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)

Glial cell line-derived neurotrophic factor (GDNF) is a neurotrophic factor with a therapeutic potential in neurodegenerative disorders. GDNF is expressed in the adult striatum, but its signalling tyrosine kinase receptor, c-ret, has not been detected in this structure by in situ hybridization. In the present work, we first examined c-ret and GDNF receptor alpha 1 (GFR-alpha 1) expression using an RNAse protection assay, and found that both receptors are expressed in the adult rat striatum. We then examined whether GDNF was able to regulate the phenotype and/or prevent the degeneration of striatal projection neurons in a well-characterized model of excitotoxic damage. A fibroblast cell line, engineered to overexpress GDNF, was grafted in adult rats striatum 24 h before quinolinic acid (QUIN) injection. QUIN injection alone or in combination with the control cell line induced a loss of glutamic acid decarboxylase 67 (GAD)-, preprotachykinin A (PPTA)-, prodynorphin (DYN)- and preproenkephalin (PPE)-positive neurons. GDNF selectively prevented: (i) the loss of a subpopulation of striatonigral neurons expressing GAD and PPTA; (ii) the atrophy of PPTA-positive neurons; and (iii) the decrease in GAD, PPTA and DYN mRNA expression, after QUIN injection. Moreover, in unlesioned animals, GDNF increased the size of PPTA-positive neurons and up-regulated their mRNA levels. In contrast, GDNF showed no effect in intact or lesioned striatopallidal PPE-positive neurons. Thus, our findings show that GDNF selectively regulates the phenotype and protects striatonigral neurons from QUIN-induced excitotoxicity, suggesting that GDNF may be used for the treatment of striatonigral degenerative disorders, e.g. Huntington's disease and multiple system atrophy.
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PMID:Intrastriatal grafting of a GDNF-producing cell line protects striatonigral neurons from quinolinic acid excitotoxicity in vivo. 998 28

Morphological features indicating occurrence of two types of extrasynaptic chemical transmission were observed within rat basal ganglia. (1) Striatonigral neurons containing substance P (SP) sent many axon collaterals equipped with axonal varicosities to the striatum: the varicosities displayed synaptophysin-like immunoreactivity (-LI). However, only 15% of the varicosities appeared to be in close contact with structures showing SP receptor (SPR)-LI. Many of axon terminals of striatonigral neurons were confirmed electron microscopically not to be in synaptic contact with SPR-like immunoreactive structures within the striatum. SP released from the varicosities might, at least partly, diffuse to reach SPR at distance from the release sites. (2) Immunoreactivities for metabotropic glutamate receptors (mGluRs) 4 a, 7 a, 7 b and 8 were in axon terminals within the globus pallidus (external segment of the globus pallidus in primates). The immunoreactivities disappeared after destruction of the striatum, but not after destruction of the subthalamic nucleus. The immunoreactivity for mGluR 7 a was confirmed electron microscopically to be within axon terminals showing glutamic acid decarboxylase-LI. Glutamate released from glutamatergic subthalamopallidal neurons might partly spilled over from the synaptic sites to reach mGluRs on "nearby" axon terminals of GABAergic striatopallidal neurons. Functional significance of thalamostriatal and corticosubthalamic fibers was also discussed.
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PMID:[Analysis of neuronal connections in the basal ganglia]. 1034 33

N-methyl-D-aspartate (NMDA) receptors are composed of subunits from two families: NR1 and NR2. We used a dual-label in situ hybridization technique to assess the levels of NR1 and NR2A-D messenger ribonucleic acid (mRNA) expressed in projection neurons and interneurons of the human striatum. The neuronal populations were identified with digoxigenin-tagged complementary RNA probes for preproenkephalin (ENK) and substance P (SP) targeted to striatal projection neurons, and somatostatin (SOM), glutamic acid decarboxylase 67 kD (GAD(67)), and choline acetyltransferase (ChAT) targeted to striatal interneurons. Intense NR1 signals were found over all striatal neurons. NR2A signals were high over GAD(67)-positive neurons and intermediate over SP-positive neurons. ENK-positive neurons displayed low NR2A signals, whereas ChAT- and SOM-positive neurons were unlabeled. NR2B signals were intense over all neuronal populations in striatum. Signals for NR2C and NR2D were weak. Only ChAT-positive neurons displayed moderate signals, whereas all other interneurons and projection neurons were unlabeled. Moderate amounts of NR2D signal were detected over SOM- and ChAT-positive neurons; GAD(67)- and SP-positive striatal neurons displayed low and ENK-positive neurons displayed no NR2D hybridization signal. These data suggest that all human striatal neurons have NMDA receptors, but different populations have different subunit compositions that may affect function as well as selective vulnerability.
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PMID:Expression of NMDA receptor subunit mRNAs in neurochemically identified projection and interneurons in the human striatum. 1074 12

Double-label in situ hybridization was used to identify the phenotypes of striatal neurons that express mRNA for cannabinoid CB(1) receptors. Simultaneous detection of multiple mRNAs was performed by combining a (35)S-labeled ribonucleotide probe for CB(1) mRNA with digoxigenin-labeled riboprobes for striatal projection neurons (preprotachykinin A, prodynorphin, and preproenkephalin mRNAs) and interneurons (vesicular acetylcholine transporter (VAChT), choline acetyltransferase (ChAT), somatostatin, and glutamic acid decarboxylase (Mr 67,000; GAD67) mRNAs). To ascertain whether CB(1) mRNA was a marker for striatal efferents, digoxigenin-labeled probes for mRNA markers of both striatonigral (prodynorphin or preprotachykinin A mRNAs), and striatopallidal (proenkephalin mRNAs) projection neurons were combined with the (35)S-labeled probe for CB(1). A mediolateral gradient in CB(1) mRNA expression was observed at rostral and mid-striatal levels; in the same coronal sections the number of silver grains per cell ranged from below the threshold of detectability at the medial and ventral poles to saturation at the dorsolateral boundary bordered by the corpus callosum. At the caudal level examined, CB(1) mRNA was denser in the ventral sector relative to the dorsal sector. Virtually all neurons expressing mRNA markers for striatal projection neurons colocalized CB(1) mRNA. Combining a (35)S-labeled riboprobe for CB(1) with digoxigenin-labeled riboprobes for both preproenkephalin and prodynorphin confirmed localization of CB(1) mRNA to striatonigral and striatopallidal neurons expressing prodynorphin and preproenkephalin mRNAs, respectively. However, CB(1) mRNA-positive cells that failed to coexpress the other markers were also apparent. CB(1) mRNA was localized to putative GABAergic interneurons that express high levels of GAD67 mRNA. These interneurons enable functional interactions between the direct and indirect striatal output pathways. By contrast, aspiny interneurons that express preprosomatostatin mRNA and cholinergic interneurons that coexpress ChAT and VAChT mRNAs were CB(1) mRNA-negative. The present data provide direct evidence that cannabinoid receptors are synthesized in striatonigral neurons that contain dynorphin and substance P and striatopallidal neurons that contain enkephalin. By contrast, local circuit neurons in striatum that contain somatostatin or acetylcholine do not synthesize cannabinoid receptors. Published 2000 Wiley-Liss, Inc.
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PMID:Localization of cannabinoid CB(1) receptor mRNA in neuronal subpopulations of rat striatum: a double-label in situ hybridization study. 1084 53

Alpha-actinin (alpha-actinin-2) is a protein which links the NR1 and NR2B subunits of N-methyl-D-aspartate (NMDA) glutamate receptors to the actin cytoskeleton. Because of the importance of NMDA receptors in modulating the function of the striatum, we have examined the localization of alpha-actinin-2 protein and mRNA in striatal neurons, and its biochemical interaction with NMDA receptor subunits present in the rat striatum. Using an alpha-actinin-2-specific antibody, we found intense immunoreactivity in the striatal neuropil and within striatal neurons that also expressed parvalbumin, calretinin and calbindin. Conversely, alpha-actinin-2 immunoreactivity was not detected in neurons expressing choline acetyltransferase and neuronal nitric oxide synthase. Dual-label in situ hybridization revealed that the highest expression of alpha-actinin-2 mRNA is in substance P-containing striatal projection neurons. The alpha-actinin-2 mRNA is also present in enkephalinergic projection neurons and interneurons expressing parvalbumin, choline acetyl transferase and the 67-kDa isoform of glutamic acid decarboxylase, but was not detected in somatostatin-expressing interneurons. Immunoprecipitation of membrane protein extracts showed that alpha-actinin-2 is present in heteromeric complexes of NMDA subunits, but is not associated with AMPA receptors in the striatum. A subunit-specific anti-NR1 antibody co-precipitated major fractions of NR2A and NR2B subunits, but only a minor fraction of striatal alpha-actinin-2. Conversely, alpha-actinin-2 antibody immunoprecipitated only modest fractions of striatal NR1, NR2A and NR2B subunits. These data demonstrate that alpha-actinin-2 is a very abundant striatal protein, but exhibits cellular specificity in its expression, with very high levels in substance-P-containing projection neurons, and very low levels in somatostatin and neuronal nitric oxide synthase interneurons. Despite the high expression of this protein in the striatum, only a minority of NMDA receptors are linked to alpha-actinin-2. This interaction may identify a subset of receptors with distinct anatomical and functional properties.
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PMID:alpha-actinin-2 in rat striatum: localization and interaction with NMDA glutamate receptor subunits. 1092 45

The supramammillary (SUM)-hippocampal pathway plays a central role in the regulation of theta rhythm frequency. We followed its prenatal development in eight Cynomolgus monkeys (Macaca fascicularis) from embryonic day E88 to postnatal day 12 (term 165 days) and in eight human fetuses from 17.5 to 40 gestational weeks, relying on neurochemical criteria established in the adult (Nitsch and Leranth [1993] Neuroscience 55:797-812). We found that 1) SUM afferents reached the dentate juxtagranular and CA2 pyramidal cell layers at midgestation in human fetuses, earlier than in monkeys (two-thirds of gestation [E109]). They co-expressed calretinin, substance P, and acetylcholinesterase but not gamma-aminobutyric acid (GABA) or glutamic acid decarboxylase (GAD); 2) the presumed parent neurons in the monkey SUM expressed calretinin or both calretinin and substance P; 3) most of them were surrounded by GAD-containing terminals that might correspond to the septo-SUM feedback pathway (Leranth et al. [1999] Neuroscience 88:701); and 4) in addition, a large band of calretinin-labeled terminals that did not co-express substance P, GAD, or acetylcholinesterase was present in the deepest one-third of the dentate molecular layer in both the Cynomolgus monkey and human fetuses. It persisted in the adult monkey but not in adult human hippocampus; it remains questionable whether it originates in the SUM. In conclusion, the early ingrowth of the excitatory SUM-hippocampal system in human and non-human primates may contribute to the prenatal activity-dependent development of the hippocampal formation. The possibility and the functional importance of an in utero generation of hippocampal theta-like activity should also be considered.
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PMID:Human and monkey fetal brain development of the supramammillary-hippocampal projections: a system involved in the regulation of theta activity. 1113 32

The dorsal periaqueductal gray (DPAG) is one of the main structures involved in the integration of defensive behavior in the brain. In order to investigate the participation of neuropeptides in the generation of aversive states, semicarbazide, a glutamic acid decarboxylase inhibitor, and substance P, an active neuropeptide, were injected into the DPAG and their effects evaluated in the open field and the place conditioning tests. While semicarbazide and substance P both increased locomotor activity only substance P increased grooming in the open field. In the place conditioning procedure similar aversion conditioning was produced by both drugs. These results confirm previous data showing that semicarbazide in the DPAG causes place aversion through reduction of tonic inhibitory mechanisms on neural substrates of aversion. Such mechanisms may include substance P neurons as substance P microinjection into the DPAG also functioned as an unconditioned stimulus in the place aversion test.
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PMID:Conditioned place aversion produced by microinjections of substance P into the periaqueductal gray of rats. 1122 89

The mammalian superior colliculus is an important subcortical integrator of sensorimotor behaviours. It is multi-layered, each layer containing specific neuronal types and possessing distinct input/output relationships. Here we use in situ hybridisation methods to map the distribution of seven neurotransmitters/neuromodulator systems in adult rat superior colliculus. Coronal sections were probed for preprotachykinin, cholecystokinin, somatostatin, proenkephalin, neuropeptide Y and the enzymes glutamic acid decarboxylase and choline acetyltransferase, markers for GABA and acetylcholine respectively. Cells expressing glutamic acid decarboxylase messenger RNA were the most abundant, the highest density being found in the superficial layers. Many cells containing proprotachykinin messenger RNA were found in stratum zonale and the upper two-thirds of stratum griseum superficiale; cells were also located in deeper tectal laminae, particularly caudomedially. Most cholecystokinin messenger RNA expressing cells were located in the superficial layers with a prominent band in the middle third of stratum griseum superficiale. Cells expressing moderate to high levels of somatostatin messenger RNA formed a dense band in the lower third of stratum griseum superficiale/upper stratum opticum; two less distinct tiers of labelling were seen in deeper layers. These in situ hybridisation data reveal three distinct sub-laminae in rat stratum griseum superficiale. Cells expressing moderate to low levels of proenkephalin messenger RNA were located in lower stratum griseum superficiale/upper stratum opticum and intermediate laminae. A cluster of enkephalinergic cells was located medially in the deep tectal laminae. Expression of neuropeptide Y messenger RNA was relatively low and mostly confined to cells in stratum griseum superficiale and stratum opticum. No choline acetyltransferase messenger RNA was detected. This in situ analysis of seven different neurotransmitters/neuromodulator systems sheds new light on the neurochemical organisation of the rat superior colliculus. The data are related to what is known anatomically and physiologically about intrinsic and extrinsic tectal circuitry, and the potential involvement of different neuropeptides in these circuits is discussed. The work forms the basis for future developmental studies examining the effects of transplantation and visual deprivation/deafferentation on tectal neurochemistry and function.
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PMID:Expression of messenger RNAs for glutamic acid decarboxylase, preprotachykinin, cholecystokinin, somatostatin, proenkephalin and neuropeptide Y in the adult rat superior colliculus. 1124 59

In order to assess for the respective involvement of adenosine A(1) and A(2A) receptors (A(2A)-R) in the consequences of short- and long-term caffeine exposure on gene expression, the effects of acute caffeine administration on striatal, cortical, and hippocampal expression of immediate early genes (IEG), zif-268 and arc, and the effects of long-term caffeine or 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) exposure (once daily for 15 days) on striatal gene expression of substance P, enkephalin, and glutamic acid decarboxylase isoforms, GAD65 and GAD67, were evaluated in wild-type and A(2A)-R-deficient (A(2A)-R(-/-)) mice. In situ hybridization histochemistry was performed using oligonucleotides followed by quantitative image analysis. Our results demonstrated that a biphasic response of IEG expression to acute caffeine observed in the wild-type striatum was resumed in a monophasic response in the mutant striatum. In the cerebral cortex and hippocampus, the effect of caffeine was weak in wild-type, whereas in mutant mice it induced a 2-3-fold increase in the IEG expression to restore a level similar to the wild-type basal expression. Chronic caffeine and DPCPX-mediated regulation in neuropeptide and GADs striatal gene expression typically showed the mimicking of alterations resulting from the A(2A)-R genetic deficiency in 25 mg/kg caffeine-treated wild-type mice as well as the dose-dependent normalization of substance P and enkephalin expression in A(2A)-R(-/-) mice. These results indicate that, depending on the dose, the blockade of A(2A)-R or A(1) receptors by caffeine is preferentially revealed leading to highly differential alterations in striatal gene expression and they also suggested the central role of these two receptors on the control of dopaminergic functions.
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PMID:Acute and chronic caffeine administration differentially alters striatal gene expression in wild-type and adenosine A(2A) receptor-deficient mice. 1157 41

The effects of leukemia inhibitory factor (LIF) on the expression of neurotransmitter synthetase and neuropeptide mRNAs in cultured rat cortical neurons were examined by reverse transcription-polymerase chain reaction. Nociceptin mRNA expression was increased by treatment with 20 or 80 ng/ml LIF for 24 h, but choline acetyl transferase, glutamic acid decarboxylase, enkephalin, dynorphin, substance P, somatostatin and galanin mRNA expression were not altered by LIF. These observations indicated a specific effect of LIF on nociceptin gene regulation in cultured cortical neurons.
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PMID:Leukemia inhibitory factor induces nociceptin mRNA in cultured rat cortical neurons. 1158 57


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