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排序方式: 共有182条查询结果,搜索用时 15 毫秒
1.
Gao J Gross J Andreeva N Glatzel E Grützmann H Heldt J Husemann B Jamielson L Andersson K 《Journal of neural transmission (Vienna, Austria : 1996)》1999,106(2):111-122
Summary. Perinatal hypoxia is known as a high risk factor for the development of long-lasting abnormalities in dopaminergic system.
The early developmental alterations of dopamine (DA) metabolism induced by hypoxia could contribute to these abnormalities.
To understand the hypoxia-induced changes of intra- and extracellular dopamine levels and its main metabolites, 3,4-dihydroxyphenylacetic
acid (DOPAC) and homovanillic acid (HVA), in immature dopaminergic neurons, we compared these changes in rat mesencephalic
and diencephalic cell cultures on day in vitro (DIV) 2 (immature cells), DIV 8 and DIV 13 (mature cells). Cell cultures were
exposed to an oxygen-free gas mixture in a Billups chamber for 2–4 hours. Mature cell cultures responded to hypoxia with an
increase of DA levels in the cells and in the medium during the first 45 min (by an average of 57 and 114% respectively).
Thereafter, DA levels decreased, and returned to the baseline within the next 30 min. The cellular DA levels continued to
decrease up to 15% of the baseline during 255 min hypoxia whereas the extracellular DA content stabilized at the prehypoxic
levels. Immature cell cultures (DIV 2) in contrast to mature ones, were unable to maintain normal extracellular DA levels
during hypoxia and showed a decrease of the cellular and extracellular levels to 50% of the prehypoxic levels. DOPAC and HVA
changes mimick, however, at a lower level, the pattern of DA changes during the exposure to hypoxia. In principle, in the
diencephalic cell culture similar effects of hypoxia exposure on the investigated parameters were found (studied during 0–120
min).
The present study demonstrates that mature and immature dopaminergic cells differ in the regulation of the extra- and intracellular
DA levels during hypoxia. In immature cells the low synthetic capacity of tyrosine hydroxylase and the deficient capacities
of the transport and storage processes result in decreased extracellular DA levels. This could be an important factor for
the long-term modulation of the expression of tyrosine hydroxylase and subsequent long-term behavioral and/or neurological
abnormalities induced by perinatal hypoxia.
Received June 8, 1998; accepted July 21, 1998 相似文献
2.
Recent postmortem studies in humans suggest that defects in GABAergic neurotransmission might contribute to the neuropathology associated with schizophrenia. Disturbances in GABAergic systems may also contribute to the sensorimotor gating deficits classically observed in schizophrenic patients, including deficits in prepulse inhibition (PPI). To explore the relationship, the current study examined the integrity of PPI and startle habituation in knockout (KO) mice that lack the GABA synthesizing enzyme glutamic acid decarboxylase 65 (GAD 65). GAD65 KO mice displayed normal baseline and habituated startle responses, which did not differ from GAD65 wild-type (WT) or heterozygous (HET) mice. However, GAD65 KO mice showed robust deficits in PPI which were reversed by the atypical antipsychotic agent clozapine. These results lend support to the view that abnormalities in GABAergic systems might contribute to the basic pathophysiological mechanisms in schizophrenia. 相似文献
3.
Purification, molecular cloning, and sequence analysis of sucrose-6F-phosphate phosphohydrolase from plants 下载免费PDF全文
Lunn JE Ashton AR Hatch MD Heldt HW 《Proceedings of the National Academy of Sciences of the United States of America》2000,97(23):12914-12919
Sucrose-6(F)-phosphate phosphohydrolase (SPP; EC ) catalyzes the final step in the pathway of sucrose biosynthesis and is the only enzyme of photosynthetic carbon assimilation for which the gene has not been identified. The enzyme was purified to homogeneity from rice (Oryza sativa L.) leaves and partially sequenced. The rice leaf enzyme is a dimer with a native molecular mass of 100 kDa and a subunit molecular mass of 50 kDa. The enzyme is highly specific for sucrose 6(F)-phosphate with a K(m) of 65 microM and a specific activity of 1250 micromol min(-1) mg(-1) protein. The activity is dependent on Mg(2+) with a remarkably low K(a) of 8-9 microM and is weakly inhibited by sucrose. Three peptides from cleavage of the purified rice SPP with endoproteinase Lys-C showed similarity to the deduced amino acid sequences of three predicted open reading frames (ORF) in the Arabidopsis thaliana genome and one in the genome of the cyanobacterium Synechocystis sp. PCC6803, as well as cDNA clones from Arabidopsis, maize, and other species in the GenBank database of expressed sequence tags. The putative maize SPP cDNA clone contained an ORF encoding a 420-amino acid polypeptide. Heterologous expression in Escherichia coli showed that this cDNA clone encoded a functional SPP enzyme. The 260-amino acid N-terminal catalytic domain of the maize SPP is homologous to the C-terminal region of sucrose-phosphate synthase. A PSI-BLAST search of the GenBank database indicated that the maize SPP is a member of the haloacid dehalogenase hydrolase/phosphatase superfamily. 相似文献
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Antisense repression of the chloroplast triose phosphate translocator affects carbon partitioning in transgenic potato plants 下载免费PDF全文
Riesmeier JW Flügge UI Schulz B Heineke D Heldt HW Willmitzer L Frommer WB 《Proceedings of the National Academy of Sciences of the United States of America》1993,90(13):6160-6164
The major chloroplast envelope membrane protein E29 is central for the communication between chloroplasts and cytosol. It has been identified as the triose phosphate translocator (TPT) exporting the primary products of the Calvin cycle (i.e., triose phosphates and 3-phosphoglycerate) out of the chloroplast in a strict counter exchange for Pi. To study the in vivo role of the TPT, transgenic potato plants were constructed that have a reduced expression of the TPT at both the RNA and protein level due to antisense inhibition. Chloroplasts isolated from these plants show a 20-30% reduction with respect to their ability to import Pi. The reduced TPT activity leads to a reduction of maximal photosynthesis by 40-60%, to a change in carbon partitioning into starch at the expense of sucrose and amino acids, and to an increase of the leaf starch content by a factor of approximately 3. At early developmental stages the inhibited plants are retarded in growth compared to the wild type. 相似文献
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N. Andreeva U. Ungethüm J. Heldt G. Marschhausen Th. Altmann K. Andersson J. Gross 《Experimental neurology》1996,137(2):255-262
This study examines the effects of high K+concentration on the growth and development of mesencephalic cells and their glutamate vulnerability. Mesencephalic cell cultures obtained from Wistar rat embryos on the 14th gestational day were maintained for 14 days in medium with either normal (4.2 mM) or elevated (24.2 mM) potassium concentration. There was no significant difference due to various K+concentration in cell growth and survival up to dayin vitro(DIV) 13–15. In order to test the glutamate (Glu) vulnerability, cultures were treated with 100 μMGlu for 15 min in salt solution on the DIV 3, 6, 8, and 13. Glu-induced neuronal damage was estimated 24 h later by measuring the neuron-specific enolase (NSE) content in the culture medium and by counting the number of tyrosine hydroxylase-immunoreactive (TH-IR) neurons. Glu had no damaging effect on the cells on DIV 3, but became pronounced beyond DIV 6. Elevated potassium concentration (24.2 mM) in the culture medium during development significantly increases neuronal vulnerability to Glu treatment, indicated by a higher increase of NSE content in the medium and by a more pronounced Glu-induced decrease of the number of TH-IR cells. The Glu-induced decrease of the number of TH-IR cells and of NSE-IR cells let us conclude that dopaminergic neurons are more vulnerable to glutamate than other neurons from mesencephalic culture. 相似文献