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)

Cholinergic properties are induced in sympathetic neurons by several factors applied to entire neurons in culture. Evidence from work with the rat sweat gland model indicates that factors located in target tissues can induce cholinergic differentiation in vivo. We now report that when leukemia inhibitory factor (LIF), heart cell-conditioned medium (HCCM), or dermal fibroblast-conditioned medium (DFCM) is applied to only distal neurites in compartmented cultures of rat sympathetic neurons, the neurons exhibit an increase in specific choline acetyltransferase activity and a concomitant decrease in levels of tyrosine hydroxylase. LIF, HCCM, and DFCM also induce neurite fasciculation, thus suggesting an additional role of cholinergic switching factors in regulating axon-axon and/or axon-substrate adhesion. These results demonstrate that rat sympathetic neurons have the cellular machinery to respond to cholinergic differentiation cues located in peripheral targets, analogous to the response to nerve growth factor.
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PMID:Cholinergic differentiation of rat sympathetic neurons in culture: effects of factors applied to distal neurites. 135 31

To study the role of the substratum on the retrograde response of injured peripheral noradrenergic neurons, embryonic rat superior cervical ganglia were grown in vitro on four different substrata: collagen, poly-D-lysine, fibronectin, or tissue culture plastic. The rate and pattern of neurite outgrowth were determined for a 2-week period following injury with explantation. In addition, changes in the activity of tyrosine hydroxylase, the neurotransmitter enzyme that has been shown to be altered during the retrograde response, was measured. The pattern and rate of neurite outgrowth varied directly with the ability of the neuronal growth cone to adhere to the underlying substratum. On poly-D-lysine and collagen, neurites grew as individual processes with extensive branching, whereas on plastic and fibronectin there was little branching and marked neurite fasciculation. The rate of neurite elongation on poly-D-lysine (0.75 mm/day) was faster than on collagen (.53 mm/day), fibronectin (0.33 mm/day), or plastic (0.15 mm/day). On plastic, neurons of the superior cervical ganglion showed a severe and prolonged retrograde response as characterized by a reversible decrease in tyrosine hydroxylase activity to 28% of control which persisted until the 10th day in culture. In contrast, on collagen, there was a smaller, but still significant, decrease in tyrosine hydroxylase activity to 73% of control which lasted only 5 to 6 days. On poly-D-lysine, there was no measureable change in the activity of that enzyme after injury. These studies provide quantitative evidence showing an important role of the microenvironment, and in particular the extracellular matrix, in determining the ability of neurons to respond successfully to injury.
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PMID:Influence of substratum on the retrograde response of the rat superior cervical ganglion in vitro. 288 Jul 48

Cell surface molecules, NCAM and L1, reported to have a role in synaptogenesis, growth and fasciculation of the neurites in the brain, were traced in the embryonic nigral transplants in the host striatum of adult rats. Substantia nigra of five, 15 and 25 postnatal days were also examined for the same molecules. Tyrosine hydroxylase label was used as a marker to localize the nigral neurons and glial fibrillary acidic protein to detect if glial scar present. In the control as well as transplants large neurons had expressed tyrosine hydroxylase. By 15th postnatal day tyrosine hydroxylase neurons appeared mature and were scattered, suggesting a well-formed neuropil. NCAM and L1 reaction was seen as a peripheral rim in most of the cells on the fifth postnatal day. The reaction was mainly in relation to the large cells and more extensive on the 15th day. Thereafter on the 25th day, activity was negligible. Large neurons demonstrated strong reactivity for NCAM and L1 during early post-transplantation days. After 30 days only smaller cells were reactive, many of which could be identified as neurons. Strong reaction for these molecules was present only until 60 days, though faint reaction could be detected even on the 90th day. These observations indicate that the growth promoting molecules, the type seen in the neonatal period, can be detected normally only until the neurons mature. Prolonged expression of these molecules by the grafted neurons indicate delay in the maturation of these cells due to absence of adequate target sites for synaptic connections. Some of the smaller cells expressing these molecules after 30 days of transplantation could be astroglia, either proliferating or reactive.
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PMID:Cell surface molecules (NCAM and L1) in intrastriatal transplants of embryonic mesencephalon in rats. 878 39

Nogo-A is a transmembrane protein originally discovered in myelin, produced by postnatal CNS oligodendrocytes. Nogo-A induces growth cone collapse and inhibition of axonal growth in the injured adult CNS. In the intact CNS, Nogo-A functions as a negative regulator of growth and plasticity. Nogo-A is also expressed by certain neurons. Neuronal Nogo-A depresses long-term potentiation in the hippocampus and modulates neurite adhesion and fasciculation during development in mice. Here we show that Nogo-A is present in neurons derived from human midbrain (Lund human mesencephalic (LUHMES) cell line), as well as in embryonic and postnatal mouse midbrain (dopaminergic) neurons. In LUHMES cells, Nogo-A was upregulated threefold upon differentiation and neurite extension. Nogo-A was localized intracellularly in differentiated LUHMES cells. Cultured midbrain (dopaminergic) neurons from Nogo-A knock-out mice exhibited decreased numbers of neurites and branches when compared with neurons from wild-type (WT) mice. However, this phenotype was not observed when the cultures from WT mice were treated with an antibody neutralizing plasma membrane Nogo-A. In vivo, neither the regeneration of nigrostriatal tyrosine hydroxylase fibers, nor the survival of nigral dopaminergic neurons after partial 6-hydroxydopamine lesions was affected by Nogo-A deletion. These results indicate that during maturation of cultured midbrain (dopaminergic) neurons, intracellular Nogo-A supports neurite growth initiation and branch formation.
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PMID:Intracellular Nogo-A facilitates initiation of neurite formation in mouse midbrain neurons in vitro. 2415 29