Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A retrospective chart review of 50 pharmacotherapeutically resistant patients was performed after treatment with NET in 1986-1988. 28 patients suffered from schizophrenia and 22 from affective psychosis. In contrast to literature where NET as therapy of first choice has favourable results in depression in this study 60.7% of the treatment resistant acute schizophrenics responded well to NET. 3 months after discharge from hospital 9 schizophrenics (32.1%) but only 3 patients with affective psychosis (13.6%) presented a 'good' outcome (full remission). A longer duration of schizophrenia (more than 5 years since first manifestation) and a good response to neuroleptics in history was predictive for a good actual NET response (14 of 17 patients), whereas 7 of 11 patients suffering from schizophrenia less than 3 years without any period of full remission on neuroleptics were also non-responders to NET.
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PMID:[Effectiveness of neuro-electric therapy in drug resistant endogenous psychoses]. 167 54

The successful generation and functional expression of a series of recombinant chimeric transporters, in which distinct functional properties of NET and DAT are exchanged, have allowed the assignment of a number of important functional properties of MPP+ and antidepressant-sensitive catecholamine transporters to specific domains within their primary structure. These studies are the first comprehensive structure-function analysis of members of the rapidly growing superfamily of Na+/Cl- carriers using chimeric transporters. This represents the first step in identifying the specific structural or regulatory determinants that differentiate NET and DAT. An appreciation of the potentially distinct sites for substrate recognition, translocation, and transport inhibition of NET and DAT may facilitate the development of more selective drugs for the treatment of stimulant addiction, human depression, and other affective disorders.
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PMID:Discrete structural domains and cell-specific expression determine functional selectivity of the dopamine and norepinephrine transporters. 878 50

Biogenic amine transporters, namely the dopamine (DA), norepinephrine (NE) and 5-hydroxytryptamine (serotonin, 5-HT) transporters (DAT, NET and 5-HTT, respectively) appear to be the key elements in regulating biogenic amine neurotransmission. These proteins therefore represent a primary target for therapeutic intervention in the treatment of numerous psychiatric disorders, such as depression, anxiety and perhaps even schizophrenia as well as drug abuse. The cloning of DAT, NET and 5-HTT and development of selective radioligands for them over the last decade has dramatically increased our understanding of their location, structure and function. These breakthroughs have also enabled remarkable progress in determining how biogenic amine transporters are regulated under not only normal conditions but also when confronted with acute or chronic exposure to a variety of stimuli including psychotherapeutic drugs. Because of the important therapeutic consequences of a better understanding of these transporters, the present review discusses recent advances in defining their mechanism of action, location and regulation and the implications of the newer data for neuropsychopharmacology.
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PMID:New views of biogenic amine transporter function: implications for neuropsychopharmacology. 1128 47

A series of novel N- and 3alpha-modified piperidine-based analogues of cocaine were synthesized and tested for their ability to inhibit reuptake of DA, 5-HT, and NE by the DA, 5-HT, and NE transporters. N-Demethylation of trans-(+)-3alpha-piperidine-based ligands leads to improved activity at the SERT and NET and modest changes at the DAT. Replacement of the N-methyl group in trans-(+)-ester 1a with phenylalkyl groups leads to a modest 2.3-fold improvement in activity at the SERT (K(i) < or = 3.27 microM), insignificant changes at the NET, and a 3.5-fold loss in activity at the DAT (K(i) > or = 810 nM); however, such replacement in cis-(-)-ester 4, the more potent isomer of 1a, leads, in general, to a significant decrease in activity at all monoamine transporters (K(i) > 1 microM). Other N-modified ligands, including the ligands with polar groups incorporated in the N-alkyl substituent (3e-g) and ligands lacking the basic nitrogen (3i and 6d), show decreased activity at all monoamine transporters, though ligands 3e-g are similar in potency at the NET to 1a. N-Norester 2a, a possible metabolite of the lead compound 1a, and alcohol 1c, a compound with a 3alpha-substituent that is more stable to metabolism than 1a, were selected for further behavioral tests in animals. Alcohol 1c and ester 2a are similar in potency at the DAT to cocaine, ester 1a, and oxadiazole 1b, and both fully substitute for cocaine and have potency similar to that of cocaine in drug discrimination tests. Like cocaine, 1c increased locomotor activity (LMA) monotonically with time, whereas 2a produces biphasic effects consisting of initial locomotor depression followed by delayed locomotor stimulation. An interesting difference between cocaine, ester 1a, alcohol 1c, and N-norester 2a is that 1c and 2a are significantly longer acting in LMA tests. Although this result was anticipated for alcohol 1c, it is rather surprising for 2a which has an ester function susceptible to hydrolysis, a pathway of in vivo deactivation of cocaine and its ester analogues. The present results may have important implications for our understanding of the pharmacological mechanisms underlying the behavioral actions of cocaine and of the structural features needed for the design of the new leads in the discovery of a cocaine abuse medication.
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PMID:SAR studies of piperidine-based analogues of cocaine. 4. Effect of N-modification and ester replacement. 1210 1

Gynecologists use either oral or parenteral progestogens either alone or in combination with estrogens to treat various conditions. Parenteral routes of progestogen delivery are intramuscular injections, intravaginal pessaries, subcutaneous implants, and vaginal rings. Progestogens treat dysfunctional uterine bleeding by first controlling the acute bleeding episode and then by establishing normal ovulatory cycles. 1-2 tablets of medroxyprogesterone acetate (MPA)/day or 1-3 tablets of norethindrone/day should stop uterine bleeding in 72 hours. If not, 25 mg intravenous premarin should control it in 6-24 hours. Cyclical progestational (e.g., MPA) therapy for 3-6 cycles should establish normal ovulatory cycles. After appropriate laparoscopic staging by double puncture technique, progestogens can be used to treat mild-moderate endometriosis. Gynecologists should consider the following criteria when selecting the ideal progestin for hormone replacement therapy: adjustment of dosage of progestin and estrogen over 3-6 months to maintain the beneficial effects of the estrogen and to minimize the adverse effects of the progestin, progestin dosage sufficient to protect against endometrial hyperplasia and cancer, economical progestin, and minimization of weight gain, depression, oral intolerance, and androgenic action. Hydrogesterone and MPA meet these criteria. Oral contraceptives with a progestin and the smallest possible dose of estrogen are well-tolerated, cause no break-through bleeding, produce minimal side effects, and protect against pregnancy (99% contraceptive effectiveness rate). They also protect against endometrial cancer, endometriosis, premenstrual tension, dysmenorrhea, and irregular cycles. Intramuscular injections of progestins (MPA, NET-EN), subcutaneous levonorgestrel implant, and the levonorgestrel IUD are new contraceptive developments and provide a high degree of contraceptive efficacy. MPA at very high doses cause remission of breast endometrial lesions.
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PMID:Progestogens in gynaecological practice. 1217 92

A qualitative model for the binding pocket proximal to the 3alpha-substituent of the piperidine-based monoamine transporter ligands was proposed and tested. Based on this model, a new series of druglike 3alpha-modified piperidine-based analogues of cocaine were designed, synthesized, and studied for their ability to inhibit reuptake of DA, 5-HT, and NE by the DA, 5-HT, and NE transporters. We found that the insertion of at least one additional methylene group between the piperidine ring and the polar group in the 3alpha-substituent dramatically improves the activity of the compounds that are generally inactive without this additional linker. Molecular modeling analysis showed that the more flexible 3alpha-substituents can avoid unfavorable interactions with the binding sites of DAT, SERT, and NET. The present results may have important implications for the elucidation of the structural differences between DA, 5-HT, and NE transporters and for the further design of new leads for development of cocaine abuse medication as well as certain neurological disorders such as ADHD and depression.
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PMID:Synthesis, molecular modeling, and biological studies of novel piperidine-based analogues of cocaine: evidence of unfavorable interactions proximal to the 3alpha-position of the piperidine ring. 1516 83

Some piperidine-based nocaine/modafinil hybrid ligands have been designed, synthesized, and found to display an improved potency at all three monoamine transporters and particularly for DAT and/or NET. Some highly active and selective monoamine transporter inhibitors with low nanomolar to subnanomolar potency were identified. Ligands of this type may find important applications as positron emission tomography imaging tools and in the treatment of central nervous system disorders such as depression and sleep apnea.
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PMID:Piperidine-based nocaine/modafinil hybrid ligands as highly potent monoamine transporter inhibitors: efficient drug discovery by rational lead hybridization. 1553 37

The human norepinephrine (NE) transporter (hNET) attenuates neuronal signaling by rapid NE clearance from the synaptic cleft, and NET is a target for cocaine and amphetamines as well as therapeutics for depression, obsessive-compulsive disorder, and post-traumatic stress disorder. In spite of its central importance in the nervous system, little is known about how NET substrates, such as NE, 1-methyl-4-tetrahydropyridinium (MPP+), or amphetamine, interact with NET at the molecular level. Nor do we understand the mechanisms behind the transport rate. Previously we introduced a fluorescent substrate similar to MPP+, which allowed separate and simultaneous binding and transport measurement (Schwartz, J. W., Blakely, R. D., and DeFelice, L. J. (2003) J. Biol. Chem. 278, 9768-9777). Here we use this substrate, 4-(4-(dimethylamino)styrl)-N-methyl-pyridinium (ASP+), in combination with green fluorescent protein-tagged hNETs to measure substrate-transporter stoichiometry and substrate binding kinetics. Calibrated confocal microscopy and fluorescence correlation spectroscopy reveal that hNETs, which are homomultimers, bind one substrate molecule per transporter subunit. Substrate residence at the transporter, obtained from rapid on-off kinetics revealed in fluorescence correlation spectroscopy, is 526 micros. Substrate residence obtained by infinite dilution is 1000 times slower. This novel examination of substrate-transporter kinetics indicates that a single ASP+ molecule binds and unbinds thousands of times before being transported or ultimately dissociated from hNET. Calibrated fluorescent images combined with mass spectroscopy give a transport rate of 0.06 ASP+/hNET-protein/s, thus 36,000 on-off binding events (and 36 actual departures) occur for one transport event. Therefore binding has a low probability of resulting in transport. We interpret these data to mean that inefficient binding could contribute to slow transport rates.
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PMID:Substrate binding stoichiometry and kinetics of the norepinephrine transporter. 1575 4

4-(4-Chlorophenyl)piperidine analogues each bearing a thioacetamide side chain appendage similar to that found in the wake-promoting drug modafinil have been synthesized. The transporter inhibitory activity of both the cis and trans isomers of these 3,4-disubstituted piperidines in both their (+)- and (-)-enantiomeric forms was determined. These studies reveal that the (-)-cis analogues exhibit dopamine transporter/norepinephrine transporter (DAT/NET) selectivity as was previously reported for the (+)-trans analogues. On the other hand, the (-)-trans and the (+)-cis isomers show serotonin transporter (SERT) or SERT/NET selectivity. Among them, (+)-cis-5b shows a low nanomolar Ki for the NET with 39-fold and 321-fold lower potency at the DAT and SERT, respectively, thus making it a useful pharmacological research tool for exploring NET-associated behavioral signatures. On the other hand, several of the compounds described herein, such as (+)-trans-5c, show comparable activity at all three transporters. Because broad-spectrum transporter inhibitors have been hypothesized to exhibit a more rapid onset of action and/or a greater efficacy as antidepressant agents than those selective for SERT or SERT + NET, some of the present compounds will be valuable to study in animal models of depression.
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PMID:Further structure-activity relationship studies of piperidine-based monoamine transporter inhibitors: effects of piperidine ring stereochemistry on potency. Identification of norepinephrine transporter selective ligands and broad-spectrum transporter inhibitors. 1633 21

Synaptic neurotransmission in the central nervous system (CNS) requires the precise control of the duration and the magnitude of neurotransmitter action at specific molecular targets. At the molecular level, neurotransmitter signaling is dynamically regulated by a diverse set of macromolecules including biosynthetic enzymes, secretory proteins, ion channels, pre- and postsynaptic receptors and transporters. Monoamines, 5-hydroxytryptamine or serotonin (5-HT), norepinephrine (NE), and dopamine (DA) play an important modulatory role in the CNS and are involved in numerous physiological functions and pathological conditions. Presynaptic plasma membrane transporters for 5-HT (SERT), NE (NET), and DA (DAT), respectively, control synaptic actions of these monoamines by rapidly clearing the released amine. Monoamine transporters are the sites of action for widely used antidepressants and are high affinity molecular targets for drugs of abuse including cocaine, amphetamine, and 3,4-methylenedioxymetamphetamine (MDMA) "Ecstasy." Monoamine transporters also serve as molecular gateways for neurotoxins. Emerging evidence indicates that regulation of transporter function and surface expression can be rapidly modulated by "intrinsic" transporter activity itself, and antidepressant and psychostimulant drugs that block monoamine transport have a profound effect on transporter regulation. Therefore, disregulations in the functioning of monoamine transporters may underlie many disorders of transmitter imbalance such as depression, attention deficit hyperactivity disorder, and schizophrenia. This review integrates recent progress in understanding the molecular mechanisms of monoamine transporter regulation, in particular, posttranscriptional regulation by phosphorylation and trafficking linked to cellular protein kinases, protein phosphatases, and transporter interacting proteins. The review also discusses the possible role of psychostimulants and antidepressants in influencing monoamine transport regulation.
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PMID:Regulation of monoamine transporters: influence of psychostimulants and therapeutic antidepressants. 1635 49


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