EC:1.11.1.7 - FACTA Search

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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. A morphological and physiological comparison was made between embryonically and postnatally derived superior cervical ganglion neurons (SCGN) grown in dissociated cell culture. It was found that while morphologically distinct, the physiological properties of the postnatal neurons were the same as their embryonic counterparts. 2. Intracellular injection of horseradish peroxidase (HPR) demonstrated that SCGN from any age of animal elaborated two basic types of processes, although the pattern of process ramification was unique for each neuron. The two types of proceses were 1) the large, smooth, rapidly tapering; and 2) the thin, nontapering variety, which often contained varicosities along its length. It is suggested that the former are dendritic in function, while the latter act as axons. 3. A difference was noted in somal size and the number of primary processes extended by the embryonic and postnatal neurons, with the latter more closely resembling the in vivo morphology. 4. Resting potentials and action-potential amplitudes of postnatal SCGN were comparable to those found previously for embryonic SCGN in vitro. 5. Iontophoretic application of putative neurotransmitter substances revealed the presence of acetylcholine receptors (AChR) on both embryonic and postnatal SCGN. Picrotoxin-sensitive depolarizing responses to iontophoresed gamma-aminobutyric acid (GABA) was seen on a few embryonic neurons, but not on the older cells. No responses were detected when norepinephrine (NE), glutamate, cAMP, substance P, or dopamine were applied to the SCGN of either age group. 6. Synatpic interaction between postnatal SCGN were found at an earlier in vitro age (12 days) than was the case for embryonic neurons (20 days). 7. Synaptic transmission was found to be chemical in nature. This was shown by 1) a dependence on external Ca2+ concentrations; 2) steplike fluctuations in synpatic potential amplitude, and 3) a variation in potential amplitude with changes in membrane potential. 8. It is concluded that the postnatal SCGN are able to survive in culture even when taken from animals up to 12.5 wk old. The elaboration of processes is in many ways strikingly similar to sympathetic neurons in the animal, and they are able to form functional synaptic interactions.
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PMID:Postnatal rat sympathetic neurons in culture. I. A comparison with embryonic neurons. 3 83

The localization of gamma-aminobutyric acid (GABA) neurons in the rabbit retina has been studied by immunocytochemical localization of the GABA-synthesizing enzyme L-glutamate decarboxylase (L-glutamate I-carboxy-lyase, EC 4.1.1.15) and by [3H]GABA uptake autoradiography. When Triton X-100 was included in immunocytochemical incubations with a modified protein A-peroxidase-antiperoxidase method, reaction product was found in four broad, evenly spaced laminae within the inner plexiform layer. In the absence of the detergent, these laminae were seen to be composed of small, punctate deposits. When colchicine was injected intravitreally before glutamate decarboxylase staining, cell bodies with the characteristic shape and location of amacrine cells were found to be immunochemically labeled. Intravitreally administered [3H]GABA produced a diffuse labeling of the inner plexiform layer and a dense labeling of certain amacrine cell bodies in the inner nuclear layer. Both immunocytochemical and autoradiographic results support the notion that certain, if not all, amacrine cells use GABA as their neurotransmitter.
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PMID:The gamma-aminobutyric acid system in rabbit retina: localization by immunocytochemistry and autoradiography. 4 Feb 27

Guanosine 3',5'-cyclic monophosphate (cGMP) immunoreactivity in the rat's cerebellum was studied with light and electron microscopy by the indirect fluorescence method and the peroxidase-antiperoxidase method. Labeled cells included neuroglial cells in the cerebellar cortex, white matter, and deep nuclei; some stellate and basket cells in the cortex; and some large neurons in the deep nuclei. No evidence was found for sagittal microzonation in the cGMP distribution. In the labeled cells, cGMP immunoreactive sites were localized to surface membranes, organelles, and the cytoplasmic matrix. Specificity was indicated by the same pattern of labeling after treatment with cGMP immunoglobulin that had been adsorbed with adenosine 3',5'-cyclic monophosphate (cAMP) and by the failure to label after treatment with normal rabbit sera or with cGMP immunoglobulin that had been adsorbed with 1 mM cGMP. Cerebella treated with cAMP antisera, however, showed immunoreactivity in Purkinje cells, granule cells, and Golgi cells in addition to neuroglia in cortex and deep nuclei. Sequential norepinephrine and glutamate superfusions generally intensified cGMP immunoreactivity, not only in neuroglial cells but also in the background. Under these conditions some Purkinje cells and some granule cells were also labeled. Increased cGMP immunoreactivity was also obtained by treatment with harmaline, gamma-aminobutyric acid and aminooxyacetic acid, muscimol, gamma-aminobutyric acid, or apomorphine in order of decreasing effectiveness. Serotonin and colchicine produced no detectable increase of cGMP immunoreactivity above normal, and diazepam and sodium pentobarbital decreased it. In these experiments, diethyl ether was preferable to sodium pentobarbital for anesthesia on account of the depressive action of the latter on cGMP immunoreactivity. Thus, drugs that increase cerebellar activity enhance cGMP levels, whereas those that decrease cerebellar activity decrease cGMP levels. However, it is not clear whether these fluctuations in cGMP levels are a direct consequence of neurotransmitter function or are sequelae to other related events. The present study suggests that some neurons and many neuroglial cells are the major sites of cGMP in the cerebellum.
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PMID:Immunocytochemical localization of cyclic GMP: light and electron microscope evidence for involvement of neuroglia. 22 Jun 17

gamma-Aminobutyric acid transaminase (GABA-Tase; 4-aminobutyrate:2-oxaglutarate aminotransferase, EC 2.6.1.19) immunoreactivity in the rat's cerebellum was studied by light and electron microscopy with indirect immunofluorescence and peroxidase-antiperoxidase methods. Evidence is presented for neuronal and neuroglial compartments of GABA-Tase. Labeled neurons included stellate, basket, Purkinje, and Golgi cells of the cortex and a few large neurons in the deep nuclei. Labeled neuroglia included those surrounding Purkinje cells, their radial fibers in the molecular layer, and astrocytes in the granular layer and deep nuclei. No evidence for sagittal microzonation was found. At the ultrastructural level, GABA-Tase immunoreactive sites were localized to cell surface membranes, intracellular organelles, and the cytoplasmic matrix. GABA-Tase immunoreactivity at synapses could be localized precisely to pre- and postsynaptic membranes in gamma-aminobutyric acid (GABA)-containing as well as non-GABA-containing neurons. Specific label was absent from tissues treated with normal rabbit preimmune sera. GABA-Tase labeling was more intense in tissues from animals anesthetized with ether than with barbiturates and after formaldehyde fixation without glutaraldehyde. Increased GABA-Tase immunoreactivity was observed on treatment with colchicine, GABA with oxamic acid, GABA, harmaline, norepinephrine and glutamate, or diazepam (in order of decreasing effectiveness). Serotonin produced no detectable change, and apomorphine and muscimol decreased the immunoreactivity.
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PMID:Immunocytochemical localization of gamma-aminobutyric acid transaminase at cellular and ultrastructural levels. 28 44

Immunocytochemical techniques locating neurotransmitter-synthsizing enzymes are currently being employed to determine the nature of transmitters associated with individual neurons. The use of peroxidase-anti-peroxidase Fab (PAP Fab) complex modified from Sternberger's PAP method, among several other immunocytochemical methods is recommended for the visualization of antigens in cerebral tissues. The enzyme fixed in nervous tissues is reacted with anti-enzyme produced in rabbits followed by incubation with goat-anti-rabbit serum. Subsequent application of PAP Fab complex prepared separately results in a formation of a complex composed of enzyme: anti-enzyme: goat-anti-rabbits: PAP-Fab. The enzymes can be visualized under light and electron microscope by the deposition produced by the action of peroxidase on 3,3'-diaminobenzidine. Thus, the antibody to glutamate decarboxylase (GAD), the enzyme that synthesizes gamma-aminobutyric acid (GABA) was employed to identify GABAergic neurons in central nervous system of rodents. Specific staining for GAD was highly localized in close association with synaptic vesicles in certain axon terminals including basket, Golgi and the Purkinje cell terminals in the cerebellum. The distribution of GAD observed in immunocytochemical preparations was consistent with indirect biochemical, physiological and morphological data dealing with the synaptic role of GABA neurons in the cerebellum. The correlation of the immunocytochemical distribution of GABA neurons in the spinal cord, substantia nigra, olfactory bulb, retina and Ammon's horn with physiological and biochemical results can also been obtained. The method has been successfully employed to visualize dopamine-beta-hydroxylase (DBH) and substance P. DBH, as an indicative enzyme for noradrenergic (NA) neurons, was highly localized in the neuronal soma of the locus coeruleus and in synaptic varicosities in the stria terminalis associated with synaptic vesicles. Association of substance P in probable primary afferent terminals with large vesicles also supports the synaptic function of the compound in the spinal cord.
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PMID:[Immunocytochemical technique--Application for identifying GABA neurons (author's transl)]. 35 33

On the basis of observations on dopaminergic neurons developing in gender-specific cultures of embryonic rat mesencephalon, we have hypothesized that as yet unknown sexual dimorphisms might be found in projection areas of dopaminergic neurons. Therefore we searched for possible sex differences in the striatum during the period when massive ingrowth of mesencephalic afferents occurs and the striatal gamma-aminobutyric acid (GABA)ergic neurons differentiate. Male and female rats of embryonic days (E) 16, 18, 20, and 21 were fixed by perfusion through the heart. Vibratome sections were cut from the striatal anlage and sequentially immunostained for GABA by the immunogold-silver technique and tyrosine hydroxylase (TH) by the avidin-biotin-peroxidase method. Ultrathin sections were scanned for numbers of GABA- and TH-immunoreactive (IR) elements. Densities of TH-IR axons as well as of GABA-IR cell body profiles progressed with time. Contacts between TH-IR axons and GABA-IR and immunonegative cells were observed as early as E-16, increasing in numbers toward later stages. Throughout prenatal development, female striata displayed higher densities of both TH-IR axon and GABA-IR cell body profiles than male ones. This is the first report of a distinct anatomical sex difference regarding two major components of a key center of motor control. Prenatal sexual differentiation of the striatum may lead to a sexually dimorphic extrapyramidal circuitry, the existence of which, in the adult, is suggested by experimental and clinical data.
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PMID:Sex differences in densities of dopaminergic fibers and GABAergic neurons in the prenatal rat striatum. 135 8

The electrophysiological response to glutamate and gamma-aminobutyric acid (GABA) is determined in oligodendrocytes of the isolated intact mouse optic nerve, identified by their characteristic morphology following iontophoretic injection with horseradish peroxidase (HRP). In this study, mature myelin-forming oligodendrocytes are shown for the first time to respond to glutamate and GABA in situ, by a 2-3 mV depolarization. Morphologically homogeneous oligodendrocytes exhibit a heterogeneous response to glutamate and GABA; some cells respond to both excitatory amino acids, whereas others respond to one but not the other, and some oligodendrocytes do not respond to either. Oligodendrocytes uniformly depolarize in elevated [K+]o and it is concluded that the effect of glutamate and GABA is not mediated by an increase in [K+]o released from axons or astrocytes. The oligodendrocyte response to amino acids may be important in axon-to-oligodendrocyte signalling at the nodes of Ranvier.
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PMID:Response of oligodendrocytes to glutamate and gamma-aminobutyric acid in the intact mouse optic nerve. 136 74

The present study examined the effects of removing hippocampal nerve growth factor (NGF)-producing neurons upon cholinergic and noncholinergic septohippocampal projecting neurons. To deplete septal/diagonal band neurons of their intrinsic source of NGF, rats received unilateral intrahippocampal injections of ibotenic acid and were sacrificed 2-24 weeks later. Choline acetyltransferase and parvalbumin immunohistochemistry failed to reveal changes in the number of cholinergic or gamma-aminobutyric acid-containing neurons, respectively, within the septal/diagonal band region ipsilateral to the hippocampal lesion at any time point examined. Additionally, immunocytochemical localization of nonphosphorylated and phosphorylated neurofilament proteins did not reveal abnormal staining characteristics within the septal/diagonal band complex, suggesting that this lesion does not alter cytoskeletal features of neurons which project to the hippocampus. Selected rats received unilateral hippocampal lesions and 3 months later were injected with fluorogold into the remaining hippocampal remnant and with wheat germ agglutinin conjugated to horse radish peroxidase into the intact contralateral hippocampus. Both retrograde tracers were predominantly transported to their respective ipsilateral septum and vertical limb of the diagonal band. This indicates that following the lesion, septal/diagonal band neurons still project ipsilaterally and sprouting to the NGF-rich contralateral side does not occur. RNA blot analysis revealed a decrease in NGF mRNA expression within the lesioned hippocampus with a maximum reduction of approximately 70%. In contrast, no change in NGF mRNA expression was observed within the ipsilateral septum relative to the contralateral side. The present study demonstrates that removal of hippocampal target neurons does not alter the number, morphology, or projections of both cholinergic and noncholinergic septal/diagonal band neurons.
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PMID:Stability of septohippocampal neurons following excitotoxic lesions of the rat hippocampus. 137 34

Possible co-existence of gamma-aminobutyric acid (GABA), catecholamines, and neuropeptide Y (NPY) in the same nerve terminals of the frog intermediate lobe was investigated by immunocytochemistry at the electron microscopic level. Co-localization of GABA and tyrosine hydroxylase (TH) was studied by using a double immunogold labeling procedure. Co-localization of glutamate decarboxylase (GAD) and NPY was studied by combining, respectively, the peroxidase-antiperoxidase method and a radioimmunocytochemical labeling procedure. Catecholamines and GABA were systematically co-localized in nerve endings of the pars intermedia. Most of the NPY-immunoreactive fibers also contained GAD-like immunoreactivity. However, a few NPY-positive nerve terminals were not immunoreactive for GAD. These data provide evidence for co-existence of a regulatory peptide (NPY) and several neurotransmitters (i.e., GABA and catecholamines) within the same axon terminals in the intermediate lobe. Since GABA, dopamine, and NPY have all been shown to inhibit the activity of frog melanotrope cells, the present findings suggest that these neuroendocrine factors may interact either at the pre-synaptic or post-synaptic level.
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PMID:Co-localization of tyrosine hydroxylase, GABA and neuropeptide Y within axon terminals innervating the intermediate lobe of the frog Rana ridibunda. 137 15

Gamma-aminobutyric acid (GABA) is a putative inhibitory neurotransmitter in the vertebrate nervous system. Several lines of evidence suggest that GABA plays an important role in the processing and modulation of sensory input in the spinal cord dorsal horn. In the present study, the relationship between GABA-immunoreactive (GABA-IR) terminals and spinothalamic tract (STT) cells in the monkey lumbar cord was investigated. Physiologically characterized STT cells, one located in lamina V and two located in lateral lamina IV, were intracellularly injected with horseradish peroxidase (HRP). A fourth STT cell, located in lamina I, was retrogradely labeled following injection of HRP into the contralateral thalamus. Immunogold labeling of ultrathin sections through the cell bodies and proximal dendrites of the STT neurons demonstrated that the percentage of the GABA-IR terminals in contact with these profiles was 24.7% and 36%, respectively. The average STT surface length contacted by GABA-IR terminals for cell bodies and proximal dendrites was 18.2% and 26.7%, respectively. For the lamina I cell, 7 out of 35 (20%) of the terminals were GABA-IR and they covered 9.6% of the surface analyzed. These data demonstrate that GABA-IR terminals synapse directly on STT cells, constituting a substantial proportion of the terminal population on these cells. Furthermore, compared to the cell bodies, a greater percentage of the input on the proximal dendrites is GABAergic. These anatomical data are consistent with the findings of a previously published iontophoretic study that demonstrated that GABA can exert a strong inhibitory influence on STT cells. These findings are discussed in relation to GABAergic involvement in tonic and phasic inhibition of STT neurons.
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PMID:GABA-immunoreactive terminals synapse on primate spinothalamic tract cells. 140 Dec 47

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