time. At high doses of the tricyclic antidepressants, these increases in prothrombin time correlated with increases observed in the plasma half-life of warfarin. In vitro studies suggested that amitriptyline and nortriptyline inhibited the metabolism of warfarin. A double-reciprocal plot (Lineweaver-Burk method) showed this inhibition to be competitive. Nortriptyline produced greater inhibition of warfarin metabolism than amitriptyline and correspondingly greater enhancement of the anticoagulant effect.

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is2.dal.ca

The present study was designed to determine whether amitriptyline, a prototypical tricyclic antidepressant, could produce pain relieving properties in a rat model of neuropathic pain. Nerve injury was produced by tight ligation of the lumbar 5th and 6th dorsal roots and this resulted in persistent stimulus evoked neuropathic pain symptoms (tactile allodynia and thermal hyperalgesia). Thermal hyperalgesia was measured using a focused light beam directed at the ventral surface of the paw while tactile allodynia was determined using Semmes-Weinstein monofilaments applied to the ventral surface of the paw. Amitriptyline was administered systemically (intraperitoneal), spinally (intrathecal cannula), and locally (subcutaneously) via direct injection into the dorsal surface of the paw. Following systemic administration, amitriptyline completely reversed thermal hyperalgesia (10 mg/kg) in the injured paw. Spinal administration of amitriptyline (60 microg) also produced an antihyperalgesic effect. Interestingly, local administration of amitriptyline (100 nmol) had an immediate antihyperalgesic effect that persisted for 120 min following administration. Amitriptyline had no alleviating effect against mechanical allodynia regardless of the route of administration, but curiously, produced hyperaesthesia in the contralateral paw. These results indicate that in the rat model of spinal nerve ligation, amitriptyline is effective in alleviating thermal hyperalgesia (systemically, spinally and locally) but is ineffective against mechanical allodynia. The peripheral efficacy of amitriptyline suggests the possibility of the development of cream formulations that may be able to increase the local concentration of amitriptyline without increasing the systemic dose and the subsequent occurrence of side effects.

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Prog Neuropsychopharmacol Biol Psychiatry. 1999 Feb;23(2):335-50.
Effects of dothiepin on delayed conduction produced by ventricular arrhythmia in the canine heart after myocardial infarction.

Nishimoto M, Hashimoto H, Ikeda Y, Umemura K, Nakashima M.

Department of Clinical Pharmacology, Hamamatsu University School of Medicine, Japan.

1. In order to clarify the arrhythmogenic effects of antidepressants, the authors examined the effects of dothiepin and amitriptyline on the ventricular activation time (VAT), effective refractory periods(ERP) and incidence of arrhythmias induced by programmed electrical stimulation(PES) in the dog heart in situ after myocardial infarction. 2. Myocardial infarction was produced by two-stage ligation of the left anterior descending coronary artery. Seven days after ligation, bipolar electrodes were sutured on the ventricular surface of the infarcted and normal zones to apply an electrical stimulation or record ventricular activation. An electrical stimulation with coupling interval 250 or 180 ms was applied on the ventricular surface, and AT was measured. 3. Dothiepin at doses of 1-3 mg/kg increased the heart rate. The VAT of coupling interval 180 ms in the infarcted zone was increased by the administration of 3 mg/kg dosulepin. Dothiepin at 3 mg/kg increased the incidence of ventricular arrhythmias induced by PES. 4. Amitriptyline, at doses of 1-3 mg/kg, significantly increased the heart rate. Amitriptyline increased the VAT dose- and frequency-dependently(2,3 mg/kg zone), and prolonged the ERP and QT c interval. Amitriptyline at doses of 1-3 mg/kg increased the incidence of ventricular arrhythmias by PES. 5. These results indicate that dothiepin, 1-3 mg/kg, has lesser effects on cardiac delayed conduction produced by ventricular arrhythmia than amitriptyline.

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mailer.uni-marburg.de

Recent research suggests that antidepressants exert their clinical action in depression via the restoration of glucocorticoid receptor (GR) function with a subsequent normalization of the altered feed-back regulation of the hypothalamic-pituitary adrenocortical (HPA) system. We, therefore, studied the effects of amitriptyline, a standard antidepressant, and of the glucocorticoid dexamethasone, which has recently been reported to possess antidepressive properties, on glucocorticoid receptor mRNA (GR-mRNA) derived from blood cells of healthy male volunteers. Whole blood samples were exposed in vitro for 24 h to amitriptyline and dexamethasone, the mRNA was extracted, transcripts of the 'house-keeping gene' glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and the GR-gene were subjected to reverse transcriptase-polymerase chain reaction (RT-PCR) and semiquantitatively determined by subsequent densitometry. In a concentration of 10 nM, amitriptyline induced a significant increase in GR-mRNA (GR/GAPDH ratio) to 186 +/- 31% of the control condition, while a concentration of 10 microM of amitriptyline resulted in an increase of GR-mRNA (GR/GAPDH ratio) to 165 +/- 36%. Dexamethasone also up-regulated blood cell GR-mRNA (GR/GAPDH ratio) levels at a concentration of 10 nM to 184 +/- 29%, whereas an incubation with 10 microM apparently resulted in toxic effects on blood cells with a decreased amount of total mRNA samples recovered. In conclusion, we here show an increase of GR-mRNA in human blood cells after treatment with amitriptyline and dexamethasone, pointing to a direct action of these substances on GR-gene expression in a human system.

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