Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.37 (CNPase)
 539 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to study peptide growth factor action in a three-dimensional cellular environment, aggregating cell cultures prepared from 15-day fetal rat telencephalon were grown in a chemically defined medium and treated during an early developmental stage with either bovine fibroblast growth factor (bFGF) or platelet-derived growth factor (PDGF homodimers AA and BB). A single dose (5-50 ng/ml) of either growth factor given to the cultures on day 3 greatly enhanced the developmental increase of the two glia-specific enzyme activities, 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) and glutamine synthetase (GS), whereas it had relatively little effect on total protein and DNA content. Distinct patterns of dose-dependency were found for CNP and GS stimulation. At low concentrations of bFGF (0.5-5 ng/ml) and at all PDGF concentrations applied, the oligodendroglial marker enzyme CNP was the most affected. A relatively small but significant mitogenic effect was observed after treatment with PDGF, particularly at higher concentrations or after repetitive stimulation. The two PDGF homodimers AA and BB were similar in their biological effects and potency. The present results show that under histotypic conditions both growth factors, bFGF and PDGF, promote the maturation rather than the proliferation of immature oligodendrocytes and astrocytes.
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PMID:Developmental effects of basic fibroblast growth factor and platelet-derived growth factor on glial cells in a three-dimensional cell culture system. 135 16

This study has dealt with the inhibition by lead of glutamine synthetase (GS) activity in homogenates of mixed glial primary cultures, 95% enriched in differentiating astrocytes. A 70% inhibition was observed with a lead concentration of only 2.5 microM. Prevention of the inhibition by addition of EDTA or dithiothreitol is compatible with the conclusion that the effect is mediated by binding of lead ion to sulfhydryl moieties of the enzyme. Among several other cations tested, only mercury, which has a similarly high binding affinity for sulfhydryl moieties, inhibited the enzyme. The inhibitory effect of lead was relatively specific, since no inhibition of another astrocytic marker enzyme, lactate dehydrogenase, of the oligodendroglial marker enzyme, 2',3'-cyclic nucleotide 3'-phosphohydrolase, or of the plasma membrane marker, Na,Ka-ATPase, was observed with concentrations of lead that produced a 70% decrease of GS. Because of the critical role of GS in regulation of extracellular glutamate, the findings raise the possibility that glutamate-induced neuronal injury is involved in the genesis of the cognitive defects associated with chronic low-level lead exposure in young children.
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PMID:Glutamine synthetase activity of developing astrocytes is inhibited in vitro by very low concentrations of lead. 197 58

Primary cultures of cerebral glia derived from neonatal rat brain were utilized to determine whether specific glycoproteins are involved in oligodendroglial and astrocytic differentiation. Specific emphasis was placed on the oligosaccharide portion of glycoproteins, and inhibitors of glycoprotein processing were studied. Castanospermine, an inhibitor of glucosidase I, and thereby formation of both complex glycoproteins and high mannose glycoproteins, and deoxymannojirimycin (DMM), an inhibitor of mannosidase I and thereby formation of complex glycoproteins, were utilized. Castanospermine exposure prevented the developmental inductions of the two oligodendroglial markers, 2',3'-cyclic nucleotide 3'-phosphohydrolase and glycerol-3-phosphate dehydrogenase. The effect of castanospermine on oligodendroglial differentiation was reversible. In contrast, castanospermine had no effect on the developmental inductions of the two astrocytic markers, glutamine synthetase and lactate dehydrogenase. DMM exposure had no effect on either oligodendroglial or astrocytic differentiation. Although both inhibitors caused a marked decrease in the formation of complex glycoproteins and an increase in high mannose structures, the oligosaccharide composition of these high mannose structures differed markedly. Castanospermine caused an increase in 'abnormal', apparently glucosylated high mannose structures and a decrease in all other 'normal' high mannose oligosaccharides, whereas DMM caused an increase in most high mannose structures, especially those migrating in the region of the Man7GlcNAc standard. The data indicate that oligodendroglial differentiation requires specific N-linked oligosaccharides, probably principally of the high mannose type, and that astrocytic differentiation can proceed normally despite marked alterations in both complex and high mannose glycoproteins.
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PMID:Specific N-linked oligosaccharides are required for oligodendroglial differentiation but probably not for astrocytic differentiation. 213 78

Primary cultures of cerebral glia derived from newborn rat brain were utilized to evaluate the effects of ethanol on DNA synthesis and cellular differentiation. Glutamine synthetase was employed as a marker for astrocytic differentiation and 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP), for oligodendroglial differentiation. Concentrations of ethanol of 17-86 mM, i.e., a concentration range comparable to that observed in humans, were utilized. No effect of ethanol on DNA synthesis was observed, despite the use of synchronized cultures. Similarly, no effect of ethanol on the developmental increase of glutamine synthetase activity was seen, despite the use of astrocytes purified by the selective detachment technique and a prolonged duration of exposure to ethanol (17 days). In contrast, however, a striking enhancement of CNP activity was demonstrable in both mixed glial cultures and in oligodendroglia purified by the selective detachment technique. In the latter cells, the stimulatory effect of ethanol was evident within 9 days of exposure, and after 17 days of exposure, ethanol-treated cells exhibited a two-fold higher CNP activity than did control cells. This peak effect was observed at an ethanol concentration of only 17 mM. Thus, these data indicate that (1) clinically relevant concentrations of ethanol have no effect on either DNA synthesis or on at least one expression of astrocytic differentiation in glial primary cultures, but (2) these concentrations exert a striking enhancement of CNP activity, a marker of oligodendroglial differentiation. The findings have implications both for the effects of ethanol on the developing nervous system and the regulation of oligodendroglial differentiation.
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PMID:Ethanol in clinically relevant concentrations enhances expression of oligodendroglial differentiation but has no effect on astrocytic differentiation or DNA synthesis in primary cultures. 256 4

In order to assess the sensitivity of several cell specific enzyme markers (tyrosine hydroxylase (TH), glutamic acid decarboxylase, choline acetyltransferase, glutamine synthetase (GS), neuron specific and non-neuronal enolase and 2',3'-cyclic nucleotide phosphohydrolase (CNP] as indices of neurotoxicity, changes in their activities were monitored after rats were treated with two doses of the neurotoxic agent, methylmercury chloride (MMC). Comparisons were also made of any histopathological changes occurring in the tissues examined. At the low dose rate (3.36 mg Hg/kg, po, for 14 days), the rats exhibited less body weight gain compared to untreated animals. No change in either the neuronal or noneuronal enzyme markers was observed in brain but a significant increase in the myelin marker, CNP, and total enolase activity was seen in the optic nerve. Morphological evaluation by light microscopy indicated no discernible neuronal lesions in MMC-exposed animals. At the higher MMC dose (7.05 mg Hg/kg, po, for 7 days), there was about a 20% loss in the body weight of treated animals and partial hind limb paralysis was observed. Of all the neuronal marker enzymes examined, only TH was found to be decreased in the striatum. The proliferating astroglial marker, GS, was elevated only in the cerebellum. CNP was found to be decreased in both the optic and sciatic nerve. As in the lower dose group no pathological changes were observed at the light microscopic level in the brain of MMC-treated rats. These data suggest that of the cell specific marker enzymes studied, GS in the cerebellum and TH in the striatum may be useful biochemical markers for the neurotoxic action of MMC.
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PMID:Cell specific enzyme markers as indicators of neurotoxicity: effects of acute exposure to methylmercury. 257 Mar 89

The neurotoxicity associated with chronic exposure to hexachlorophene (HCP) was evaluated by measuring the activity of seven cell specific marker enzymes in brain and by comparing these measurements to morphological changes analyzed by light microscopy. Animals were divided into two groups, the experimental group received HCP at a daily dose of 20 mg/kg p.o. for 53 consecutive days whereas the control group received an equivalent amount of the vehicle only. HCP produced no change in the rate of gain in body weight nor did it produce a statistically significant change in brain weight. Furthermore, no overt abnormal neurological symptoms were observed at this level of exposure to HCP. The white matter throughout the brain was extensively vacuolated in the HCP-treated rats, imparting a spongiform structure which was absent in the white matter of the control animal brains. The data obtained reveal that chronic HCP treatment produce little change in any of the neuronal marker enzymes with the exception of a significant decrease in tyrosine hydroxylase activity in the striatum. Of the nonneuronal enzymes assayed, a significant increase in non-neuronal enolase, glutamine synthetase, and 2',3'-cyclic nucleotide phosphohydrolase was observed in the sciatic nerve, hippocampus and optic nerve, respectively.
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PMID:Effect of chronic exposure to hexachlorophene on rat brain cell specific marker enzymes. 261 62

Primary cultures of cerebral glia derived from neonatal rat brain were utilized to determine 1) the developmental changes of dolichol-linked oligosaccharide and N-linked glycoprotein biosyntheses, 2) the enzymatic correlates of these developmental changes, and 3) the temporal relations between the biosyntheses of dolichol-oligosaccharide and N-linked glycoproteins and the biochemical expression of astrocytic and oligodendroglial differentiation. Marked, parallel developmental increases in the rates of incorporation of [3H]glucosamine into both dolichol-oligosaccharide and glycoprotein were observed, with maximal rates achieved after 9-10 days in culture and little change occurring over the next 10 days in culture. Concerning the enzymatic correlates, dolichol kinase exhibited a moderate developmental increase with a maximum at 5 days in culture, whereas the activities of the three critical enzymes that utilize dolichyl phosphate in the synthesis of the dolichol-linked oligosaccharide, i.e., N-acetylglucosaminylphosphotransferase (GlcNAc-1-P transferase), mannosylphosphoryldolichol (Man-P-Dol) synthase, and glucosylphosphoryldolichol (Glc-P-Dol) synthase, reached maxima after 6-9 days in culture. Both the activity of Man-P-Dol synthase in vitro and the rate of formation of its product, Man-P-Dol, in intact cells were shown to correlate closely with the rates of oligosaccharide and glycoprotein biosyntheses. An important regulatory role for Man-P-Dol synthase and its product, Man-P-Dol, was suggested further by the demonstration of a maturation-dependent activation by Man-P-Dol of GlcNAc-1-P transferase, the first committed step in the pathway. Two enzymatic markers of astrocytic (glutamine synthetase) and oligodendroglial (2',3'-cyclic nucleotide 3'-phosphohydrolase) differentiation exhibited marked developmental increases in activity with onset at the time of attainment of peak rates of dolichol-oligosaccharide and glycoprotein biosyntheses. Importance of the latter processes for glial differentiation is suggested.
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PMID:Dolichol-linked oligosaccharide and glycoprotein biosyntheses in glial cells in primary culture: development and enzymatic correlates. 284 60

The mixed glial system of primary cultures of cells dissociated from neonatal rat brain was utilized to study glial differentiation. The investigation was addressed specifically to the possibility of noncoordinate regulation of two manifestations of oligodendroglial differentiation, i.e., activities of glycerol-3-phosphate dehydrogenase (GPDH) and of 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP), as well as the effects of initial cell density on the time of onset and the intensity of expression of these aspects of oligodendroglial differentiation. Simultaneously, glutamine synthetase activity was studied to determine effects on astrocytic differentiation. GPDH exhibited a major developmental increase in specific activity between 20 and 32 days in culture. However, CNP activity exhibited a major developmental increase that commenced approximately 2 weeks earlier. The onset of these expressions of oligodendroglial differentiation was not affected by such environmental factors as initial cell density. However, the intensity of expression of the temporally separate increases in GPDH and CNP activities was markedly density-dependent. The highest activities were attained in cultures plated at the lowest cell densities. The astrocytic enzyme, glutamine synthetase, also exhibited a striking developmental increase (approximately tenfold between 13 and 30 days in culture), but initial cell density affected neither the time of onset nor the intensity of expression of this aspect of astrocytic differentiation. The data demonstrate a striking developmental increase in GPDH activity that is not coordinate with that in CNP. The noncoordinate manifestations of oligodendroglial differentiation commence as a function of time in culture, whereas the intensity of expression of this differentiation can be influenced by such environmental factors as initial cell density.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glial differentiation in dissociated cell cultures of neonatal rat brain: noncoordinate and density-dependent regulation of oligodendroglial enzymes. 287 Jan 95

The in vitro effect of methylmercury (MM) on the enzymatic activities of brain cell specific marker enzymes, choline acetyltransferase (CAT), glutamic acid decarboxylase (GAD), 2',3'-cyclic nucleotide phosphohydrolase (CNP), glutamine synthetase (GS) and enolase was examined. The results demonstrate that at 100 microM MM, GS activity was not affected whereas a small decrease in the activity of both GAD (20%) and enolase (10%) was observed. CNP and CAT activity appeared to be more sensitive toward MM with 100 microM MM producing inhibition of 50% and 30%, respectively. The addition of sulfhydryl protecting reagents such as DTT or sodium thioglycolate can restore the enzyme activities to normal control levels despite prior exposure of the enzymes to MM.
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PMID:Studies of the in vitro effect of methylmercury chloride on rat brain neurotransmitter enzymes. 288 7

Seven cell specific marker enzymes in brain and optic nerve and morphological evaluation by light microscopy were used to characterize the neurotoxicity associated with exposure of rats to hexachlorophene (HCP; 40 mg/kg/day, po, for 9 days). In vitro exposure to HCP at concentrations up to 100 microM had no direct inhibitory effect on the marker enzymes, validating their use in evaluating brain function in vivo. Rats exhibited a reduction in body weight gain, weakness, and ataxia of the hind limbs by the ninth day of HCP exposure. At 24 hr following the last day of exposure to HCP, the activities of the three neuron specific enzymes, glutamic acid decarboxylase, tyrosine hydroxylase, and choline acetyltransferase, in rat brain were unchanged from those of the vehicle-treated control group. Of the two astroglial enzyme markers measured, a small but significant increase was observed in the activity of nonneuronal enolase in the cerebellum and glutamine synthetase in the hippocampus of HCP-treated rats. The optic nerve appeared to be the most sensitive tissue in that the activity of both the astroglial marker, nonneuronal enolase, and the myelin marker, 2',3'-cyclic nucleotide phosphohydrolase, was significantly decreased following HCP exposure. This decrease in enzyme activity is consistent with the histological observations demonstrating extensive vacuolization and edema in the optic nerve after exposure to HCP.
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PMID:Effect of short-term exposure to hexachlorophene on rat brain cell specific marker enzymes. 290 23


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