Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment with an antagonist at the neurokinin-1 (NK-1) receptor may alleviate depression, however the brain region(s) in which the NK-1 receptor antagonist exerts its therapeutic effect is unknown. [125I]BH-Substance P was used to measure NK-1 receptors postmortem in cytoarchitectonically defined areas of rostral orbitofrontal cortex (Brodmann's area 47) of subjects with major depressive disorder (n = 12, six females) and psychiatrically normal subjects (n = 11, five females). Six subjects with depression died by suicide. Subjects with depression showed decreased binding to NK-1 receptors across all cortical layers (p = 0.024). The pathophysiology of depression, and the reported therapeutic benefit of NK-1 receptor antagonists, may thus involve NK-1 receptors in prefrontal cortex.
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PMID:Neurokinin-1 receptors are decreased in major depressive disorder. 1215 74

Angiotensin-converting enzyme (ACE) inhibitor has mood-elevating effects, and central ACE activity is increased for suicidal patients. In addition, substance P (SP), which is degraded by ACE, has been implicated in the pathogenesis of, and evaluated in the treatment for, major depressive disorder (MDD). The present study has tested the hypothesis that an ACE-gene insertion/deletion (I/D) polymorphism is associated with onset age, clinical manifestations, suicide history, and/or antidepressant response for two groups of MDD patients. No significant differences were demonstrated for onset age (p = 0.520), suicide history (p = 0.823), or baseline, total and cluster scores for Hamilton Depression Rating Scale comparing the three ACE genotypes. Further, previous findings that this ACE polymorphism is associated with therapeutic antidepressant effects were not replicated. The results demonstrate that these ACE variants did not play a major role in the clinical manifestations or antidepressant response for our MDD patients.
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PMID:Association study of angiotensin I-converting enzyme polymorphism and symptomatology and antidepressant response in major depressive disorders. 1220 48

Elucidation of the neurobiological basis of depression and other mood disorders is rapidly increasing. Considerable experimental and clinical evidence supports the fundamental roles of serotonin and norepinephrine, as well as the interactions between these systems in the etiology of depression. Substantial evidence has accrued, including changes in neurotransmitter and neurotransmitter metabolite concentrations, reuptake sites, and receptors, to support the hypothesis that alteration in neuronal serotonergic and noradrenergic function occurs in the central nervous system of patients with major depression. Serotonin and norepinephrine represent the major targets of current therapeutic interventions, which may induce longer-term adaptive changes via modulation of the activity of these neurotransmitters. In addition, two neuropeptide neurotransmitters--substance P and corticotropin-releasing factor--have been implicated in the pathophysiology of mood disorders. Preliminary studies have reported the clinical efficacy of a tachykinin NK1 receptor antagonist and a CRF1 receptor antagonist in depressive disorders. Further clarification of the precise neurobiological changes occurring in depression has implications for the use and development of novel effective treatments for this disorder.
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PMID:Recent advances in the neurobiology of depression. 1249 Aug 20

Effective antidepressants include monoamine oxidase inhibitors and tricyclic antidepressants, selective serotonin re-uptake inhibitors and novel agents, including serotonin and noradrenaline re-uptake inhibitors. Although effective, current treatments most often produce partial symptomatic improvement (response) rather than symptom resolution and optimal functioning (remission). While current pharmacotherapies target monoaminergic systems, different symptoms of major depressive disorder (MDD) may have distinct neurobiological underpinnings and other neurobiological systems are likely involved in the pathogenesis of MDD. In this article a review of current pharmacotherapeutic options for MDD, current understanding of the neurobiology and pathogenesis of MDD and a review of new and promising directions in pharmacological research will be provided. It is generally accepted that no single neurotransmitter or system is responsible for the dysregulation found in MDD. While agents that affect monoaminergic systems will likely continue to be first-line treatments for MDD for the foreseeable future, a number of new and novel agents, including corticotropin-releasing factor antagonists, substance P antagonists and antiglucocorticoids show considerable promise for refining treatment options. In order to better understand the neurobiology and treatment response of MDD, it is probable that more sophisticated theory-driven typologies of MDD will have to be developed.
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PMID:Recent developments in the psychobiology and pharmacotherapy of depression: optimising existing treatments and novel approaches for the future. 1251 55

The role of peptides as signalling molecules in the nervous system has been studied for more than 30 years. Neuropeptides and their G-protein-coupled receptors are widely distributed throughout the body and they commonly occur with, and are complementary to, classic neurotransmitters. The functions of neuropeptides range from neurotransmitter to growth factor. They are present in glial cells, are hormones in the endocrine system, and are messengers in the immune system. Much evidence indicates that neuropeptides are of particular importance when the nervous system is challenged (eg, by stress, injury, or drug abuse). These features and the large number of neuropeptides and neuropeptide receptors provide many opportunities for the discovery of new drug targets for the treatment of nervous-system disorders. In fact, receptor-subtype-selective antagonists and agonists have been developed, and recently a substance P receptor (neurokinin 1) antagonist has been shown to have clinical efficacy in the treatment of major depression and chemotherapy-induced emesis. Several other neuropeptide receptor ligands are in clinical trials for various indications.
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PMID:Neuropeptides: opportunities for drug discovery. 1287 34

The efficacy and safety of a selective NK(1) antagonist, L-759274, was investigated in outpatients with diagnosis of major depressive disorder with melancholic features, following evidence obtained with the novel compound aprepitant that Substance P (NK(1)) antagonists may provide a unique mechanism of antidepressant activity. A randomized, double-blind placebo-controlled study was carried out. Patients, male or female, aged 18-60, scoring >/=25 points on total of first 17 items of 21-item Hamilton Depression Scale (HAMD), and scoring >/=4 (moderately ill) on Clinical Global Impressions-Severity Scale were randomized to oral L-759274 40 mg daily (n=66) or placebo (n=62) for 6 weeks. For patients receiving L-759274, improvement (mean decrease from baseline) in HAMD-17 total score was 10.7 points, compared with a mean 7.8 point improvement in patients receiving placebo (p<0.009). Mean scores for item 1 of HAMD-17 (depressed mood) also improved to a greater extent in the active group compared with the placebo group (0.3 points, p<0.058). Compared with placebo, mean scores on Clinical Global Impressions-Improvement Scale improved significantly by the end of the trial (p=0.009). L-759274 was generally safe and well-tolerated. The incidence of sexual side effects was on par with that observed in patients receiving placebo, and the incidences of gastrointestinal effects were low. Antidepressant actions have now been observed with two different highly selective NK(1) antagonists (aprepitant and L-759274). NK(1) antagonism is a replicated and generally well-tolerated antidepressant mechanism.
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PMID:Demonstration of the efficacy and safety of a novel substance P (NK1) receptor antagonist in major depression. 1466 14

Neurokinins (NK) are peptide molecules with modulatory actions on other neurotransmitter systems, notably the monoaminergic ones, within the central nervous system and peripheral tissues. A great deal of evidence supports a role for these substances, mainly for substance P and its main receptor NK1, in a number of physiologic and pathologic conditions, including affective and behavioral responses to stress. NK1 receptor antagonists have shown preclinical activity in several paradigms of anxiety and depression. Mutant mice lacking the NK1 receptor gene have an increased firing rate of dorsal raphe serotonergic neurons, an effect that can also be seen after the administration of substance P antagonists. When given chronically, NK1 antagonists promote an enhancement of serotonergic transmission in the hippocampus that seems to be mediated by interaction with other neurotransmission systems. Clinical efficacy of such drugs has also been demonstrated among patients with major depression, although the results have been inconclusive. More research is needed to elucidate the precise role these drugs could play in the treatment of affective disorders in the future.
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PMID:[The modulatory role of neurokinins in affective behaviors]. 1570 32

To investigate a possible link between some neuropeptides and depression, we analyzed their mRNA levels in brains of rats exposed to chronic mild stresses (CMS; a stress-induced anhedonia model), a commonly used model of depression. Rats exposed for 3 weeks to repeated, unpredictable, mild stressors exhibited an increased self-stimulation threshold, reflecting the development of an anhedonic state, which is regarded as an animal model of major depression. In situ hybridization was employed to monitor mRNA levels of neuropeptide Y (NPY), substance P and galanin in several brain regions. In the CMS rats, NPY mRNA expression levels were significantly decreased in the hippocampal dentate gyrus but increased in the arcuate nucleus. The substance P mRNA levels were increased in the anterodorsal part of the medial amygdaloid nucleus, in the ventromedial and dorsomedial hypothalamic nuclei and the lateral hypothalamic area, whereas galanin mRNA levels were decreased in the latter two regions. These findings suggest a possible involvement of these three peptides in mechanisms underlying depressive disorders and show that similar peptide changes previously demonstrated in genetic rat models also occur in the present stress-induced anhedonia model.
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PMID:Neuropeptide expression in rats exposed to chronic mild stresses. 1571 27

Increasing evidence suggests that substance P (SP) neurokinin-1 (NK1) receptors are involved in stress and emotional responses, representing a potential target for the treatment of anxiety and depression in humans. Given the important role of the amygdaloid complex in the regulation of emotional behavior, we examined the mRNA levels of preprotachykinin A [PPT-A, a precursor of both SP and neurokinin A (NKA)] and 3H-SP binding sites in the amygdala of patients affected by bipolar disorder, major depression or schizophrenia as compared with matched control individuals. By means of in situ hybridization, a significant reduction of PPT-A mRNA expression levels was detected in the three diagnostic groups, mainly in the basal, lateral and accessory basal amygdaloid nuclei, but not in the temporal cortical area proximal to the amygdala. Receptor autoradiography performed on adjacent sections showed no change in 3H-SP binding sites as compared with controls. No significant correlation was found between levels of PPT-A mRNA expression or binding sites and subject age, gender, hemisphere side, cause of death or history of substance misuse (marijuana, alcohol, cocaine/amphetamine). An inverse relationship between PPT-A mRNA expression levels and lifetime antipsychotic treatment (Fluphenazine) in the schizophrenic and bipolar disorder groups was found. Post-mortem delay was also negatively correlated with NK1 binding sites. The results confirm an involvement of the tachykinins in psychiatric disorders, suggesting there is a generalized impairment of the SP system in the amygdala in mood disorders and schizophrenia rather than this being a disease-related phenomenon.
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PMID:Down-regulation of amygdala preprotachykinin A mRNA but not 3H-SP receptor binding sites in subjects affected by mood disorders and schizophrenia. 1584 98

Some studies have demonstrated antidepressant activity of neurokinin-1-receptor antagonists (NK-1-RA) in major depressive disorder. However, the underlying mechanisms of this antidepressant effect are largely unknown. Preclinical studies in rats and mice have suggested that NK-1-RA do increase the neuronal release of serotonin (5-HT). This, however, seems to be compensated by an increased 5-HT reuptake, indicating that NK-1-RA have no inhibitory effect on the 5-HT transporter in rodents. Given the possibility that modulation of neurotransmitter release and reuptake may differ between species, with major differences found between rodents and humans, we investigated for the first time the possible modulatory effect of NK-1-RA on 5-HT uptake in human brain synaptosomes and compared it with the situation in rat cortex. We found that the specific human NK-1-RA L-733060, in contrast to the SSRI fluvoxamine (IC50=10(-7.96)M) did not inhibit 5-HT uptake in human brain synaptosomes and did not modulate fluvoxamine-induced 5-HT uptake inhibition at 1 muM. Furthermore, substance P as well as Sar9Met(O2)11SP, as the major agonists at the NK-1-R, did not modulate 5-HT uptake in human brain synaptosomes. Similar results were found in rat cortex synaptosomes by using the rat-specific NK-1-RA WIN51708. These results show that in humans, as in rodents, inhibition of the 5-HT transporter is probably not the underlying mechanism of the assumed antidepressant activity of NK-1-RA.
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PMID:No modulatory effect of neurokinin-1 receptor antagonists on serotonin uptake in human and rat brain synaptosomes. 1599 Feb 80


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