Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.7 (acetylcholinesterase)
 28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tectal tissue from E15 or E16 Wistar rat embryos was dissociated and reaggregated (DR) prior to transplantation on to the midbrain of newborn host rats. We wished to determine how complete disruption of the donor tissue (i) affected the subsequent morphological development of the grafts in the host brain, and (ii) whether this procedure affected the selectivity with which host retinal axons innervated target regions in the tectal transplants. Forty-three to 135 days after transplantation, host rats received binocular injections of wheatgerm agglutinin-conjugated horseradish peroxidase. After perfusion, frozen sections of the grafts and underlying host brainstem were cut and reacted with tetramethylbenzidine to identify retinal projections, or stained for either acetylcholinesterase (AChE), Nissl or neurofibrils. All host brains contained identifiable DR grafts. Each brain contained at least one large transplant and numerous smaller pieces of graft tissue. The fragmentation of DR grafts was greater than that seen in direct, undissociated tectal transplants; however the morphology of individual DR grafts was markedly similar to direct grafts. Of particular interest was the presence in DR grafts of localized, often oval or circular regions, that possessed high AChE activity and contained mostly small (5 to 10 microns) close-packed neurons. AChE-dense patches were found both superficially and deep within DR grafts and appeared identical to those seen in direct transplants. These regions are thought to be homologous to the superficial, retinorecipient layers of normal superior colliculus (SC) and it is likely that the formation of these localized areas resulted from the selective association of presumptive SGS neurons within the reaggregating neuropil. In almost all cases, host retinal input to DR grafts was confined to the localized AChE-dense patches, suggesting that despite the dissociation procedure, specific retinal innervation of regions containing at least some of the appropriate target cells was maintained in DR tectal grafts.
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PMID:The morphology and connectivity of dissociated and reaggregated fetal tectal tissue transplanted to the midbrain of newborn rats. 164 21

Fetal cortical tissue was injected into injured adult rat brains following concussive fluid percussion (FP) brain injury. Rats subjected to moderate FP injury received E16 cortex transplant injections into lesioned motor cortex 2 days, 1 week, 2 weeks, and 4 weeks post injury. Histological assessment of transplant survival and integration was based upon Nissl staining, glial fibrillary acidic protein (GFAP) immunocytochemistry, and staining for acetylcholinesterase. In addition to histological analysis, the ability of the transplants to attenuate neurological motor deficits associated with concussive FP brain injury was also tested. Three subgroups of rats receiving transplant 1 week, 2 weeks, and 4 weeks post injury were chosen for evaluation of neurological motor function. Fetal cortical tissue injected into the injury site 4 weeks post injury failed to incorporate with injured host brain, did not affect glial scar formation, and exhibited extensive GFAP immunoreactivity. No improvement in neurological motor function was observed in animals receiving transplants 4 weeks post injury. Conversely, transplants injected 2 days, 1 week, or 2 weeks post injury survived, incorporated with host brain, exhibited little GFAP immunoreactivity, and successfully attenuated glial scarring. However, no significant improvement in motor function was observed at the one week or two week time points. The inability of the transplants to attenuate motor function may indicate inappropriate host/transplant interaction. Our results demonstrate that there exists a temporal window in which fetal cortical transplants can attenuate glial scarring as well as be successfully incorporated into host brains following FP injury.
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PMID:Fetal cortical transplants in adult rats subjected to experimental brain injury. 178 53

Responses of rat embryonic septal cells to reconstituted basement membrane, laminin, and laminin A chain-derived synthetic peptides were studied in culture. Dissociated fetal E16/17 septal cells were grown for three days on differently coated plastic substrata. Reconstituted basement membrane (Matrigel), laminin, and a 19-amino acid synthetic peptide CSRARKQAASIKVAVSADR-NH2 (PA22-2) from the laminin A chain sequence mediated cell-substratum adhesion and promoted neurite outgrowth. In contrast, cells did not attach to or form processes on uncoated plastic or on plastic substrata coated with synthetic, laminin-derived control peptides. Polyethylenimine (PEI) supported the adhesion and survival of fetal septal cells; however, when laminin was added to the medium during cell plating or 18 hr afterward, a dose-dependent increase was observed in neurite outgrowth of cells attached to this substratum. Cells grown for 6 days on PEI in the presence of laminin showed a determined increase in the number of cholinergic neurons as marked by acetylcholinesterase staining. These data suggest that the subpopulation of cholinergic septal neurons present in the septal cells studied here were also responding to laminin. The results of this in vitro study suggest potential uses for basement membrane, laminin, or synthetic peptides, such as PA22-2, in fetal septal grafts to enhance regeneration in the damaged septo-hippocampal system.
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PMID:Fetal rat septal cells adhere to and extend processes on basement membrane, laminin, and a synthetic peptide from the laminin A chain sequence. 187 Jan 55

A descriptive enzyme histochemical study on the expression of acetylcholinesterase (AChE) in the developing rat spinal cord is presented. Between E11-E16, AChE was found to be associated with premitotic neurons of the ventral matrix layer, which indicated an involvement in the proliferation of the spinal cord motor neurons. From E12 on, AChE was abundantly present in the motor neurons of the ventral mantle layer, and in their fibres. This early expression suggested a function of AChE in the development of the motor neurons, rather than an active role in cholinergic transmission. The intermediolateral, the intermediomedial cell column and the region between these cell groups, were found to be positive for AChE. Cells of the adult intermediolateral cell column also expressed AChE. AChE, therefore, apparently plays a role in the development as well as in the functioning of the rat autonomic system. In the lateral funiculus, cells of the lateral spinal nucleus expressed AChE. After P8, AChE was expressed in the substantia gelatinosa. The enzyme may be associated with the fibre terminals of the primary afferents. AChE was found to be temporary expressed in the developing dorsal funiculus, which suggested a function of the enzyme in fibre growth and path-finding. At E12, AChE was located in the ventral aspect of the dorsal root ganglion. Later on, AChE positive cells were found throughout the ganglion.
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PMID:Acetylcholinesterase in the developing rat spinal cord: an enzyme histochemical study. 224 42

Eosin derivatives that bind primarily to lipid or protein sites in erythrocyte membranes were studied in solution and as sensitizers of erythrocyte membranes. In 50% ethanol-water mixtures eosin maleimide (EYMA) and 5-N-hexadecanoyl amino eosin (E16) had nearly identical absorption spectra. Higher ethanol concentrations did not change peak absorbances. In the presence of neutral detergent both sensitizers had equivalent absorbance at all ethanol concentrations. In water, EYMA was more effective than E16 at bleaching RNO, probably because of E16 aggregation into micelles, while in ethanol-water mixtures E16 was slightly more effective at bleaching DPBF, indicating equivalent singlet oxygen generation when the sensitizers are in monomeric form. In water with neutral detergent, azide in the 20 microM range inhibited the majority of RNO bleaching with both sensitizers; in 50% ethanol-water mixtures azide at 1 mM showed a 50% inhibition of DPBF bleaching with both sensitizers. Iodide in the 30 mM range reduced DPBF bleaching by 50% in 50% ethanol-water mixtures. When matched for amount loaded in erythrocyte membranes these sensitizers were about equally effective at sensitizing induction of cation permeability, assayed as rate of delayed photohemolysis, while E16 was slightly more effective at sensitizing loss of cholinesterase (AchE) activity. The relation of lysis rate to load was somewhat steeper for E16 than EYMA. For both sensitizers lysis rate increased at about the 1.5 power of light dose. Deoxygenation of the reaction media with argon totally blocked detectable photomodification. Ghost membranes made from sensitizer-treated cells were effective generators of singlet oxygen, assayed by RNO bleaching. However, when mixtures of EYMA-treated and untreated cells were illuminated together, only the EYMA-treated cells showed evidence of photomodification. Azide at 5 mM slowed the initial rate of AchE loss by about 75% with E16 and EYMA. Azide partially slowed photohemolysis. Azide decreased RNO bleaching by sensitizer-treated ghosts as it did in water with detergent micelles. A deuterium oxide solvent increased photohemolysis rate with E16 by 41%, but did not increase photohemolysis rate with EYMA. Deuterium oxide had a positive, but statistically insignificant effect on loss of AchE with both sensitizers. Deuterium oxide following illumination slowed lysis sensitized by both sensitizers more than 50%. Iodide exerted a modest inhibition of photohemolysis and loss of AchE sensitized by E16, but had virtually no influence on sensitization by EYMA. The results in solution indicate that EYMA and E16 have nearly identical photochemical properties when in monome
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PMID:Photooxidation of cell membranes using eosin derivatives that locate in lipid or protein to study the role of diffusible intermediates. 247 36

Immunocytochemically labeled cells containing the enzyme aromatic L-amino acid decarboxylase were localized in the brain of rat embryos at gestational age E15-E19. Cell groups that contained aromatic L-amino acid decarboxylase but lacked either the enzyme tyrosine hydroxylase or the indolamine serotonin were referred to as "D" groups. Anatomical landmarks, cytoarchitectonic structure and histochemical staining for acetylcholinesterase were used to delineate the position of "D" groups. In the E15 embryo three "D" groups existed. The first to appear, named D1, was located in the spinal cord and had been demonstrated before. A large "D" cell cluster was found in the walls of the central forebrain deep to the hypothalamic sulcus. This group distributed dorsally in the ventral dorsal thalamic region and ventrally in the dorsal hypothalamus. The rostral-most "D" group, D14, occurred in the ventral telencephalon just medial to fibers of the nigrostriatal projection. D14 was the smallest of the early groups. In E16 and E17 embryos dorsal di- and mesencephalic "D" groups were first detected. During the course of ontogeny a considerable increase of immunoreactive cells occurred and segregation of the large central forebrain cluster into several rostrally and laterally distributed "D" groups took place. Some "D" groups that occur in the adult brain were not present in the E19 embryo. This study provides a first report of the localization of several unique cell groups in the brain of rat embryos and their appearance at different stages of gestation. It also gives further support to the notion that variations of aromatic L-amino acid decarboxylase staining intensities may be characteristic of different monoamine neurons.
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PMID:Aromatic L-amino acid decarboxylase in the rat brain: immunocytochemical localization during prenatal development. 373 56

Intraocular grafts of rat hippocampal tissue, grafted either directly from the immature donor brains (fresh) or after storage in liquid nitrogen at -196 degrees C (freeze-stored), were compared with regard to survivability and histological and connective organization. For direct grafting, pieces of hippocampal tissue from rat embryos (embryonic day 19, E21) and newborn rats (PO) were placed in the anterior eye chamber of adult rats immediately after dissection. For grafting after deep-freeze storage, pieces of hippocampal tissue were taken from rat embryos (E16-E21) and newborn rats (PO), frozen at a cooling rate of 1 degrees C/min in CO2 or N2 vapours after addition of the cryoprotective agent dimethylsolfoxide (DMSO), and stored in liquid nitrogen for 1 to 33 days before thawing and intraocular grafting. From 20 to 68 days after grafting, the recipient rats were sacrificed, their eyes sectioned, and the sections stained with thionine for cell bodies, Timm's sulphide silver method for hippocampal fiber systems and terminal fields, and acetylcholinesterase (AChE) for cholinergic fibers and AChE-positive neurons. When examining the 101 grafted eyes (34 grafted with fresh and 67 with freeze-stored tissue) a significantly lower survival rate of the freeze-stored tissue was found (28 vs. 88%). The survivability of the freeze-stored tissue was age-dependent with no survival at donor ages E16 and PO, while tissue from E18-E21 had a 50% survival rate. The grafts of the freeze-stored tissue were also smaller and showed an increased tendency for fragmentation. When evaluating the structure of the grafts, the deep-freeze storage was found primarily to have been harmful to the dentate granule cells and their precursors. The organization of intrinsic fiber connections followed the pattern known from lesion and intracerebral transplant studies. While demonstrating that immature brain tissue can survive deep-freeze storage and subsequent intraocular grafting, the study also indicates that different schemes may have to be used to get optimal survival of different neuronal populations.
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PMID:Intraocular grafts of fresh and freeze-stored rat hippocampal tissue: a comparison of survivability and histological and connective organization. 647 Feb 22

We studied the expression of acetylcholinesterase (AChE) in the nervous system (cerebellum, optic lobes and neuroretina) of the quail at different stages of development, from embryonic day 10 (E10) to the adult. Analyzing AChE mRNAs and AChE molecular forms, we observed variations in the following: (a) production of multiple mRNA species (4.5 kb, 5.3 kb, and 6 kb); (b) translation and/or stability of the AChE protein; (c) production of active and inactive AChE molecules; (d) production of amphiphilic and nonamphiphilic AChE forms; and (e) proportions of tetrameric G4, dimeric G2, and monomeric G1 forms. The large transcripts present distinct temporal patterns and disappear in the adult, which possesses only the 4.5-kb mRNA; these changes are unlikely to be related to those observed for the AChE protein, because all transcripts seem to encode the same catalytic subunit (type T). In addition, the levels of mRNA and AChE are not correlated in the three regions, especially at the adult stage. The proportion of inactive AChE was found to be markedly higher at the hatching period (E16) than at earlier stages (E10 and E13) or in the adult. The G4 form is predominant already at E10, and in the adult its proportion reaches 80% of the activity in the cerebellum and optic lobes, and 65-70% in the neuroretina. This form is largely nonamphiphilic in embryonic tissues, but it becomes progressively more amphiphilic with development. Thus, the different processing and maturation steps appear to be regulated in an independent manner and potentially correspond to physiologically adaptative mechanisms.
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PMID:Evolution of acetylcholinesterase transcripts and molecular forms during development in the central nervous system of the quail. 818 24

The first sign of developing intrafusal fibers in chicken leg muscles appeared on embryonic day (E) 13 when sensory axons contacted undifferentiated myotubes. In sections incubated with monoclonal antibodies against myosin heavy chains (MHC) diverse immunostaining was observed within the developing intrafusal fiber bundle. Large primary intrafusal myotubes immunostained moderately to strongly for embryonic and neonatal MHC, but they were unreactive or reacted only weakly with antibodies against slow MHC. Smaller, secondary intrafusal myotubes reacted only weakly to moderately for embryonic and neonatal MHC, but 1-2 days after their formation they reacted strongly for slow and slow-tonic MHC. In contrast to mammals, slow-tonic MHC was also observed in extrafusal fibers. Intrafusal fibers derived from primary myotubes acquired fast MHC and retained at least a moderate level of embryonic MHC. On the other hand, intrafusal fibers developing from secondary myotubes lost the embryonic and neonatal isoforms prior to hatching and became slow. Based on relative amounts of embryonic, neonatal and slow MHC future fast and slow intrafusal fibers could be first identified at E14. At the polar regions of intrafusal fibers positions of nerve endings and acetylcholinesterase activity were seen to match as early as E16. Approximately equal numbers of slow and fast intrafusal fibers formed prenatally; however, in postnatal muscle spindles fast fibers were usually in the majority, suggesting that some fibers transformed from slow to fast.
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PMID:Development of chicken intrafusal muscle fibers. 826 84

The effects of the stage of donor embryos on the survival of grafts from different neuronal cell types have been well documented. Indeed, this parameter has been shown to be highly important in the survival and function of transplants of various tissues of the CNS. However this question has not been addressed in grafts of embryonic striatal tissue transplanted into animal models of Huntington's disease. In this study, rats which had received a unilateral ibotenic acid lesion in the dorsal striatum received grafts from a standard dissection of embryonic striatal primordium taken from donors of embryonic stage either E14, E16, E17 or E19 days. Three months after transplantation six rats from each group were killed for analysis of graft survival and morphology. The remaining animals in each group were killed between 10 and 14 months after grafting. Graft morphology was detected using a range of markers including: acetylcholinesterase and Cresyl Violet, the 32,000 mol. wt dopamine- and cyclic AMP-regulated phosphoprotein (DARPP-32), tyrosine hydroxylase and striatally-enriched phosphatase. All the grafts from different donor stages survived well at both time-points and Cresyl Violet staining indicated neuronal cell types spread throughout the grafts. The transplants were seen to have a characteristic "patchy" appearance with areas of dense AChE activity and DARPP-32 immunopositivity interspersed with areas of much lighter expression. These areas also co-localized consistently with striatally-enriched phosphatase and tyrosine hydroxylase expression, indicating that they comprised the striatal-like compartment of the graft (the so called P zones, containing cells of the mature striatum), and receiving specific afferent input from the host dopaminergic system. There was no significant difference in total graft volume, when comparing individual groups at both time-points from grafting. However, when comparing the volume of the P zones, the striatal primordium from the youngest donor stages (E14 and E16) produced grafts with a significantly higher proportion of striatal-like tissue. Therefore, in order to increase the proportion of striatal tissue within these grafts, tissue from younger embryonic donors should be used. This has important implications in the application of this model towards clinical trials in Huntington's disease.
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PMID:The effects of donor stage on the survival and function of embryonic striatal grafts in the adult rat brain. I. Morphological characteristics. 921 34


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