共查询到20条相似文献,搜索用时 9 毫秒
1.
Abstract: Iron is a universal cofactor for mitochondrial energy generation and supports the growth and differentiation of all cell types. In the CNS, iron is a key component of systems responsible for myelination and the synthesis of several neurotransmitters. In this study the spatial and temporal pattern of iron and its regulatory proteins transferrin and ferritin are quantitatively examined in the rat CNS during the first 3 weeks of postnatal life and in adults and aged animals. The midbrain, the cerebral cortex, and the cerebellum-pons are examined independently. Iron, transferrin, and ferritin concentrations are highest in all three brain regions at birth and decrease in each region to minimum levels during the third postnatal week. The decrease in levels of iron, transferrin, and ferritin is most pronounced in the cerebellum-pons and cortex and least in the midbrain. From postnatal day 17, iron (total iron content) and ferritin levels increase throughout the lifetime of the rat. In contrast, transferrin levels remain fairly constant in each brain region after postnatal day 24. The midbrain region, which includes the iron-rich regions such as the globus pallidus, substantia nigra, and red nucleus, has the least change in iron with development, has the highest level of ferritin during development, and consistently has the highest level of transferrin at all ages. These observations are consistent with reports that iron is important for normal motor function. Transferrin did not increase after postnatal day 24 in the three brain regions examined despite increasing amounts of iron, which implies a decrease in iron mobility in the aged rats, a finding that is consistent with observations of human brain tissue. The data reported in this study demonstrate that iron acquisition and mobilization systems in the CNS are established early in development and that the overall pattern of acquisition among brain regions is similar. These data offer support and insight into established concepts that a sufficient iron supply is critical for normal neurological development. 相似文献
2.
Gertrude M. Tyce Larry W. Hunter Lawrence E. Ward Duane K. Rorie 《Journal of neurochemistry》1995,64(2):833-841
Abstract: Effluxes of 3,4-dihydroxyphenylalanine, 3,4-dihydroxyphenyglycol, and norepinephrine from four superfused canine blood vessels (saphenous and portal veins and mesenteric and pulmonary arteries) were studied under basal conditions and during nerve stimulation. From quantification of the compounds a series of indices of activities at neuroeffector junctions are proposed. These are (a) basal overflow of 3,4-dihydroxyphenylglycol as an index of vesicular-cytoplasmic translocation of norepinephrine, (b) the increase in 3,4-dihydroxyphenyglycol overflow attributable to nerve stimulation as an index of neuronal reuptake of norepinephrine released by stimulation, (c) the sum of the increases in overflows of norepinephrine and 3,4-dihydroxyphenylglycol attributable to nerve stimulation as an index of evoked release of norepinephrine, and (d) the efflux of 3,4-dihydroxyphenylalanine as an index of the activity of tyrosine hydroxylase, the rate-limiting enzyme in the synthesis of norepinephrine. There were clear differences between these indices in the vessels. Correlation coefficients of the indices among vessels indicated that a high tissue norepinephrine level was associated with high biosynthetic capacity and high vesicular-cytoplasmic exchange but not with high release. There was no evidence suggesting feedback inhibition of synthesis by neuroplasmic norepinephrine—whether arising from vesicular-cytoplasmic translocation or from reuptake from the junctional cleft. The major value of these indices will probably be in determining the intergrated effects of pharmacologic agents at neuroeffector junctions in different blood vessels. 相似文献
3.
Local Cerebral Glucose Utilization During Development and Aging of the Fischer-344 Rat 总被引:6,自引:5,他引:1
Edythe D. London Stephanie M. Nespor Masahiro Ohata Stanley I. Rapoport 《Journal of neurochemistry》1981,37(1):217-221
Abstract: Local cerebral glucose utilization was measured in brain regions of awake Fischer-344 rats. Measurements were taken in 15 regions of 1-month-old rats, and 19 regions of 3-, 12-, 24-, and 34-month-old rats. Between 1 and 3 months, glucose utilization tended to increase in all brain regions; statistically significant increases occurred in seven regions. Between the ages of 3 and 12 months, glucose utilization decreased significantly in 12 regions. The greatest reductions (25% or more) occurred in the striatum, inferior colliculus, and pons, but the hypothalamus and thalamus, nucleus accumbens, and septum showed no statistically significant change. Cerebral glucose utilization did not change between 12 and 24 months or between 24 and 34 months of age. The results demonstrate a rise in cerebral glucose utilization with development from 1 to 3 months, a decline between 3 and 12 months, and a constancy in the second and third years that does not reflect reported senescence-associated neurochemical and morphological cerebral changes. 相似文献
4.
Ryuji Ueno Hiroyoshi Osama Yoshihiro Urade Osamu Hayaishi 《Journal of neurochemistry》1985,45(2):483-489
In the developing rat brain, the enzymatic formation of prostaglandin D2 from prostaglandin H2 increased 60-fold from day 12 of gestation to birth. The activity still rose gradually to the highest level (90 nmol/min/g wet tissue) at day 7 after birth. The activities of prostaglandin E2 and F2 alpha synthetases in rat brain were highest at gestational age 19 days (30 nmol/min/g wet tissue), respectively. The specific activity of NADP-dependent 15-hydroxy-prostaglandin D2 dehydrogenase in rat brain was highest at the earliest gestational age we examined (day 12 of gestation). The specific bindings of prostaglandin D2 and E2 to the crude mitochondrial fraction of rat brain were observed from day 16 of gestation and increased to day 7 after birth. Although the activities of the enzymes responsible for prostaglandin metabolism were unchanged postmaturationally, the maximal concentrations of the binding sites on the synaptic membrane for both prostaglandins D2 and E2 decreased with constant affinity to less than one-sixth with age from 1 week to 24 months after birth. These results indicate that prostaglandins may play important roles during maturation and aging in rat brain. 相似文献
5.
M. E. Wolf P. A. LeWitt M. J. Bannon L. J. Dragovic G. Kapatos 《Journal of neurochemistry》1991,56(4):1191-1200
This study examined the effect of aging on the relative number of dopamine (DA) nerve terminals in human caudate nucleus, their content of tyrosine hydroxylase (TH) protein, and the relative abundance of TH monomers with different molecular weights. Preliminary studies on brain tissue cryopreservation, performed with rat striatum, indicated that intact synaptosomes can be prepared from fresh tissue slowly frozen in 0.32 M sucrose with 5% dimethyl sulfoxide and then thawed rapidly prior to synaptosome preparation. Synaptosomes were prepared in this manner from postmortem caudate nucleus tissue obtained from normal humans 1 month to 63 years of age. To determine the relative number of DA nerve terminals for each individual, dopaminergic synaptosomes were selectively labeled with a monoclonal antibody to TH and quantified by fluorescence-activated cell sorting. To determine the relative amount of TH protein for each individual, the concentration of TH protein in the same synaptosomal preparations was determined using immunoblots. Our results suggest that caudate TH levels plateau soon after birth and tend to remain relatively stable during aging, since no changes in either the relative number of TH-containing nerve terminals or the concentration of TH protein were found in subjects 15-63 years of age. In light of previous studies showing an age-related loss of DA cell bodies, these findings suggest that remaining DA neurons compensate to maintain caudate levels of TH protein and TH-containing nerve terminals. Immunoblot studies identified three forms of TH monomer (60.6, 61.7, and 65.1 kDa), indicating that mRNAs coding for high molecular mass forms of TH may be actively translated in human brain. No age-related differences in the relative abundance of these forms were found. 相似文献
6.
R. Deskin F. J. Seidler W. L. Whitmore T. A. Slotkin 《Journal of neurochemistry》1981,36(5):1683-1690
To study the relationship between ontogeny of rat brain catecholamine nerve terminals and the receptor systems for the catecholamine transmitters, the developmental patterns of synaptosomal uptake mechanisms were compared with those of alpha-noradrenergic and dopaminergic receptor-mediated effects. Uptakes of [(3)H]dopamine or [(3)H]norepinephrine into dopaminergic and noradrenergic nerve terminals were low during the 1st week postpartum and increased rapidly during the 2nd week. A similar pattern was obtained for ontogeny of dopaminergic receptor binding sites, as evaluated by [(3)H]domperidone binding. Stimulation of incorporation of (33)P(i) into brain phospholipids (elicited by intracisternal injection of dopamine), which is mediated by dopaminergic receptors, was shown to be highly correlated with the maturation of both receptor binding sites and presynaptic nerve terminal uptake. A similar result was seen with norepinephrine, in that the synaptosomal uptake mechanism and norepinephrine-induced stimulation (33)P(i) incorporation into phospholipids, an alpha-noradrenergic effect, developed in a parallel fashion. To test the hypothesis that development of the receptor systems is linked to nerve terminal ontogeny, presynaptic nerve terminals were destroyed in neonates by intracisternal administration of 6-hydroxydopamine. The lesions prevented the maturational increase in the number of dopamine receptor binding sites and produced a defect in development of the dopamine- and norepinephrine-induced stimulation of (33)P(i) incorporation. The results suggest that ontogeny of both dopaminergic and alpha-noradrenergic receptor systems depend upon development of the presynaptic nerve terminals containing the transmitters. 相似文献
7.
John H. Hofteig Phung N. Vo Allan J. Yates Karen S. Leon 《Journal of neurochemistry》1982,39(2):401-408
Abstract: The phospholipid composition of normal peripheral nerve as a function of developmental age as well as that of Wallerian-degenerated nerve as a function of age at nerve transection and duration of Wallerian degeneration have been quantitated in rabbit sciatic nerve. During development, increases in the proportions of ethanolamine plasmalogen, sphingomyelin, and combined phosphatidyl serine plus phosphatidyl inositol and decreases in the proportions of phosphatidyl choline and phosphatidyl ethanolamine correlated well with the concurrent myelin accretion. During Wallerian degeneration, age-dependent changes in phospholipid composition were observed. The large and statistically significant increase in the proportion of phosphatidyl choline and decrease in the proportion of ethanolamine plasmalogen were manifest promptly in nerves transected at 2 weeks of age but in a delayed manner in nerves transected at 8, 12, and 20 weeks of age. The rate of loss of individual phospholipids was greater in nerves transected at younger ages. The findings from normal developing peripheral nerve may well serve as baseline data for subsequent studies of phospholipid composition in pathological peripheral nerve. The Findings from Wallerian-degenerated peripheral nerve provide additional evidence for age-dependent chemical changes occurring in Wallerian-degenerated peripheral nerve that may be of significance in explaining the superior functional recovery from peripheral nerve injury observed in younger compared with older subjects. 相似文献
8.
Abstract: Mouse brain tubulin was analyzed on isoelectric focusing gels. High-resolution gels utilizing Bio-Rad ampholytes (pH 4-6) revealed 5-6 bands in the region corresponding to the α-subunit of tubulin and 10 or more for the β-subunit. The same general banding pattern was observed regardless of the method of preparation of the tubulin. Two species prominent in the brains of immature mice, α6 and β2, virtually disappeared during maturation, while species β6 to β10 appeared. No significant changes from the mature pattern were seen during aging (examined at 12, 23, and 30 months of age). 相似文献
9.
M. Renuka Prasad C. Ramaiah T. K. McIntosh R. J. Dempsey S. Hipkens D. Yurek 《Journal of neurochemistry》1994,63(3):1086-1094
Abstract: The recently developed controlled cortical impact model of brain injury in rats may be an excellent tool by which to attempt to understand the neurochemical mechanisms mediating the pathophysiology of traumatic brain injury. In this study, rats were subjected to lateral controlled cortical impact brain injury of low grade severity; their brains were frozen in situ at various times after injury to measure regional levels of lactate, high energy phosphates, and norepinephrine. Tissue lactate concentration in the injury site left cortex was increased in injured animals by sixfold at 30 min and twofold at 2.5 h and 24 h after injury ( p < 0.05). At all postinjury times, lactate concentration was also increased in injured animals by about twofold in the cortex and hippocampus adjacent to the injury site ( p < 0.05). No significant changes occurred in the levels of ATP and phosphocreatine in most of the brain regions of injured animals. However, in the primary site of injury (left cortex), phosphocreatine concentration was decreased by 40% in injured animals at 30 min after injury ( p < 0.05). The norepinephrine concentration was decreased in the injury site left cortex of injured animals by 38% at 30 min, 29% at 2.5 h, and 30% at 24 h after injury ( p < 0.05). The level of norepinephrine was also reduced by ∼20% in the cortex adjacent to the injury site in injured animals. The present results suggest that controlled cortical impact brain injury produces disorder in the neuronal oxidative and norepinephrine metabolism. 相似文献
10.
J. Goemaere-Vanneste J.-Y. Couraud† R. Hassig L. Di Giamberardino P. van den Bosch de Aguilar 《Journal of neurochemistry》1988,51(6):1746-1754
Aging in the sciatic nerve of the rat is characterized by various alterations, mainly cytoskeletal impairment, the presence of residual bodies and glycogen deposits, and axonal dystrophies. These alterations could form a mechanical blockade in the axoplasm and disturb the axoplasmic transports. However, morphometric studies on the fiber distribution indicate that the increase of the axoplasmic compartment during aging could obviate this mechanical blockade. Analysis of the axoplasmic transport, using acetylcholinesterase (AChE) molecular forms as markers, demonstrates a reduction in the total AChE flow rate, which is entirely accounted for by a significant bidirectional 40-60% decrease in the rapid axonal transport of the G4 molecular form. However, the slow axoplasmic flow of G1 + G2 forms, as well as the rapid transport of the A12 form of AChE, remain unchanged. Our results support the hypothesis that the alterations observed in aged nerves might be related either to the impairment in the rapid transport of specific factor(s) or to modified exchanges between rapidly transported and stationary material along the nerves, rather than to a general defect in the axonal transport mechanisms themselves. 相似文献
11.
Thor Willy Ruud Hansen Siri B.W. Mathiesen Iren Sefland S. Ivar Walaas 《Neurochemical research》1999,24(6):733-738
Although the well-known neurotoxic agent bilirubin can induce alterations in neuronal signaling, direct effects on neurotransmitter release have been difficult to demonstrate. In the present study we have used permeabilized nerve terminals (synaptosomes) from rat brain prelabeled with [3H]norepinephrine to examine the effects of bilirubin on transmitter release. Rat cerebrocortical synaptosomes were permeabilized with streptolysin-O (2 U/ml) in the absence or presence of bilirubin (10 M–320 M) and Ca2+ (100 M), and the amount of radiolabeled transmitter released during 5 min to the medium was analysed. Low levels of bilirubin decreased Ca2+-evoked release in a dose-dependent manner, with half-maximal effect at approx 25 M bilirubin. Higher levels of bilirubin (100–320 M) increased [3H]norepinephrine efflux in the absence of Ca2+, suggesting that high bilirubin levels induced leakage of transmitter from vesicles. The nontoxic precursor biliverdin had no effect on Ca2+-dependent exocytosis. Our data indicate that bilirubin directly inhibits both exocytotic release and vesicular storage of brain catecholamines. 相似文献
12.
13.
In contrast to brain, the sciatic nerve concentration of vitamin E in rats increased rapidly during the postnatal period (approximately fivefold between days 1 and 8), then decreased dramatically (about twofold between days 8 and 30), and further decreased slowly between days 30 and 60 and remained constant up to 2 years. Although the sciatic nerve concentration of vitamin E decreased by 58% between days 8 and 30, the concentration of vitamin E in serum presented a marked decrease (approximately 75%). The vitamin E concentrations varied in a similar pattern in whole sciatic nerve and in endoneurium and showed a very close correlation (r = 0.94). The age-related changes in fatty acid concentration of the endoneurial fraction of the sciatic nerve were characterized by a large increase in content of saturated and monounsaturated fatty acids up to 6 months (twofold for saturated and fourfold for monounsaturated fatty acids). Then, up to 24 months, the amount of these fatty acids decreased very slowly. The content of (n-6) polyunsaturated fatty acids (PUFAs) decreased rapidly up to 1 year and slowly afterward. In contrast, during development the amount of (n-3) PUFA was relatively stable and decreased during aging. A highly significant correlation between vitamin E and (n-6) PUFA [18:2(n-6), 20:4(n-6), and total (n-6)] was observed but not between (n-3) PUFA and vitamin E. It is suggested that there may be a relationship between vitamin E and (n-6) PUFA in the PNS membranes during development and aging. 相似文献
14.
Laminins are extracellular matrix (ECM) proteins that play an important role in cellular function and tissue morphogenesis.
In the peripheral nervous system (PNS), laminins are expressed in Schwann cells and participate in their development. Mutations
in laminin subunits expressed in the PNS and in skeleton muscle may cause peripheral neuropathies and muscular dystrophy in
both humans and mice. Recent studies using gene knockout technology, such as cell-type specific gene targeting techniques,
revealed that laminins and their receptors mediate Schwann cell and axon interactions. Schwann cells with disrupted laminin
expression exhibit impaired proliferation and differentiation and also undergo apoptosis. In this review, we focus on the
potential molecular mechanisms by which laminins participate in the development of Schwann cells. 相似文献
15.
Sanna L. McKinzie Donna L. Hammond Curtis Grabau Gertrude M. Tyce 《Journal of neurochemistry》1996,66(2):569-578
Abstract: The completely hepatectomized rat has frequently been used as a model to study changes in the economy of norepinephrine (NE) and dopamine (DA) in hepatic coma. Hypothermia characteristically develops in hepatectomized rats and also occurs in patients in hepatic coma and is associated with improved survival in both. The aims of the present study were to measure both release and uptake of NE and release of DA in brain in warm (37°C) and cool (30–32°C) rats at 3–5 h after laparotomy or hepatectomy. Ventriculocisternal perfusions of the brain were performed on rats under basal conditions and during releases evoked by 40 m M K+ . Basal releases of NE and DA and evoked release of DA were greater in the warm hepatectomized rats than in all other groups. In some studies, 10−5 M amitriptyline was added to the perfusates to assess whether neuronal uptake was changed after hepatectomy. Uptake of released NE was equally robust in cool hepatectomized as in cool laparotomized rats but could not be measured in warm hepatectomized rats because of amitriptyline toxicity in these rats. Decreases in NE and increases in DA content were found in most areas of the brain after perfusion. Increased releases of NE and DA may contribute to the pathogenesis of hepatic encephalopathy. 相似文献
16.
J. F. Goodrum 《Journal of neurochemistry》1990,54(5):1709-1715
Abstract: The discovery of apolipoprotein E synthesis and secretion by injured peripheral nerve led to the hypothesis that endoneurial apolipoprotein E serves to salvage degenerating myelin cholesterol. This salvaged cholesterol could then be reutilized by Schwann cells during remyelination via uptake through low-density lipoprotein receptors. As a test of this hypothesis, we measured the rate of cholesterol synthesis in rat sciatic nerve endoneurium during development and at various times following a crush injury at 50 days of age. In control nerves [14 C]acetate incorporation into cholesterol and 3-hydroxy-3-methylglutaryl-CoA reductase activity were closely linked throughout development, indicating that reductase activity in nerve, as in other tissues, is a good indicator of cholesterol's synthetic rate. In the crushed nerves cholesterol synthesis fell to nearly zero during the first week after the crush. There was a partial recovery during the second to fourth weeks, but unlike that of other lipids, cholesterol synthesis remained well below control nerve values throughout most of the 15-week post-crush period examined. Thus, cholesterol synthesis is at very low levels during the myelination of regenerating axons. These results are consistent with a receptor-mediated down-regulation of cholesterol synthesis by lipoproteins, and would be expected if Schwann cells were utilizing an external source of cholesterol as postulated above. 相似文献
17.
The purpose of the present investigation was to map chemically the distribution of certain neurotransmitter systems in the neostriatum of rats aged 6, 16, and 26 months. This mapping was carried out by microdissection of discrete striatal regions coupled with radiometric assays for choline acetyltransferase (ChAT), glutamate decarboxylase (GAD), dopamine (DA), and norepinephrine (NA). In all age groups, ChAT, DA, and NA were highest in the rostral relative to the caudal neostriatum. Additionally, ChAT was higher in the lateral than in the medial region, whereas GAD was more homogeneously distributed within the striatum. ChAT activity was decreased significantly primarily in the caudal regions in rats aged 16 and 26 months. DA levels were decreased in the caudal striatum in rats aged 26 months. NA levels were found to be significantly decreased primarily in the rostral neostriatal regions of the oldest rats. GAD activity remained unchanged in all age groups. These regional changes in selected neurotransmitter systems may underlie specific motor and cognitive deficits that often occur during aging. 相似文献
18.
19.
Matthijs Verhage Wim E. J. M. Ghijsen Frans Boomsma Fernando H. Lopes da Silva 《Journal of neurochemistry》1992,59(3):881-887
The presence and release of endogenous catecholamines in rat and guinea pig hippocampal nerve terminals was studied by fluorimetric HPLC analysis. In isolated nerve terminals (synaptosomes) the levels and breakdown of endogenous catecholamines were determined and the release process was characterized with respect to its kinetics and Ca2+ and ATP dependence. Endogenous noradrenaline and dopamine, but not adrenaline, were detected in isolated hippocampal nerve terminals. For dopamine both the levels and the amounts released were more than 100-fold lower than those for noradrenaline. In suspension, released endogenous catecholamines were rapidly broken down. This could effectively be blocked by monoamine oxidase inhibitors, Ca(2+)-free conditions, and glutathione. The release of both noradrenaline and dopamine was highly Ca2+ and ATP dependent. Marked differences were observed in the kinetics of release between the two catecholamines. Noradrenaline showed an initial burst of release within 10 s after K+ depolarization. The release of noradrenaline was terminated after approximately 3 min of K+ depolarization. In contrast, dopamine release was more gradual, without an initial burst and without clear termination of release within 5 min. It is concluded that both catecholamines are present in nerve terminals in the rat hippocampus and that their release from (isolated) nerve terminals is exocytotic. The characteristics of noradrenaline release show several similarities with those of other classical transmitters, whereas dopamine release characteristics resemble those of neuropeptide release in the hippocampus but not those of dopamine release in other brain areas. It is hypothesized that in the hippocampus dopamine is released from large, dense-cored vesicles, probably colocalized with neuropeptides. 相似文献
20.
Peter Capella M. Behnam Ghasemzadeh Ralph N. Adams Donna J. Wiedemann R. Mark Wightman 《Journal of neurochemistry》1993,60(2):449-453
Abstract: As in the preceding study, electrical stimulation was used to effect release overflow of norepinephrine in the rat thalamus. Using a weak electrochemical pretreatment of a carbon fiber electrode, it was possible to "tune in" the electrochemical response signal for norepinephrine without metabolite interference. This reasonably selective signal was then used to study the degradation of norepinephrine release ability caused by prolonged stimulation. Further, the signals were modeled by the method used successfully for stimulated dopamine overflow, providing hitherto unavailable information on the temporal and spatial characteristics of norepinephrine release overflow. Pertinent comparisons between the release characteristics of the dopamine and norepinephrine systems show that the half-life for norepinephrine in the extracellular fluid space is ∼1 s in thalamus compared with 33 ms for dopamine in caudate. 相似文献