Drugs online research references
if-pan.krakow.pl
The purpose of the present study was to evaluate the effects of acute and repeated treatment with two antidepressant drugs (ADs) of opposite pharmacological profile, i.e. tianpetine (TIA, serotonin reuptake enhancer) and fluoxetine (FLU, serotonin reuptake inhibitor) on the levels of Met-Enkephalin, (Met-Enk, a member ofopioid peptide family, which has been suggested to play a role in the mechanism of action ADs) as well as on mRNA coding for proenkephalin (mRNA PENK) in various regions of the rat brain, pituitary, adrenal glands and plasma. Male Wistar rats were treated acutely or repeatedly (10 mg/kg p.o., twice daily for 14 days) with TIA or FLU. Tissue for biochemical experiments was taken 2 h after last dose of appropriate drug. The levels of Met-Enk were estimated by radioimmunoassay, mRNA PENK was measured using in situ hybridization. From the results obtained in the present study it may be concluded that repeated administration of TIA or FLU induced similar changes in the levels of Met-Enk in the rat hippocampus, striatum, hypothalamus and neurointermediate lobe of pituitary. Such an effect is interesting, especially if one takes into account the differences in pharmacological profile between these two antidepressant drugs. It may be suggested that serotonin level might not be crucial for inducing the alterations in the content of Met-Enk. Since we did not observe any changes in the levels of PENK mRNA in the studied rat brain regions after repeated administration of TIA or FLU, it seems that the observed changes in the levels of Met-Enk do not result from effects of these antidepressants on biosynthesis of PENK, but rather from alterations in the peptide release. Another interesting finding of the present study was that in the anterior lobe of pituitary, adrenal glands and plasma, repeated administration of TIA induced alterations in the contents of Met-Enk, while repeated administration of FLU remained without any effect. It is tempting to speculate that such a differentiation between the effects of these two antidepressants might be linked to the well known feature of TIA (but not FLU) which has been shown to reduce both basal and stress-evoked activity of the hypothalamic-pituitary-adrenal (HPA) axis.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11939714&dopt=Abstract
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J Neurosci. 2002 Apr 15;22(8):3262-8.
cAMP response element-binding protein is essential for the upregulation of brain-derived neurotrophic factor transcription, but not the behavioral or endocrine responses to antidepressant drugs.
Conti AC, Cryan JF, Dalvi A, Lucki I, Blendy JA.
Department of Pharmacology, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6084, USA.
Antidepressant drugs activate the cAMP signal transduction pathway through a variety of monoamine neurotransmitter receptors. Recently, molecular studies have identified a role for cAMP response element-binding protein (CREB) in the mechanism of action of chronically administered antidepressant drugs. However, the function of CREB in the behavioral and endocrine responses to these drugs has not been thoroughly investigated. We have used CREB-deficient mice to study the effects of two antidepressants, desipramine (DMI) and fluoxetine (FLX), in behavioral, endocrine, and molecular analyses. Behaviorally, CREB-deficient mice and wild-type mice respond similarly to DMI and FLX administration in the forced swim test and tail suspension test. Furthermore, the ability of DMI to suppress an acute corticosterone response after swim stress is maintained in CREB-deficient mice. However, upregulation of a molecular target of CREB, BDNF, is abolished in the CREB-deficient mice after chronic administration of DMI. These data are the first to demonstrate that CREB activation is upstream of BDNF mechanistically in response to antidepressant drug treatment. Therefore, although behavioral and endocrine responses to antidepressants may occur by CREB-independent mechanisms, CREB is critical to target gene regulation after chronic drug administration, which may contribute to long-term adaptations of the system to antidepressant drug treatment.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11943827&dopt=Abstract
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jaguar.dote.hu
OBJECTIVE: As compared with voltage-gated K(+) channels (Kv-type), our knowledge of the structure-function and pharmacology of two-pore background K(+) channels is still very limited. Here we have used a drug- and mutagenesis-based approach to study the effect of the antidepressant fluoxetine (FL) and analgesic D-norpropoxyphene (NORP) on the cardiac two-pore background K(+) channel. METHODS: Whole-cell currents of the cTBAK-1 channel expressed in Xenopus laevis oocytes were investigated using conventional two-microelectrode voltage-clamp recording method combined with functional mutagenesis of the channel protein. RESULTS: Both drugs inhibit cTBAK-1 current: FL proved to be a voltage-dependent pore-blocker, while NORP induced a change in the selectivity of cTBAK-1 giving rise to a shift in the reversal potential (E(rev)) toward more positive voltages due to an increased Na(+) permeability. Mutations were introduced into the selectivity filter of the first (Y105F) and the second (F211Y) pore to mimic the P-region of HERG (GFGN) and Kv1.1 (GYGD) channels. Point mutations in the channel resulted in two distinct phenotypes of cTBAK-1: the mutant Y105F channel lost its selectivity and was unaffected by NORP, in contrast to the F211Y mutant. CONCLUSION: FL and NORP block the current of cTBAK-1 channels differently, the latter modified the selectivity of the channel pore. Our mutagenesis study revealed that NORP interacts with the selectivity filter of cTBAK-1. The significant role of the GYGD motif in this type of K(+) channels is emphasized.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12667945&dopt=Abstract
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