Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P08908 (5-HT1A)
 5,574 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The pharmacological profile of niaprazine was investigated using in vitro ligand binding techniques. 2. Niaprazine exhibits a low affinity for the vesicular monoamine transporter and for D2, alpha 2, beta, H1 and muscarinic cholinergic receptors. Niaprazine, particularly the (+)stereoisomer, has a higher affinity for alpha 1 (Ki = 77 nM) and 5-HT2 (Ki = 25 nM) binding sites, but is poorly recognized by 5-HT1A and 5-HT1B binding sites (Ki sigma mciroM). In contrast, p-fluoro-phenylpiperazine, a major metabolite of niaprazine, exhibits a higher affinity for the 5-HT1 subclasses than for the 5HT2 class. 3. These results suggest that the pharmacological properties of niaprazine reflect both its non-reserpinic catecholamine depletor effect and its action on alpha 1 and 5-HT2 receptors. A role of p-fluoro-phenylpiperazine via 5-HT1 sites cannot be excluded.
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PMID:Molecular pharmacology of niaprazine. 285 85

Biochemical alterations of serotoninergic parameters have been demonstrated in experimental thiamine deficiency. In addition, hypophagia and hypothermia, two physiological processes associated with changes in the serotonin [5-hydroxytryptamine (5-HT)] system, are manifest early during the progression of thiamine deficiency. The binding of selected 5-HT radioligands was therefore investigated in discrete brain regions of pyrithiamine-induced thiamine-deficient rats. Using quantitative receptor autoradiography, the binding of 8-hydroxy-2-(di-n-[3H]propylamino) tetralin, a ligand used to label the somatodendritic 5-HT1A autoreceptor of the dorsal raphe nucleus, was found to be unaffected in this region, suggesting that the structural integrity of the 5-HT cell bodies is maintained throughout the course of pyrithiamine treatment. Increased binding of [3H]-ketanserin was observed in regions considered vulnerable as well as in some considered to be nonvulnerable during the course of thiamine deficiency. These binding changes, which appear to represent changes in the density of the postsynaptic 5-HT2A receptor population rather than the "tetrabenazine-sensitive" vesicular monoamine transporter, are evident before the appearance of histopathologic lesions and coincide with altered tissue concentrations of 5-HT. These data suggest that 5-HT neurons, although structurally intact, are functionally affected early during the progression of thiamine deficiency. These alterations, which are likely a part of adaptive neuronal change consequent to thiamine dysfunction, may be important in the physiological manifestations and the learning deficits commonly encountered in experimental thiamine deficiency.
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PMID:Alterations in serotonin parameters in brain of thiamine-deficient rats are evident prior to the appearance of neurological symptoms. 875 18

Cloning of MAO A and B has demonstrated clearly that MAO A and B are coded by different proteins with 70% amino acid identity. With the MAO A and B cDNA clones, we showed the tissue distribution and genomic structure of MAO A and B, the latter suggesting that they are derived from the same ancestral gene. The active sites, the role of cysteine residues, the three-dimensional models and the mitochondria targeting domains of both isoenzymes have been established. The transcriptional regulation of MAO A and B has been studied. MAO A KO mice showed increased levels of serotonin (5-HT), norepinephrine (NE), dopamine (DA) whereas MAO B KO mice showed increased phenylethylamine (PEA) levels only. Both MAO A and B KO mice showed increased response to stress. MAO A KO mice showed increased emotional learning and memory and aggressive behavior, but the vesicular monoamine transporter (VMAT2), 5-HT1A, 5-HT2A and 5-HT2C receptors were down regulated. 5-HT2A antagonist, ketanserin and MDL100907 were able to abolish the aggression, suggesting that the aggressive behavior may be mediated by 5-HT2A receptor. In contrast, MAO B KO mice are resistant to MPTP, a toxin which induces Parkinson's syndromes. Studies of these mice suggest that MAO A and B have distinct biochemical and physiological functions.
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PMID:Cloning, after cloning, knock-out mice, and physiological functions of MAO A and B. 1469 77

The serotonin system is strongly implicated in the pathophysiology and therapeutic alleviation of stress-related disorders such as anxiety and depression. Serotonergic modulation of the acute response to stress and the adaptation to chronic stress is mediated by a myriad of molecules controlling serotonin neuron development (Pet-1), synthesis (tryptophan hydroxylase 1 and 2 isozymes), packaging (vesicular monoamine transporter 2), actions at presynaptic and postsynaptic receptors (5-HT1A, 5-HT1B, 5-HT2A, 5-HT2C, 5-HT3A, 5-HT4, 5-HT5A, 5-HT6, 5-HT7), reuptake (serotonin transporter), and degradation (monoamine oxidase A). A growing body of evidence from preclinical rodents models, and especially genetically modified mice and inbred mouse strains, has provided significant insight into how genetic variation in these molecules can affect the development and function of a key neural circuit between the dorsal raphe nucleus, medial prefrontal cortex and amygdala. By extension, such variation is hypothesized to have a major influence on individual differences in the stress response and risk for stress-related disease in humans. The current article provides an update on this rapidly evolving field of research.
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PMID:Genetic variation in cortico-amygdala serotonin function and risk for stress-related disease. 1843 76

The firing activity of serotonergic neurons in raphe nuclei is regulated by negative feedback exerted by extracellular serotonin (5-HT)o acting through somatodendritic 5-HT1A autoreceptors. The steady-state [5-HT]o, sensed by 5-HT1A autoreceptors, is determined by the balance between the rates of 5-HT release and reuptake. Although it is well established that reuptake of 5-HTo is mediated by 5-HT transporters (SERT), the release mechanism has remained unclear. It is also unclear how selective 5-HT reuptake inhibitor (SSRI) antidepressants increase the [5-HT]o in raphe nuclei and suppress serotonergic neuron activity, thereby potentially diminishing their own therapeutic effect. Using an electrophysiological approach in a slice preparation, we show that, in the dorsal raphe nucleus (DRN), continuous nonexocytotic 5-HT release is responsible for suppression of phenylephrine-facilitated serotonergic neuron firing under basal conditions as well as for autoinhibition induced by SSRI application. By using 5-HT1A autoreceptor-activated G protein-gated inwardly rectifying potassium channels of patched serotonergic neurons as 5-HTo sensors, we show substantial nonexocytotic 5-HT release under conditions of abolished firing activity, Ca(2+) influx, vesicular monoamine transporter 2-mediated vesicular accumulation of 5-HT, and SERT-mediated 5-HT transport. Our results reveal a cytosolic origin of 5-HTo in the DRN and suggest that 5-HTo may be supplied by simple diffusion across the plasma membrane, primarily from the dense network of neurites of serotonergic neurons surrounding the cell bodies. These findings indicate that the serotonergic system does not function as a sum of independently acting neurons but as a highly interdependent neuronal network, characterized by a shared neurotransmitter pool and the regulation of firing activity by an interneuronal, yet activity-independent, nonexocytotic mechanism.
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PMID:Nonexocytotic serotonin release tonically suppresses serotonergic neuron activity. 2582 68

We previously demonstrated that mice with reduced expression of the vesicular monoamine transporter 2 (VMAT2 LO) undergo age-related degeneration of the catecholamine-producing neurons of the substantia nigra pars compacta and locus ceruleus and exhibit motor disturbances and depressive-like behavior. In this work, we investigated the effects of reduced vesicular transport on the function and viability of serotonin neurons in these mice. Adult (4-6 months of age), VMAT2 LO mice exhibit dramatically reduced (90%) serotonin release capacity, as measured by fast scan cyclic voltammetry. We observed changes in serotonin receptor responsivity in in vivo pharmacological assays. Aged (months) VMAT2 LO mice exhibited abolished 5-HT1A autoreceptor sensitivity, as determined by 8-OH-DPAT (0.1 mg/kg) induction of hypothermia. When challenged with the 5HT2 agonist, 2,5-dimethoxy-4-iodoamphetamine (1 mg/kg), VMAT2 LO mice exhibited a marked increase (50%) in head twitch responses. We observed sparing of serotonergic terminals in aged mice (18-24 months) throughout the forebrain by SERT immunohistochemistry and [(3)H]-paroxetine binding in striatal homogenates of aged VMAT2 LO mice. In contrast to their loss of catecholamine neurons of the substantia nigra and locus ceruleus, aged VMAT2 LO mice do not exhibit a change in the number of serotonergic (TPH2+) neurons within the dorsal raphe, as measured by unbiased stereology at 26-30 months. Collectively, these data indicate that reduced vesicular monoamine transport significantly disrupts serotonergic signaling, but does not drive degeneration of serotonin neurons.
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PMID:Reduced vesicular monoamine transport disrupts serotonin signaling but does not cause serotonergic degeneration. 2642 5

The currently available antipsychotics mostly treat the positive symptoms of schizophrenia and have at least one adverse effect as a potential liability. Encouraging data suggest potential efficacy for a variety of new agents for the treatment of total symptoms and/or specific symptom domains of schizophrenia. Mechanisms of action that are under investigation include dopamine D3 antagonism/serotonin 5-HT1A partial agonism; combined dopamine, serotonin, and glutamate modulation; phosphodiesterase 10A inhibition; trace amine-associated receptor-1 (TAAR1) agonism plus 5-HT1A agonism; 5-HT2A inverse agonism; sigma-2/5-HT2A antagonism; D-amino acid oxidase (DAAO) inhibition; glycine transporter-1 inhibition; vesicular monoamine transporter-2 antagonism; mu opioid antagonism added to olanzapine; and novel long-acting injectable antipsychotic formulations. It is hoped that ongoing and recently completed trials for agents with known and/or novel mechanisms of action will lead to approved treatments that effectively target the various symptom domains of schizophrenia, minimize the risk for a broad range of clinically relevant adverse effects, and improve functional outcomes for patients. Some novel treatments have already received approval for use in patients with schizophrenia. This brief report discusses recently approved novel agents and potential new treatment options for schizophrenia that are being investigated.
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PMID:Current Treatment Options and Emerging Agents for Schizophrenia. 3229 21