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: EC:1.14.16.2 (tyrosine hydroxylase)
14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of intranigrally- or intraventricularly-administered glial cell line-derived neurotrophic factor were tested on low dose (0.05 mg/kg) apomorphine-induced rotations and tyrosine hydroxylase activity in the substantia nigra and striatum of stable 6-hydroxydopamine-lesioned rats. In addition, we determined if 6-hydroxydopamine lesions in the absence or presence of treatment affected neuropeptide (substance P, met-enkephalin, dynorphin) content in the striatum. Glial cell line-derived neurotrophic factor, when administered intranigrally, prevented apomorphine-induced rotational behaviour for 11 weeks following a single injection. In comparison, intraventricularly-administered glial cell line-derived neurotrophic factor produced a transient reduction in rotational behaviour that lasted for two to three weeks following a single injection. We also show that rotational behaviour is reduced following each subsequent intraventricular injection of glial cell line-derived neurotrophic factor given every six weeks, a time-point when baseline rotation deficits were re-established. Intranigrally- or intraventricularly-administered glial cell line-derived neurotrophic factor significantly reduced weight gain in all 6-hydroxydopamine-lesioned rats in this study. Following behavioural analysis where a confirmed improvement of behaviour was established, tissues were dissected for neurochemical analysis. In lesioned rats with intranigral injections of administered glial cell line-derived neurotrophic factor, significant increases of nigral, but not striatal tyrosine hydroxylase activity were measured. Additionally, 6-hydroxydopamine lesions significantly increased striatal dynorphin (61-139%) and met-enkephalin (81-139%), but not substance P levels. In these rats, intranigrally-administered glial cell line-derived neurotrophic factor injections reversed lesion-induced increases in nigral dynorphin A levels and increased nigral dopamine levels, but did not alter nigral met-enkephalin or substance P levels nor striatal dopamine levels. In lesioned rats with intraventricular injections of glial cell line-derived neurotrophic factor, tyrosine hydroxylase ispilateral to the lesion was increased in the substantia nigra, but not in the striatum. Intraventricularly-administered glial cell line-derived neurotrophic factor did not reverse lesion-induced increases in nigral dynorphin A or met-enkephalin levels nor did glial cell line-derived neurotrophic factor affect substance P levels in the striatum. These results suggest that in an animal model of Parkinson's disease, the neurotrophic factor glial cell line-derived neurotrophic factor reverses behavioural consequences of 6-hydroxydopamine administration, an effect that may involve both dopaminergic and peptidergic neurotransmission.
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PMID:Glial cell line-derived neurotrophic factor attenuates behavioural deficits and regulates nigrostriatal dopaminergic and peptidergic markers in 6-hydroxydopamine-lesioned adult rats: comparison of intraventricular and intranigral delivery. 913 89

It is estimated that only 5-10% of dopamine (DA) neurons implanted into the striatum of patients undergoing fetal-nigral transplantation as a treatment for Parkinson's Disease survive. Because it is often necessary to store fetal tissue prior to transplantation, we evaluated various storage parameters that could influence DA neuron viability in rostral mesencephalic tegmentum (RMT) cultures using tyrosine hydroxylase immunoreactive (THir) cell counts as an index of DA neuron survival. A high K+ hibernation media (HM) was used in all studies. We found that RMT cell viability and THir cell counts decreased as storage duration increased (up to 120 h). Storage at 37 degrees C in HM killed all cells, while storage at 10 degrees C yielded higher survival rates than 4 degrees C. In comparison to trypsinization, mechanical dissociation of tissue increased cell viability. Neutral pH and a storage density of at least 1 x 10(6) cells/mL were found to be optimal, while striatal coculture of RMT cells with striatal feeder layers increased THir viability up to 16-fold in comparison to monocultures. The nurturing effect of striatal coculture may be explained by the release of autotrophic factors, and we tested this hypothesis by supplementing the HM with human placental cord serum (HPCS, 8%), glial-derived neurotrophic factor (GDNF; 10 microg/mL), and brain-derived neurotrophic factor (BDNF; 10 microg/mL). GDNF and HPCS supplements increased RMT cell viability by 10-15%, while GDNF, BDNF, and HPCS increased viability of THir cells by approximately 40% at all time points studied. As Klenow enzyme labeling technique indicated that 33% of stored RMT cells were undergoing apoptosis, we found that GDNF, BDNF, and HPCS reduced apoptosis by 50%. DNA laddering and DAPI nuclear stain confirmed the presence of apoptosis in hibernated RMT cells, leading us to postulate that the high viability counts seen with trypan blue exclusion are misleading.
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PMID:The effects of storage conditions and trophic supplementation on the survival of fetal mesencephalic cells. 917 Nov 62

Glial-cell-line-derived neurotrophic factor (GDNF) stimulates the survival of dopaminergic neurons. Little is known, however, about the possible immune sequelae of GDNF exposure or of exposure to other putative trophic factors. To address these questions, pieces of mesencephalic tissue, substantia nigra, from 15-day-old donor embryos were transplanted into the anterior chamber of the eye of adult male Sprague-Dawley recipient rats. At 5-day intervals, an aliquot (0.5 microgram) of GDNF, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), or cytochrome-C (CC) was injected into the anterior chamber of the eye of the recipients, and the sizes of the transplants were measured. GDNF increased transplant survival and growth. On day 42, all rats were sacrificed, and the grafts were evaluated by cresyl-violet staining and by immunohistochemistry using antibodies raised against neurofilament (NF), tyrosine hydroxylase, or glial fibrillary acidic protein (GFAP), as well as the following monoclonal antibodies: OX-38 anti-CD4, OX-8 anti-CD8, OX-18 anti-MHC class I, OX-6 anti-MHC class II, OX-42 anti-CD11b, R-73 anti-alpha and anti-beta T-cell receptor, and ED1 raised against monocytes/macrophages. BDNF-treated grafts showed only weak immunoreactivity, and even weaker reactions were seen in grafts treated with NT-3, GDNF, or CC. No single immune system marker was significantly elevated in grafts from any treatment group. We used OX-42 and ED1 to study possible alterations of microglial components. Ramified microglial cells were found in GDNF-treated grafts and to a lesser extent in NT-3 and BDNF-treated grafts. ED1-labeled reactive microglial components were found in NT-3- and BDNF-treated grafts. Additionally, large and rounded OX-42-positive phagocytic cells were found in NT-3-treated grafts. Together with our previous finding that GDNF treatment of spinal cord transplants activates immune responses and leads to microglial activation, our data demonstrate that although treatment with GDNF and to some degree with BDNF can enhance immune responses to immunogenic grafts, such as fetal spinal cord grafts, but the trophic factors per se do not elicit any marked response in non-immunogenic grafts like substantia nigra.
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PMID:Minor immunoreactivity in GDNF-, BDNF-, or NT-3-treated substantia nigra allografts. 930 40

Although gonadal steroids are important determinants of the development and activity of various neuronal circuits in the brain and spinal cord, their function has been relatively poorly studied in the peripheral nervous system. In the present work, the effects of pre- and postpubertal castration were examined on the morphology of autonomic neurons that supply pelvic visceral organs in male rats. These neurons were identified by peripheral injection of fluorescent retrograde tracers and, in the major pelvic ganglion, were further classified as sympathetic or parasympathetic by means of immunostaining for tyrosine hydroxylase. Sizes of ganglion cell somata were indicated by areas of nucleated profiles in cryosections. The results show that, irrespective of whether castration was carried out at two or seven weeks-of-age, noradrenergic pelvic neurons that supply the vas deferens, prostate gland, urinary bladder or colon achieved only approximately 60% of the size of those in unoperated controls. In contrast, cholinergic pelvic neurons were unaffected by castration unless they supplied reproductive targets. Pre- and paravertebral sympathetic neurons that supplied the pelvic viscera were only slightly smaller following castration or were unchanged, depending on their target. All effects of castration were prevented by testosterone replacement following surgery. Androgen receptor-immunoreactivity was particularly prevalent in the nuclei of some pelvic ganglion neurons. The studies suggest that circulating androgens are essential for the maturation and maintenance of the structure of select groups of autonomic neurons that supply the viscera. The presence of androgen receptor immunoreactivity in many of these neurons indicates that direct neuronal effects of androgens are possible. However this does not exclude other less direct mechanisms of steroid action on neurons, such as by an effect on target organs, neurotrophic factor release or peripheral vascular supply. These studies point to the androgenic steroids as potentially important determinants of autonomic reflex function.
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PMID:Testosterone has potent, selective effects on the morphology of pelvic autonomic neurons which control the bladder, lower bowel and internal reproductive organs of the male rat. 962 51

Adenovirus is an efficient vector for neuronal gene therapy due to its ability to infect post-mitotic cells, its high efficacy of cell transduction and its low pathogenicity. Recombinant adenoviruses encoding for therapeutical agents can be delivered in vivo after direct intracerebral injection into specific brain areas. They can be transported in a retrograde manner from the injection site to the projection cell bodies offering promising applications for the specific targeting of selected neuronal populations not easily accessible by direct injection, such as the motor neurons in the spinal cord. Adenoviral vectors are also efficient tools for the ex vivo gene therapy, that is, the genetical modification of cells prior to their transplantation into the nervous system. Recently, the efficacy of the adenovirus as a gene vector system has been demonstrated in several models of neurodegenerative diseases including Parkinson's disease (PD) and motor neuron diseases. In rat models of PD, adenoviruses encoding for either tyrosine hydroxylase, superoxide dismutase or glial-derived neurotrophic factor improved the survival and the functional efficacy of dopaminergic cells. Similarly, the intramuscular injection of an adenovirus encoding for neurotrophin-3 had substantial therapeutic effects in a mutant mouse model of motor neuron degenerative disease. However, although adenoviruses are highly attractive for neuronal gene transfer, they can trigger a strong inflammatory reaction leading in particular to the destruction of infected cells. The recent development of new generations of adenoviral vectors could shed light on the nature of the immune reaction caused by adenoviral vectors in the brain. The use of these new vectors, combined with that of neurospecific and regulatable promoters, should improve adenovirus gene transfer into the central nervous system.
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PMID:Adenovirus in the brain: recent advances of gene therapy for neurodegenerative diseases. 965 83

We have investigated in vitro the influence of pituitary intermediate lobe melanotrophs on the differentiation of their afferent hypothalamic dopaminergic neurons. The presence of melanotrophs in primary cultures of foetal hypothalamic neurons induces an increase of the number of dopaminergic neurons (while the total neuronal population remains unchanged) and induces a stimulation of their neuritic outgrowth. These effects are mediated by diffusible factors since they are reproduced by application of conditioned medium issued from co-cultures with intermediate lobe cells from newborn rats. Moreover, by immunoneutralization of alpha-melanocyte-stimulating hormone (alphaMSH) in the co-culture or conditioned medium, or by application of the peptide itself, we demonstrate that the neuritotrophic effect on dopaminergic neurons is mediated by alphaMSH, the main secretory product of melanotrophs, whereas the inductive effect on the number of dopaminergic neurons is attributable to another diffusible neurotrophic factor(s) present in foetal, but not adult, adenohypophysis. Similar effects are observed on cultures of newborn hypothalamic neurons. However, at this stage of neuronal development, alphaMSH also increases the number of dopaminergic neurons, which could be due to a change of neuronal receptivity. We show that the neuritotrophic influence of alphaMSH is restricted to the dopaminergic neurons connected to the melanotrophs, and that in addition, these neurons systematically co-express the tyrosine hydroxylase and glutamate decarboxylase as the neurons innervating the melanotrophs in situ. These findings indicate that the differentiation of dopaminergic hypothalamic neurons is influenced by the target cells, melanotrophs, and that this trophic influence implicates alphaMSH.
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PMID:Differentiation of rat hypothalamic dopaminergic neurons is stimulated in vitro by target cells: the melanotrophs. 974 81

Glial cell-line-derived neurotrophic factor (GDNF) has been shown to enhance the survival of dopaminergic neurones both in vitro and in vivo, and to protect the rodent dopaminergic system from neurotoxic damage. However, most previous studies have only examined the short-term protective effects of GDNF. We have investigated the long-term effects of GDNF on a 6-hydroxydopamine (6-OHDA)-induced lesion of the rat medial forebrain bundle (MFB), which results in complete and irreversible destruction of the nigrostriatal pathway, and is a robust model of Parkinson's disease. GDNF was administered ipsilaterally above the substantia nigra and into the lateral ventricle immediately before a unilateral 6-OHDA injection into the MFB. The effects of GDNF were examined in vivo by behavioural testing and positron emission tomography (PET) at weekly intervals, for 12 weeks. GDNF prevented the development of amphetamine-induced rotations at all time-points. PET studies, using [11C]-RTI-121 as a tracer for the dopamine transporter, indicated that GDNF prevented 6-OHDA-induced reduction of dopamine reuptake sites in the ipsilateral striatum. Post-mortem neurochemical analysis at 13 weeks after surgery found that GDNF significantly inhibited 6-OHDA-induced loss of dopamine, 3,4-dihydroxyphenylacetic acid and homovanillic acid in the ipsilateral striatum. Immunocytochemistry showed that GDNF reduced 6-OHDA-induced loss of tyrosine hydroxylase-positive neurones in both the substantia nigra pars compacta and ventral tegmental area. We have shown that a single treatment with GDNF can confer long-term protective effects against a 6-OHDA lesion, which suggests that this factor may be useful for the treatment of Parkinson's disease.
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PMID:Long-term protection of the rat nigrostriatal dopaminergic system by glial cell line-derived neurotrophic factor against 6-hydroxydopamine in vivo. 975 13

The role of nerve growth factor (NGF) and glial-derived neurotrophic factor (GDNF) in sympathetic sprouting within the dorsal root ganglion was investigated. In nerve-intact rats, intrathecal NGF (1 mg/ml, 14 days) but not GDNF (1 mg/ml, 14 days) induced extensive sprouting of tyrosine hydroxylase immunoreactive (TH-IR) fibres and formation of pericellular TH-IR baskets within lumbar DRGs. TH-IR baskets were distributed equally to trkA-expressing and trkA-negative neuronal profiles. Sciatic nerve transection (14-21 days) induced TH-IR baskets within lumbar DRG's around neuronal profiles with both intact and lesioned axons. The percentage of neuronal profiles surrounded by TH-IR baskets following sciatic transection was unaffected following peripheral application of the NGF sequestering antibody, trkA-IgG (1 mg/ml, 14 days). Intracellular responses were recorded from sensory neurons in an in vitro DRG/peripheral nerve preparation following bath application of noradrenaline. In preparations from animals treated 14 days previously with intrathecal NGF, 69% of neurons responded with depolarizing responses whilst 18% of neurons responded to bath applied noradrenaline in tissue prepared from naive animals. Our data indicate that sympathetic neurons sprout into the DRG in response to sciatic nerve injury and intrathecal NGF but not GDNF. Distribution of sympathetic sprouts within the DRG is independent of whether target neurons are injured or express trkA. Sequestration of NGF at the peripheral injury site does not influence basket formation within the DRG. It is likely that functional noradrenergic connections exist between sympathetic sprouts and sensory neuron cell bodies following exogenous NGF.
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PMID:A role for nerve growth factor in sympathetic sprouting in rat dorsal root ganglia. 992 72

Oxidative stress is thought to contribute to dopaminergic cell death in Parkinson's disease (PD). The neurotoxin 6-hydroxydopamine (6-OHDA), which is easily oxidized to reactive oxygen species (ROS), appears to induce neuronal death by a free radical-mediated mechanism, whereas the involvement of free radicals in N-methyl-4-phenylpyridinium (MPP+) toxicity is less clear. Using free radical-sensitive fluorophores and vital dyes with post hoc identification of tyrosine hydroxylase-positive neurons, we monitored markers of apoptosis and the production of ROS in dopaminergic neurons treated with either 6-OHDA or MPP+. Annexin-V staining suggested that 6-OHDA but not MPP+-mediated cell death was apoptotic. In accordance with this assignment, the general caspase inhibitor Boc-(Asp)-fluoromethylketone only blocked 6-OHDA neurotoxicity. Both toxins exhibited an early, sustained rise in ROS, although only 6-OHDA induced a collapse in mitochondrial membrane potential temporally related to the increase in ROS. Recently, derivatives of buckminsterfullerene (C60) molecules have been shown to act as potent antioxidants in several models of oxidative stress (Dugan et al., 1997). Significant, dose-dependent levels of protection were also seen in these in vitro models of PD using the C3 carboxyfullerene derivative. Specifically, C3 was fully protective in the 6-OHDA paradigm, whereas it only partially rescued dopaminergic neurons from MPP+-induced cell death. In either model, it was more effective than glial-derived neurotrophic factor. These data suggest that cell death in response to 6-OHDA and MPP+ may progress through different mechanisms, which can be partially or entirely saved by carboxyfullerenes.
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PMID:Distinct mechanisms underlie neurotoxin-mediated cell death in cultured dopaminergic neurons. 995 6

The effects of Selegiline hydrochloride (Selegiline HCl) on the intracellular Ca2+ contents of primarily cultured rat striatal, mesencephalic neuronal cells and PC-12 cells were examined by the use of a Ca2+ imaging analyzer. In the former two cell types, Selegiline HCl (10(-5)-10(-6) M) induced a transient inflow of extracellular Ca2+ through the voltage-dependent N-type Ca2+ channel. In addition, all cells indicating an increase in the intracellular Ca2+ content were found to be catecholaminergic neurons which showed a positive reaction with anti-tyrosine hydroxylase antibodies. Furthermore, a transient intracellular influx of Ca2+ was observed in the NGF-pretreated PC-12 cells. From these results, it is suggested that Selegiline HCl elicits various functions, including antioxidation, activation of neurotrophic factor biosynthesis and neuronal protection probably via an unidentified specific proteins of tyrosine hydroxylase-positive neurons.
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PMID:[Effects of selegiline hydrochloride on intracellular Ca2+ contents in cultured neuronal cells]. 998 54


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