Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.14.16.2 (tyrosine hydroxylase)
 14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A case of an unusual spinal neuronal tumor is described in a 36-year-old woman presenting with a buttock pain. The spinal tumor was fully characterized by neuroradiological means, and in particular MRI was of significant value in delineating the extension of the tumor within the spinal canal and its exophitic growth pattern. Pathologically, a well circumscribed tumor originating from the intradural filum terminale characteristically comprised both large and small cells, resembling mature and immature neuronal cells, respectively. In addition, two neuronal markers, i.e., chromogranin A (CGA) and neuron-specific enolase (NSE), and other markers such as glial fibrilary acidic protein (GFAP), S-100 protein, HNK-1, tyrosine hydroxylase and beta 2-microgloblin were investigated immunohistochemically. We found that both neuronal cells expressed immunoreactivity for CGA and NSE, and small neuronal cells showed more intense CGA immunoreactivity, indicating an earlier stage of neuronal differentiation. Weakly positive immunoreactivity for HNK-1 was also demonstrated in small neuronal cells, consistent with evidence of maturation along a neuronal differentiation. From these findings a pathological diagnosis of ganglioneuroma was made. This unique group of ganglion-cell spinal tumors is reviewed in the literature and differential diagnosis and immunohistochemical features are discussed.
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PMID:Ganglion-cell tumor of the filum terminale: immunohistochemical characterization. 1058 16

The rostral ventrolateral medulla (RVL) contains neurons which are critically involved in the tonic and reflex control of blood pressure. Some of these neurons project to the intermediolateral cell column of the thoracolumbar spinal cord and excite preganglionic sympathetic neurons. In order to gain a better understanding of the properties of the RVL neurons at the cellular and molecular level, a protocol was developed utilizing acute dissociation and the reverse transcription-polymerase chain reaction (RT-PCR) to study the expression of several genes in single RVL neurons. Neurons were dissociated from the RVL region of young rats, and classified as spinally projecting or non-spinal by the presence or absence of retrogradely transported fluorescent beads injected into the upper thoracic segments of the spinal cord. Individual neurons were collected by aspiration into a glass micropipette and analysed by RT-PCR. The presence of either glyceraldehyde 3-phosphate dehydrogenase (GAPDH) or neuron-specific enolase (NSE) mRNA was used as the criterion for selecting cells for further analysis. A subpopulation (50%) of spinally projecting, GAPDH- or NSE-positive neurons expressed mRNA for tyrosine hydroxylase (TH) or phenylethanolamine N-methyltransferase (PNMT), indicative of catecholaminergic or C1 adrenergic neurons, respectively. Some bulbospinal RVL neurons, including those that were TH- or PNMT-positive, were also found to express mRNA for the mineralocorticoid receptor (MR), the glucocorticoid receptor (GR), noradrenaline transporter (NET), and neuronal glutamate transporter (EAAC1). The glial glutamate transporter (GLT), glycine transporter (GLYT2), glutamic acid decarboxylase (GAD67) and gamma-amino butyric acid (GABA) transporter (GAT-1) were not expressed. The single-cell RT-PCR protocol is a powerful, yet simple and relatively rapid method for analysis of mRNA expression in a defined neuronal population. It can be combined with whole-cell patch-clamp recording prior to RT-PCR analysis, allowing linkage of the molecular analysis of mRNA expression to the electrophysiological and pharmacological properties of single neurons. The method is very sensitive, enabling mRNA transcripts in low abundance to be detected, and its application in our recent studies provided novel information about neurons involved in blood-pressure regulation at the molecular and cellular level.
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PMID:Detection of mRNA species in bulbospinal neurons isolated from the rostral ventrolateral medulla using single-cell RT-PCR. 1059 47

The innervation of the human adrenal gland and of cortical lesions was studied in sections of cortical tissue (n=10), hyperplastic cortical tissue (n=3), and tissue from cortical adenomas (n=5) and carcinomas (n=6). The presence and distribution of nerve structures containing neuronal markers indicating sympathetic and parasympathetic innervation were studied by immunohistochemistry and the co-existence and co-localization patterns of the different markers by immunofluorescence. The cortex and hyperplastic cortical tissue had a moderate to rich supply of nerve structures containing the typical neuronal markers: protein gene product 9.5 (PGP 9.5), neuron-specific enolase (NSE), small vesicle synaptic protein type 2 (SV2), and nerves showing immunoreactivity to the adrenergic marker tyrosine hydroxylase (TH). All these immunoreactive nerves were located predominantly adjacent to blood vessels, but also among parenchymal cells. The cortex showed numerous nerve structures containing the neuropeptide substance P (SP), neuropeptide Y (NPY) and vasoactive intestinal protein (VIP), but few nerves containing these peptides were seen in hyperplastic cortical tissue. Typical markers were occasionally observed in cortical adenomas but were not found in carcinomas, except in a few cases where PGP 9.5 and NSE were present, but only adjacent to necrotic areas. Nerves containing NPY and VIP occurred in varying numbers in both adenomas and carcinomas. NPY- and VIP-immunoreactive nerve structures were seen mostly alongside blood vessels. There were several types of co-existence. For instance, NSE/VIP-, TH/VIP- and TH/NPY-immunoreactive nerve structures were often seen in the same trunk, but were only partly co-localized.
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PMID:Innervation of human adrenal gland and adrenal cortical lesions. 1062

The clinical findings on neural transplantation for Parkinson's disease (PD) reported thus far are promising but many issues must be addressed before neural transplantation can be considered a routine therapeutic option for PD. The future of neural transplantation for the treatment of neurological disorders may rest in the discovery of a suitable alternative cell type for fetal tissue. One such alternative may be neurons derived from a human teratocarcinoma (hNT). hNT neurons have been shown to survive and integrate within the host brain following transplantation and provide functional recovery in animal models of stroke and Huntington's disease. In this study, we describe the transplantation of hNT neurons in the substantia nigra (SN) and striatum of the rat model for PD. Twenty-seven rats were grafted with one of three hNT neuronal products; hNT neurons, hNT-DA neurons, or lithium chloride (LiCl) pretreated hNT-DA neurons. Robust hNT grafts could be seen with anti-neural cell adhesion molecule and anti-neuron-specific enolase immunostaining. Immunostaining for tyrosine hydroxylase (TH) expression revealed no TH-immunoreactive (THir) neurons in any animals with hNT neuronal grafts. THir cells were observed in 43% of animals with hNT-DA neuronal grafts and all animals with LiCl pretreated hNT-DA neuronal grafts (100%). The number of THir neurons in these animals was low and not sufficient to produce significant functional recovery. In summary, this study has demonstrated that hNT neurons survive transplantation and express TH in the striatum and SN. Although hNT neurons are promising as an alternative to fetal tissue and may have potential clinical applications in the future, further improvements in enhancing TH expression are needed.
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PMID:Intrastriatal and intranigral grafting of hNT neurons in the 6-OHDA rat model of Parkinson's disease. 1073 41

Solid-pseudopapillary tumor of the pancreas (SPT) has distinctive morphologic and biologic features but an unclear origin. It is classified among the pancreatic epithelial tumors, though many are reported to be negative for cytokeratin. Also unclear are its neuroendocrine differentiation, its capability to express alpha-1-antitrypsin (AAT) and, in view of the tumor's striking prevalence in women, its relationship with the female genital tract. To clarify these issues, the immunoprofiles of 59 SPTs were defined by applying a battery of antibodies against cytokeratin, vimentin, neuron-specific enolase (NSE), synaptophysin, chromogranin A, tyrosine hydroxylase (TH), AAT, LeuM1, Ki-M1P, smooth-muscle actin, CD34, alpha-inhibin, calretinin, placental alkaline phosphatase (PLAP), and progesterone and estrogen receptors. The most consistent markers with the strongest immunoreactivity were vimentin, AAT, NSE, and the progesterone receptor, which were each found in more than 90% of the tumors. Using immunocytochemical methods involving antigen retrieval, cytokeratin was demonstrated in almost 70% of the cases. Synaptophysin was found in 22% of the tumors, while chromogranin was absent and tyrosine hydroxylase was only present in a few tumors. None of the other markers tested were expressed by SPTs. This staining pattern fails to reveal a clear phenotypic relationship with any of the defined cell lineages of the pancreas. In view of the striking female preponderance of SPTs and the known close approximation of the genital ridges to the pancreatic anlage during embryogenesis, it is, however, hypothesized that SPTs might derive from genital ridge/ovarian anlage-related cells, which were attached to the pancreatic tissue during early embryogenesis.
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PMID:Solid-pseudopapillary tumor of the pancreas: its origin revisited. 1088 41

The lacrimal sac and nasolacrimal duct are surrounded by a wide cavernous system of veins and arteries comparable to a cavernous body. The present study aimed to demonstrate the ultrastructure of the nervous tissue and the localisation of neuropeptides involved in the innervation of the cavernous body, a topic not previously investigated. Different S-100 protein antisera, neuronal markers (neuron-specific enolase, anti-200 kDa neurofilament), neuropeptides (substance P, neuropeptide Y, calcitonin gene-related peptide, vasoactive intestinal polypeptide) and the neuronal enzyme tyrosine hydroxylase were used to demonstrate the distribution pattern of the nervous tissue. The ultrastructure of the innervating nerve fibres was also examined by means of standard transmission electron microscopy. The cavernous body contained specialised arteries and veins known as barrier arteries, capacitance veins, and throttle veins. Perivascularly, the tissue was rich in myelinated and unmyelinated nerve fibres in a plexus-like network. Small seromucous glands found in the region of the fundus of the lacrimal sac were contacted by nerve fibres forming a plexus around their alveoli. Many nerve fibres were positive for S-100 protein (S 100), neuron-specific enolase (NSE), anti-200 kDa neurofilament (RT 97), calcitonin gene-related peptide (CGRP), substance P (SP), tyrosine hydroxylase (TH), and neuropeptide Y (NPY). Vasoactive intestinal polypeptide (VIP) immunoreactivity was only demonstrated adjacent to the seromucous glands. Both the density of nerve fibres as well as the presence of various neuropeptides emphasises the neural control of the cavernous body of the human efferent tear ducts. By means of this innervation, the specialised blood vessels permit regulation of blood flow by opening and closing the lumen of the lacrimal passage as effected by the engorgement and subsidence of the cavernous body, at the same time regulating tear outflow. Related functions such as a role in the occurrence of epiphora related to emotional responses are relevant. Moreover, malfunction in the innervation of the cavernous body may lead to disturbances in the tear outflow cycle, ocular congestion or total occlusion of the lacrimal passages.
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PMID:Innervation of the cavernous body of the human efferent tear ducts and function in tear outflow mechanism. 1100 10

Transplantation of embryonic dopaminergic neurons is an experimental therapy for Parkinson's disease, but limited tissue availability and suboptimal survival of grafted dopaminergic neurons impede more widespread clinical application. Glial cell line-derived neurotrophic factor (GDNF) and neurotrophin-4/5 (NT-4/5) exert neurotrophic effects on dopaminergic neurons via different receptor systems. In this study, we investigated possible additive or synergistic effects of combined GDNF and NT-4/5 treatment on rat embryonic (embryonic day 14) nigral explant cultures grown for 8 days. Contrary to cultures treated with GDNF alone, cultures exposed to NT-4/5 and GDNF+NT-4/5 were significantly larger than controls (1.6- and 2.0-fold, respectively) and contained significantly more protein (1.6-fold). Treatment with GDNF, NT-4/5 and GDNF+NT-4/5 significantly increased dopamine levels in the culture medium by 1.5-, 2.5- and 4.7-fold, respectively, compared to control levels, and the numbers of surviving tyrosine hydroxylase-immunoreactive neurons increased by 1.7-, 2.1-, and 3.4-fold, respectively. Tyrosine hydroxylase enzyme activity was moderately increased in all treatment groups compared to controls. Counts of nigral neurons containing the calcium-binding protein, calbindin-D28k, revealed a marked increase in these cells by combined GDNF and NT-4/5 treatment. Western blots for neuron-specific enolase suggested an enhanced neuronal content in cultures after combination treatment, whereas the expression of glial markers was unaffected. The release of lactate dehydrogenase into the culture medium was significantly reduced for GDNF+NT-4/5-treated cultures only. These results indicate that combined treatment with GDNF and NT4/5 may be beneficial for embryonic nigral donor tissue either prior to, or in conjunction with, intrastriatal transplantation in Parkinson's disease.
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PMID:Additive effect of glial cell line-derived neurotrophic factor and neurotrophin-4/5 on rat fetal nigral explant cultures. 1173 60

Information on the fetal brain in Down syndrome (DS) is limited. In particular, there is no systematic study available on cholinergic, monoaminergic or serotoninergic innervation in the early second trimester. It was therefore the aim of the study to investigate whether deficits of any of these systems known to occur in adults with DS, was present at this early phase. For this purpose we determined markers for neuronal density (neuron-specific enolase, NSE), for cholinergic innervation (vesicular acetylcholine transporter, VAChT), for monoaminergic innervation (vesicular monoamine transporter 2, VMAT2; tyrosine hydroxylase, TH) and for the serotoninergic system (serotonine transporter, SERT) in brain of control and DS fetuses in the early second trimester using immunoblotting. Values for all neurotransmission systems were measurable at this time point of human development and comparable in control and DS fetuses. We conclude that during the second trimester DS patients do not differ in terms of immunoreactivity for all markers studied. This first study on that subject warrants further investigations for the determination of the time point when neurotransmitter deficits in DS brain are starting, a hallmark most important for pathogenesis and pharmacotherapy.
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PMID:Down syndrome patients start early prenatal life with normal cholinergic, monoaminergic and serotoninergic innervation. 1177 53

The effect of hypoxia on immature and mature mesencephalic neurons was studied in in vitro rat cerebral cell cultures on different days. In immature cultures (6-8 days in vitro), exposure to 24 h of hypoxia (10-20 mm Hg pO(2) in the culture medium) did not change the number of neuron-specific enolase (NSE)-immunoreactive (IR) (NSE-IR) neurons but increased the number of tyrosine hydroxylase (TH)-IR (TH-IR) cells, which might be attributed to transient induction of TH. In mature cultures (13-15 days in vitro), 16 h of hypoxia induced a considerable loss of both NSE- and TH-IR cells. A decrease in the number of TH-IR cells 6 and 24 h after hypoxia was more pronounced than that of NSE-IR cells; however, their numbers equalized 48 h after hypoxia, suggesting similar hypoxic vulnerability of dopaminergic and nondopaminergic neurons in mature mesencephalic cultures. In immature cultures, hypoxia slightly stimulated both apoptosis and necrosis, while in mature cultures, it dramatically increased the number of solely necrotic cells.
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PMID:Differential response of immature and mature neurons to hypoxia in rat mesencephalic cultures. 1187 41

We have identified an easily attainable source of primitive, potentially multipotent stem cells from Wharton's jelly, the matrix of umbilical cord. Wharton's jelly cells have been propagated in culture for more than 80 population doublings. Several markers for stem cells, including c-kit (CD117), and telomerase activity are expressed in these cells. Treatment with basic fibroblast growth factor overnight and low-serum media plus butylated hydroxyanisole and dimethylsulfoxide induced Wharton's jelly cells to express a neural phenotype. Within several hours of this treatment, Wharton's jelly cells developed rounded cell bodies with multiple neurite-like extensions, similar to the morphology of neural stem cells. Neuron-specific enolase (NSE), a neural stem cell marker, was expressed in these cells, as shown by immunocytochemistry. Immunoblot analysis showed similar levels of NSE expression in both untreated and induced Wharton's jelly cells. After 3 days, the induced Wharton's jelly cells resembled bipolar or multipolar neurons, with processes that formed networks reminiscent of primary cultures of neurons. The neuron-like cells in these cultures stained positively for several neuronal proteins, including neuron-specific class III beta-tubulin, neurofilament M, an axonal growth-cone-associated protein, and tyrosine hydroxylase. Immunoblot analysis showed increasing levels of protein markers for mature neurons over time post induction. Markers for oligodendrocytes and astrocytes were also detected in Wharton's jelly cells. These exciting findings show that cells from the matrix of umbilical cord have properties of stem cells and may, thus, be a rich source of primitive cells. This study shows their capacity to differentiate into a neural phenotype in vitro.
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PMID:Matrix cells from Wharton's jelly form neurons and glia. 1252 51


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