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: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have observed increased tachykinin NK(1) receptor immunoreactivity (NK(1)-IR) in the prefrontal cortex in subjects with schizophrenia. Since the subjects were medicated the possibility of a treatment effect could not be excluded. Thus, the present study was undertaken to determine the effect of chronic treatment with the antipsychotic drug, haloperidol, on the distribution of NK(1)-IR neurons in the guinea-pig brain. Guinea pigs were treated each day for 21 days with either haloperidol (1mg/kg) or vehicle and the brains were then processed for immunohistochemistry using an NK(1) receptor-specific polyclonal antibody. NK(1)-IR neurons and fibres were abundant in the forebrain cortex and caudate putamen and more sparsely distributed in a number of other brain regions. The relative density of NK(1)-IR neurons was significantly increased in the forebrain cortex, but not in the caudate putamen in guinea pigs treated with haloperidol. This study has shown that haloperidol causes region-specific changes to the density of NK(1)-IR neurons. Whether these changes are related to the therapeutic effects or to the side effects of haloperidol in individuals with schizophrenia, remains to be determined.
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PMID:The effects of haloperidol treatment on the distribution of NK1 receptor immunoreactive neurons in guinea-pig brain. 1593 30

The amygdala has a role in the modulation of moods and emotion, processes that are known to be affected in people with psychiatric disorders such as schizophrenia and depression. The tachykinin NK(1) receptor is known to be expressed in the amygdala. However to date, there is limited knowledge of the distribution of the NK(1) receptor in this region. This study used immunohistochemistry to analyse the distribution of the NK(1) receptor in fixed human amygdala tissue in control subjects with no history of psychiatric illness and matched subjects with a diagnosis of schizophrenia (n=4 pairs). The NK(1) receptor was observed sparsely distributed in cell bodies in all amygdaloid nuclei with the basolateral and lateral having a greater relative density of NK(1) receptor-immunoreactive cell bodies than the other nuclei. Double labelling with antibodies to microtubule associated protein and the NK(1) receptor revealed that the NK(1) receptor is expressed by large pyramidal, small stellate and large bipolar neurons. Interestingly, the basal nucleus of Meynert, which is just dorsal to the amygdala, was observed to have a significantly higher relative density of NK(1) receptor-immunoreactive cell bodies compared to any of the amygdaloid nuclei. Preliminary analysis of the density of NK(1) receptor-immunoreactive cell bodies in the major amygdaloid nuclei and the basal nucleus of Meynert revealed no significant differences between schizophrenia and control subjects. Real-time PCR showed that the mRNA for both the short and long isoforms of the NK(1) receptor was expressed at low levels in fresh frozen human amygdala tissue from control subjects and that this was not different in matched subjects with schizophrenia (n=11 pairs). In conclusion, this study has demonstrated that the NK(1) receptor is widely distributed in the amygdala, and has shown for the first time a high relative density of NK(1) receptor-immunoreactive cell bodies in the basal nucleus of Meynert.
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PMID:Immunohistochemical localisation of the NK1 receptor in the human amygdala: preliminary investigation in schizophrenia. 1681 18

The classical tachykinins, substance P, neurokinin A and neurokinin B are predominantly found in the nervous system where they act as neurotransmitters and neuromodulators. Their respective preferred receptors are NK1, NK2, and NK3 receptors. The presence of substance P in nociceptive primary afferent neurons, electrophysiological studies showing that it activated neurons in the dorsal horn of the spinal cord, and behavioral studies in animals, supported the concept that substance P was an important transmitter in the nociceptive pathway. It was therefore surprising that non-peptide NK1 receptor antagonists were ineffective as analgesics in clinical pain conditions. Nevertheless, the discovery that NK1 receptor antagonists had antidepressant activity led to renewed interest in these antagonists. It is disappointing that clinical trials of MK869 (aprepitant) for depression were suspended. The future of NK1 receptor antagonists as antidepressant drugs will depend on the outcome of clinical trials with other NK1 receptor antagonists. NK1 receptor antagonists were also found to be effective antiemetics, and aprepitant has recently become available for the treatment of chemotherapy induced emesis. Although less is known of the potential of NK2 and NK3 receptor antagonists, recent trials of NK3 receptor antagonists have shown efficacy in schizophrenia. The discovery of a new family of tachykinins, the hemokinins and endokinins, which acts on NK1 receptors and has potent effects on immune cells, has implications for the clinical use of NK1 receptor antagonists. Thus specific therapeutic strategies may be required to enable NK1 receptor antagonists to be introduced for treatment of neuropsychiatric disorders.
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PMID:Tachykinins and neuropsychiatric disorders. 1691 27

Substance P is involved in the modulation of depression, anxiety, and suicidal-related behaviors. We studied gene variants of Tachykinin Receptor 1 (TACR1-rs3771810, rs3771825, rs726506, rs1477157) in 167 German suicide attempters (affective spectrum n = 107, schizophrenia spectrum n = 35, borderline personality disorder n = 25), 92 Caucasian individuals who committed suicide and 312 German healthy subjects. Single markers and haplotype analysis in relation to suicidal behaviors (suicide attempters/completers) did not reveal any significant association. The rarest rs3771825 T allele however showed a marginal association with higher Reactive Aggression scores on the Questionnaire for Measuring Factors of Aggression (FAF) (F = 9.86, df = 1; P = 0.0017). Haplotype analyses confirmed the finding. Violence or impulsivity of suicide attempt and State-Trait Anger Expression Inventory (STAXI) scores were not associated with gene variants. In conclusion, our study suggests that TACR1 gene variants have no major influence on suicidal behavior but may modulate aggression features.
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PMID:Tachykinin receptor 1 variants associated with aggression in suicidal behavior. 1744 17

The neurokinin-3 (NK(3)) is one of the tachykinin peptide neurotransmitter / neuromodulator receptor family. NK(3) receptors are predominantly expressed in neurons of both the peripheral and central nervous systems and in particular, in many of the forebrain areas, such as frontal, parietal and cingulate cortices, and basal ganglia structures implicated in psychiatric disease states. Consistent with this localization pattern, NK(3) receptors appear to modulate monoaminergic and amino acid neurotransmission within these structures. Taken together these observations have lead to the speculation that modulators of NK(3) receptor activity may have therapeutic utility in psychiatric diseases such as schizophrenia and affective disorders. This speculation has recently gained clinical credence through a number of reports of efficacy in placebo controlled studies. In this article, the authors review the recent patent literature highlighting the various NK(3) receptor modulation strategies for potential therapeutic utility in psychiatric disease indications.
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PMID:Neurokinin 3 (NK3) receptor modulators for the treatment of psychiatric disorders. 1822 Dec 36

Glutamate exerts its effects through binding and activation of two classes of specific receptors: ionotropic (iGluRs) and metabotropic (mGluRs). Group I mGluR includes mGluR1 and mGluR5 subtypes, group II includes mGluR2 and mGluR3 subtypes and group III includes the subtypes mGluR 4, 6, 7 and 8. Glutamate and its receptors are found in all key hypothalamic areas critically involved in reproduction and neuroendocrine function. To date, considerable data support an important role for iGluRs in the control of neuroendocrine function; however, the role of mGluRs as regulators of hypothalamic-pituitary function has not been clearly elucidated. mGluRs could be exerting a fine tune on the release of hypothalamic factors that regulate hormone release such as Substance P, GABA, alpha-MSH and CRH. Group II mGluR exert a direct inhibitory effect on anterior pituitary prolactin and GH secretion. Moreover, some group II mGluR agonists, like LY 354,740 and LY 379,268, can modulate PRL secretion from the anterior pituitary through their actions as dopamine receptor agonists. Evidence suggests a role for group III mGluR subtypes in stress-related behavioral disorders. Several reports indicate that selective ligands for mGluR subtypes have potential for the treatment of a wide variety of neurological and psychiatric disorders, including depression, anxiety disorders, schizophrenia, epilepsy and Alzheimer's disease among others. Since converging lines of evidence suggest a role for mGluRs subtypes in neuroendocrine regulation of hormone secretion, mGluRs neuroendocrine actions must be taken in consideration to insure proper treatment of these diseases. Moreover, discovery of selective agonists provides an opportunity to investigate the physiological role of mGluR subtypes and to directly test the neuroendocrine actions of mGluRs. Finally, mGluRs selective agonists may have an impact in the treatment of conditions involving chronic stress, such as depression and anxiety disorders, since they regulate neuroendocrine stress circuits involving the HPA axis and stress-sensitive hormones such as oxytocin and prolactin. This review aims to provide a survey of our current understanding of the effects of mGluR activation on neuroendocrine function.
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PMID:Role of metabotropic glutamate receptors in the control of neuroendocrine function. 1861 55

Aspiration pneumonia is a major cause of death in patients with dysphagia, often accompanied by psychiatric symptoms. The inhibition of swallowing and cough reflexes, which contribute to a significant risk for aspiration, may be related to decreased levels of substance P. Clinical studies indicate a strong association of an increased mortality in psychiatric patients with the use of antipsychotics. The present study documented fewer positive episodes of swallowing reflex in patients treated with haloperidol for schizophrenia (7/11; 63.6%) than those treated with risperidone (10/11; 90.9%). In addition, patients treated with risperidone had serum substance P levels comparable with control subjects (29.0 +/- 7.8 pg/mL, 29.6 +/- 7.6, respectively; p = 0.9), while patients treated with haloperidol had significantly lower serum substance P levels (20.6 +/- 5.5 pg/mL; p < 0.01). Among patients on haloperidol, those with negative episodes of reflex (4/11; 36.4%) had serum substance P levels at 15.8 +/-1.0 pg/mL, in contrast with those with positive episodes (7/11; 63.6%) who had serum levels at 23.4 +/- 4.9 pg/mL. However, in the patient group treated with risperidone, serum substance P levels in the majority of patients with positive episodes of reflexes (10/11, 90.9%; 30.1 +/- 7.2 pg/mL) was found to be as high as in control subjects, all with positive episodes (5/5, 100%; 29.6 +/- 7.6 pg/mL) (p = 0.866), and higher than in one patient with negative reflex (1/11, 9.1%; 18.0 +/- 0.0 pg/mL). These results suggest that the decreased serum substance P levels are strongly associated with the use of haloperidol, as well as decreased swallowing reflexes. This suggests that serum substance P levels may be a useful predictive marker for the increased risk of developing aspiration, or subsequently aspiration pneumonia. Moreover, this increased incidence of aspiration may contribute to an increased mortality in patients following antipsychotic therapy. Risperidone, which has little influence on serum substance P productions, may be a more appropriate first-line drug of choice for treatment of schizophrenia.
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PMID:Serum substance P levels in patients with chronic schizophrenia treated with typical or atypical antipsychotics. 1872 97

The tachykinin family of receptors has been of strong interest recently due to the potential of the tachykinin NK(3) receptor antagonism in treatment of schizophrenia. However, critical differences in the tachykinin NK(3) receptor between rats, mice and humans make rats and mice less acceptable species for testing tachykinin NK(3) receptor antagonism. This has led to testing of tachykinin NK(3) receptor activity in gerbils and guinea pigs. As these species are much less common laboratory animals than rats and mice, there is a relative paucity of in vivo testing models for tachykinin NK(3) receptor activation. In the present study, locomotor activity induced by the tachykinin NK(3) receptor agonist senktide was characterized. Injection of senktide i.c.v. was found to dose-dependently induce hyperlocomotion from a dose of 0.06 nmol to the maximal dose tested, 0.6 nmol. Locomotion induced by 0.1 nmol of senktide could be blocked by injection of the tachykinin NK(3) receptor antagonists SB222200 (10 and 30 mg/kg i.p.) and talnetant (SB223412; 10 and 30 mg/kg i.p.), as well as by osanetant (SR142801; 10 and 30 mg/kg i.p.) when administered in a vehicle containing vitamin E and glycofurol. Senktide-induced activity was also reversed by the antipsychotics haloperidol (0.3 and 1 mg/kg p.o.) and risperidone (1 mg/kg p.o.), but not by the serotonin 5HT(2a/c) receptor antagonist MDL100907 (tested at 0.1, 0.3 and 1 mg/kg p.o.). Hyperlocomotion induced by 0.03 nmol of senktide was potentiated by antagonism of the tachykinin NK(1) receptor with aprepitant (1, 3 and 10 mg/kg, p.o.). Thus, hyperlocomotion induced by senktide in gerbils is a tachykinin NK(3) receptor-mediated behavior that is appropriate for use in testing tachykinin NK(3) receptor activity of novel compounds.
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PMID:The tachykinin NK3 receptor agonist senktide induces locomotor activity in male Mongolian gerbils. 1893 Jul 26

The first report demonstrating the therapeutic efficacy of an orally applied neurokinin-1 (NK1) receptor antagonist in depression was published 10 years ago. Although there were difficulties to reproduce this particular finding, a huge amount of data has been published since this time, supporting the potential therapeutic value of various tachykinin ligands as promising novel tools for the management of stress-related disorders including anxiety disorders, schizophrenia and depression. The present review summarizes evidence derived from anatomical, neurochemical, pharmacological and behavioral studies demonstrating the localization of tachykinin neuropeptides including substance P (SP), neurokinin A, neurokinin B and their receptors (NK1, NK2, NK3) in brain areas known to be implicated in stress-mechanisms, mood/anxiety regulation and emotion-processing; their role as neurotransmitters and/or neuromodulators within these structures and their interactions with other neurotransmitter systems including dopamine, noradrenaline and serotonin (5-hydroxytryptamine, 5-HT). Finally, there is clear functional evidence from animal and human studies that interference with tachykinin transmission can modulate emotional behavior. Based on these findings and on evidence of upregulated tachykinin transmission in individuals suffering from stress-related disorders, several diverse tachykinin receptor antagonists, as well as compounds with combined antagonist profile have been developed and are currently under clinical investigation revealing evidence for anxiolytic, antidepressant and antipsychotic efficacy, seemingly characterized by a low side effect profile. However, substantial work remains to be done to clarify the precise mechanism of action of these compounds, as well as the potential of combining them with established and experimental therapies in order to boost efficacy.
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PMID:Tachykinin receptors as therapeutic targets in stress-related disorders. 1944 79

PDE10A is a member of the phosphodiesterase superfamily highly enriched within medium spiny neurons (MSN) in mammalian striatum. We have used inhibitors of PDE10A and quantitative measures of mRNA to demonstrate that PDE10A controls striatal gene expression by regulating MSN cyclic nucleotide signaling pathways. Acute treatment with PDE10A inhibitors produces rapid and transient transcription of the immediate early gene cfos in rat striatum. Although inhibition of PDE10A causes accumulation of both cAMP and cGMP, the increase in striatal cfos expression appears to depend on changes in cAMP, since the increase is present in mice deficient in nNOS which fail to increase cGMP in response to PDE10A inhibition. Consistent with its expression in a majority of striatal MSN, PDE10A inhibition significantly induces expression of both substance P and enkephalin, neuropeptide markers for the direct and indirect striatal output pathways, respectively. These findings support the hypothesis that PDE10A modulates signal transduction in both striatal output pathways and suggest that PDE10A inhibitors may offer a unique approach to the treatment of schizophrenia.
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PMID:Alterations in gene regulation following inhibition of the striatum-enriched phosphodiesterase, PDE10A. 1976 98


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