UNIPROT:P20366 - FACTA Search

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)

Neurocysticercosis, a parasitic infection of the human central nervous system caused by Taenia solium, is a leading cause of seizures. Seizures associated with neurocysticercosis are caused mainly by the host inflammatory responses to dying parasites in the brain parenchyma. We previously demonstrated sequential expression of Th1 cytokines in early-stage granulomas, followed by expression of Th2 cytokines in later-stage granulomas in murine cysticercosis. However, the mechanism leading to this shift in cytokine response in the granulomas is unknown. Neuropeptides modulate cytokine responses and granuloma formation in murine schistosomiasis. Substance P (SP) induces Th1 cytokine expression and granuloma formation, whereas somatostatin inhibits the granulomatous response. We hypothesized that neuropeptides might play a role in regulation of the granulomatous response in cysticercosis. To test this hypothesis, we compared expression of SP and expression of somatostatin in murine cysticercal granulomas by using in situ hybridization and immunohistochemistry. We also compared expression with granuloma stage. Expression of SP mRNA was more frequent in the early-stage granulomas than in the late-stage granulomas (34 of 35 early-stage granulomas versus 1 of 13 late-stage granulomas). By contrast, somatostatin was expressed primarily in later-stage granulomas (13 of 14 late-stage granulomas versus 2 of 35 early-stage granulomas). The median light microscope grade of SP mRNA expression in the early-stage granulomas was significantly higher than that in the late-stage granulomas (P = 0.008, as determined by the Wilcoxon signed rank test). By contrast, somatostatin mRNA expression was higher at later stages (P = 0.008, as determined by the Wilcoxon signed rank test). SP and somatostatin are therefore temporally expressed in granulomas associated with murine cysticercosis, which may be related to differential expression of Th1 and Th2 cytokines.
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PMID:Sequential expression of the neuropeptides substance P and somatostatin in granulomas associated with murine cysticercosis. 1211 65

Managing patients with treatment-resistant depression (TRD) remains a major challenge for the practicing physician. Depression is considered treatment-resistant when at least two adequate monotherapy trials with drugs from different pharmacologic classes fail to elicit a therapeutic response. Although determining the stage of TRD may allow concise description of a patient's antidepressant history, management of TRD is better served by recent attempts to create a treatment algorithm that encompasses definitive diagnosis of true TRD and strategies for optimizing available therapies, including consideration of novel treatment options. Present strategies for managing TRD include optimization of the initial drug, substitution of another drug from the same or a different antidepressant class, combination of two antidepressants with different mechanisms of action, and adding an antidepressant drug from another class. Potential nonpharmacologic treatments include vagus nerve stimulation, repetitive transcranial magnetic stimulation, and magnetic seizure therapy as an alternative to electroconvulsive therapy. Several neuropeptides and their receptors have also been identified as potential targets for pharmacologic intervention, including corticotropin-releasing factor and substance P. Other treatments currently under investigation include augmentation of antidepressant therapy with an atypical antipsychotic agent such as olanzapine or risperidone. This kind of therapeutic intervention may prove to be especially useful in treating patients with TRD.
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PMID:Treatment-resistant depression: new therapies on the horizon. 1283 33

In the present study, we performed a comparative analysis of the distribution of substance P (SP) receptor (NK-1) immunoreactivity in order to determine the characteristics of the SP system in the cerebelli of rat and gerbils. In the rat cerebellar cortex, only a few Purkinje cells exhibited weak NK-1 receptor immunoreactivity. Similar to the case of rat, NK-1 receptor immunoreactivity in the cerebellar cortex of seizure resistant (SR) gerbils was rarely detected. In contrast, in the cerebellar cortex of seizure sensitive (SS) gerbils, dendrites and cell bodies of Purkinje cell showed strong NK-1 receptor immunoreactivity. Similar to the cerebellar cortex, little NK-1 receptor immunoreactivity in deep cerebellar nuclei was observed in the rat. In SR gerbils, however, deep cerebellar nuclei showed weak NK-1 receptor immunoreactivity. NK-1 receptor immunoreactivity in the deep cerebellar nuclei of SS gerbils was markedly increased, as compared with SR gerbils. Based on the present data, we suggest that the SP system of cerebellar circuit in gerbil are different from rat, and over-expression of NK-1 receptor immunoreactivity in Purkinje cells of SS gerbils may be relevant to Purkinje cell loss induced by seizure activity.
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PMID:Elevated substance P (NK-1) receptor immunoreactivity in the cerebellum of seizure prone gerbil. 1562 95

Unlike adults, kainic acid (KA)-induced status epilepticus (SE) in immature rats causes neither cell death nor recurrent spontaneous seizures. To elucidate the mechanisms of these distinct responses, transcriptional changes in neuropeptides were examined following KA-induced SE. We aimed to determine whether neuropeptides with anticonvulsant/neuroprotective properties were preferentially increased in immature rats while those with a proconvulsant/neurotoxic role were elevated to a greater extent in mature rats. We used high-density oligonucleotide gene arrays and directly compared transcriptional regulation of seven select neuropeptides at P15 and P30 over five time points. Total RNAs were isolated from hippocampi of 12 animals and pooled to hybridize to triplicate Affymetrix Genechips. Microarray results were validated by real-time quantitative RT-PCR (qRT-PCR). Independent individual RNA samples were purified for triplicate runs of qRT-PCR. Neuropeptides are significantly regulated by seizures in both immature and mature hippocampus. The magnitude of increase is significantly higher at P30 compared with that at P15, not only for neuropeptides with neurotoxic/proconvulsant properties but also for those with neuroprotective/ anticonvulsant properties. Galanin is induced at 24 h only in P30 rats. CST shows high expression in immature hippocampus and is further increased after KA-induced SE only in P15. The expression trends seen in the microarray data are confirmed by qRT-PCR for all six neuropeptides analyzed. CST might play a neuroprotective role in immature rats, and its overexpression might prevent neuronal loss after seizure in adults. Also, suppression of tachykinin and corticotropin-releasing hormone might be effective in alleviating seizure-induced neuronal damage.
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PMID:Microarray analysis of postictal transcriptional regulation of neuropeptides. 1580 Mar 81

In spite of recent progress in the pharmacotherapy of depression major issues are still unresolved. These include the non-response rate of approximately 30% to conventional antidepressant pharmacotherapy, side effects of available antidepressants and the latency of several weeks until clinical improvement. The only non-pharmacological biological treatment options available so far which exert more rapid antidepressant efficacy are electroconvulsive therapy and, as an augmentation strategy, sleep deprivation. Current pharmacological treatments aim to enhance serotonergic and/or noradrenergic neurotransmission. In spite of emerging knowledge, the crucial mechanisms underlying both non-pharmacological treatments, which are responsible for antidepressant efficacy, are not yet clear so far. In the meantime several new pharmacological principles are under investigation with regard to their putative antidepressant potency. These include 5-HT1A receptor agonists, tachykinin receptor antagonists and various interventions within the hypothalamic-pituitary-adrenal system. While there is evidence for antidepressant properties of these new treatments in animal studies, in case series, in open studies and to some degree also in placebo controlled studies, no definite proof for the antidepressant efficacy of these new pharmacological strategies according to the requirements for evaluation of antidepressant drugs has been furnished so far. In contrast, for the established non-pharmacological treatment strategies including bright light therapy the clinical efficacy has been proven at least in subgroups of depression, but more knowledge of the main mechanisms underlying their antidepressant efficacy is still necessary. In addition new non-pharmacological treatments like repetitive transcranial magnetic stimulation, magnetic seizure therapy and Vagus nerve stimulation are currently under development. Nevertheless, a follow-up of both the new pharmacological strategies and non-pharmacological treatment options is of major importance to provide even better strategies for the clinical management of depression, which also is of great socio-economic impact.
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PMID:Recent progress in pharmacological and non-pharmacological treatment options of major depression. 1647 42

The search for antiepileptic drugs that are capable of blocking the progression of epilepsy (epileptogenesis) is an important problem of translational epilepsy research. The neuropeptide galanin effectively suppresses acute seizures. We examined the ability of hippocampal galanin receptor type 1 (GalR1) and type 2 (GalR2) to inhibit kindling epileptogenesis and studied signaling cascades that mediate their effects. Wistar rats received 24-h-long intrahippocampal infusion of a GalR1/2 agonist galanin(1-29), GalR1 agonist M617 [galanin(1-13)-Gln14-bradykinin(2-9)-amide], or GalR2 agonist galanin(2-11). The peptides were administered alone or combined with an inhibitor of Gi protein pertussis toxin (PTX), Gi-protein activated K+ channels (GIRK) inhibitor tertiapin Q (TPQ), G(q/11) protein inhibitor [D-Arg1,D-Trp(5,7,9),Leu11]-substance P (dSP), or an inhibitor of intracellular Ca2+ release dantrolene. Sixteen hours into drug delivery, the animals were subjected to rapid kindling-60 electrical trains administered to ventral hippocampus every 5 min. M617 delayed epileptogenesis, whereas galanin(1-29) and galanin(2-11) completely prevented the occurrence of full kindled seizures. TPQ abolished anticonvulsant effect of M617 but not of galanin(2-11). PTX blocked anticonvulsant effects of M617 and inversed the action of galanin(1-29) and galanin(2-11) to proconvulsant. dSP and dantrolene did not modify seizure suppression through GalR1 and GalR2, but eliminated the proconvulsant effect of PTX + galanin(1-29) and PTX + galanin(2-11) combinations. We conclude that hippocampal GalR1 exert their disease-modifying effect through the Gi-GIRK pathway. GalR2 is antiepileptogenic through the Gi mechanism independent of GIRK. A secondary proconvulsant pathway coupled to GalR2 involves G(q/11) and intracellular Ca2+. The data are important for understanding endogenous mechanisms regulating epileptogenesis and for the development of novel antiepileptogenic drugs.
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PMID:Regulation of kindling epileptogenesis by hippocampal galanin type 1 and type 2 receptors: The effects of subtype-selective agonists and the role of G-protein-mediated signaling. 1669 66

Repressor element-1 silencing transcription factor (REST) is a candidate modulator of gene expression during status epilepticus in the rodent. In such models, full-length REST and the truncated REST4 variant are induced and can potentially direct differential gene expression patterns. We have addressed the regulation of these REST variants in rodent hippocampal seizure models and correlated this with expression of the proconvulsant, substance P encoding, PPT-A gene. REST and REST4 were differentially regulated following kainic acid stimulus both in in vitro and in vivo models. REST4 was more tightly regulated than REST in both models and its transient expression correlated with that of the differential regulation of PPT-A. Consistent with this, overexpression of a truncated REST protein (HZ4, lacking the C-terminal repression domain) increased expression of the endogenous PPT-A gene. Similarly the proximal PPT-A promoter reporter gene construct was differentially regulated by the distinct REST isoforms in hippocampal cells with HZ4 being the major inducer of increased reporter expression. Furthermore, REST and REST4 proteins were differentially expressed and compartmentalized within rat hippocampal cells in vitro following noxious stimuli. This differential localization of the REST isoforms was confirmed in the CA1 region following perforant path and kainic acid induction of status epilepticus in vivo. We propose that the interplay between REST and REST4 alter the expression of proconvulsant genes, as exemplified by the PPT-A gene, and may therefore regulate the progression of epileptogenesis.
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PMID:Regulation and role of REST and REST4 variants in modulation of gene expression in in vivo and in vitro in epilepsy models. 1682 91

Substance P (SP) is known to be a peptide that facilitates epileptic activity of principal cells in the hippocampus. Paradoxically, in other models, it was found to be protective against seizures by activating substance P receptor (SPR)-expressing interneurons. Thus, these cells appear to play an important role in the generation and regulation of epileptic seizures. The number, distribution, morphological features and input characteristics of SPR-immunoreactive cells were analyzed in surgically removed hippocampi of 28 temporal lobe epileptic patients and eight control hippocampi in order to examine their changes in epileptic tissues. SPR is expressed in a subset of inhibitory cells in the control human hippocampus, they are multipolar interneurons with smooth dendrites, present in all hippocampal subfields. This cell population is considerably different from SPR-positive cells of the rat hippocampus. The CA1 (cornu Ammonis subfield 1) region was chosen for the detailed morphological analysis of the SPR-immunoreactive cells because of its extreme vulnerability in epilepsy. The presence of various neurochemical markers identifies functionally distinct interneuron types, such as those responsible for perisomatic, dendritic or interneuron-selective inhibition. We found considerable colocalization of SPR with calbindin but not with parvalbumin, calretinin, cholecystokinin and somatostatin, therefore we suppose that SPR-positive cells participate mainly in dendritic inhibition. In the non-sclerotic CA1 region they are mainly preserved, whereas their number is decreased in the sclerotic cases. In the epileptic samples their morphology is considerably altered, they possessed more dendritic branches, which often became beaded. Analyses of synaptic coverage revealed that the ratio of symmetric synaptic input of SPR-immunoreactive cells has increased in epileptic samples. Our results suggest that SPR-positive cells are preserved while principal cells are present in the CA1 region, but show reactive changes in epilepsy including intense branching and growth of their dendritic arborization.
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PMID:Morphology and synaptic input of substance P receptor-immunoreactive interneurons in control and epileptic human hippocampus. 1709 38

Huntington's disease is characterized by death of striatal projection neurons. We used a Cre/Lox transgenic approach to generate an animal model in which D1 dopamine receptor (Drd1a)+ cells are progressively ablated in the postnatal brain. Striatal Drd1a, substance P, and dynorphin expression is progressively lost, whereas D2 dopamine receptor (Drd2) and enkephalin expression is up-regulated. Magnetic resonance spectroscopic analysis demonstrated early elevation of the striatal choline/creatine ratio, a finding associated with extensive reactive striatal astrogliosis. Sequential MRI demonstrated a progressive reduction in striatal volume and secondary ventricular enlargement confirmed to be due to loss of striatal cells. Mutant mice had normal gait and rotarod performance but displayed hindlimb dystonia, locomotor hyperactivity, and handling-induced electrographically verified spontaneous seizures. Ethological assessment identified an increase in rearing and impairments in the oral behaviors of sifting and chewing. In line with the limbic seizure profile, cell loss, astrogliosis, microgliosis, and down-regulated dynorphin expression were seen in the hippocampal dentate gyrus. This study specifically implicates Drd1a+ cell loss with tail suspension hindlimb dystonia, hyperactivity, and abnormal oral function. The latter may relate to the speech and swallowing disturbances and the classic sign of tongue-protrusion motor impersistence observed in Huntington's disease. In addition, the findings of this study support the notion that Drd1a and Drd2 are segregated on striatal projection neurons.
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PMID:Ablation of D1 dopamine receptor-expressing cells generates mice with seizures, dystonia, hyperactivity, and impaired oral behavior. 1736 Apr 97

Status epilepticus (SE) describes an enduring epileptic state during which seizures are unremitting and tend to be self-perpetuating. We describe the clinical phases of generalized convulsive SE, impending SE, established SE, and subtle SE. We discuss the physiological and biochemical cascades which characterize self-sustaining SE (SSSE) in animal models. At the transition from single seizures to SSSE, GABA(A) (gamma-aminobutyric acid) receptors move from the synaptic membrane to the cytoplasm, where they are functionally inactive. This reduces the number of GABA(A) receptors available for binding GABA or GABAergic drugs, and may in part explain the development of time-dependent pharmacoresistance to benzodiazepines and the tendency of seizures to become self-sustaining. At the same time, 'spare' subunits of AMPA (alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid) and NMDA (N-methyl-D-aspartic acid) receptors move from subsynaptic sites to the synaptic membrane, causing further hyperexcitability and possibly explaining the preserved sensitivity to NMDA blockers late in the course of SE. Maladaptive changes in neuropeptide expression occur on a slower time course, with depletion of the inhibitory peptides dynorphin, galanin, somatostatin and neuropeptide Y, and with an increased expression of the proconvulsant tachykinins, substance P and neurokinin B. Finally, SE-induced neuronal injury and epileptogenesis are briefly discussed.
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PMID:Advances in the pathophysiology of status epilepticus. 1736 70

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