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)

The bisquaternary mono-oxime HI-6, and to a lesser extent HS-6, caused functional recovery of neuromuscular transmission in vivo and in vitro when given 60 min after soman, i.e. when the soman-cholinesterase (AChE) complex is said to be fully "aged". Atropinised rats, with the tracheas intubated, received 4 X LD50 soman i.v. and were kept alive by artificial respiration. 60 min later HI-6 was administered and after an additional 15 min the tracheal tube was removed. Nearly all animals survived for 24 h. After 6 X LD50 soman followed by HI-6, HI-6, respiratory failure was delayed for hours but almost all animals died within 24 h. Against equal doses of soman, HS-6 was less effective. In experiments with isolated rat phrenic nerve-diaphragm preparations, HI-6 given 60 min after soman produced functional recovery which could be abolished by a second dose of soman, suggesting that HI-6 had reactivated the AChE and that this enzyme was then reinhibited by the second dose of soman. HI-6 reactivates purified bovine erythrocyte AChE when added immediately after inhibition by soman, but does not reactivate tabun-inhibited AChE. Accordingly, no functional recovery of neuromuscular transmission was found in rat diaphragm when HI-6 was administered 60 min after tabun. Furthermore, functional recovery was not obtained with HI-6 after exposure diaphragms to S 27, which carries a hydroxyl group instead of an alkoxy group--i.e. it is "pre-aged"--and instantaneously forms an inhibitor--enzyme complex identical to the "age" soman--enzyme complex. These results exclude the possibility that the functional recovery was caused by a direct pharmacological effect of the oxime. The functional recovery of diaphragms treated with II-6 60 min after exposure to soman was not accompanied by a return of histochemically detectable AChE activity. The capacity of the isolated diaphragm to hydrolyze (3H)-acetylcholine, however, seemed to be reactivated to a very small (1--2%) extent by HI-6, 60 min after exposure to soman. It is concluded that soman-inhibited cholinesterase in intact rat tissue "ages" much more slowly than does soman-inhibited purified cholinesterase, so that even after 60 min enough "non-aged" inhibited AChE is still susceptible to reactivation to be lifesaving.
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PMID:Successful oxime therapy one hour after soman intoxication in the rat. 66 12

The functional recovery of the newly formed endplates in the muscle reinnervated by direct neurotization was studied grossly, electrophysiologically and histologically in the anterior tibialis muscle of rats. The proximal stump of the tibial nerve was severed at the ankle level and was embedded at the level of distal one fifth of the muscle where no endplates were detected just after denervation of the muscle. Histologically, the accumulations of acetylcholinesterase activity were detected 4 weeks after neurotization. Electrophysiological study using a multi-channel electrode revealed the two-directional propagation of action potentials 8 weeks after neurotization, and the propagation started from no other sites than the nerve-implantation. The muscle tension revealed 42% of the contralateral muscle 52 weeks after neurotization. These results concluded that the function of the newly formed endplates spread throughout the muscle and it was lasting.
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PMID:[An experimental study on direct nerve implantation into denervated muscle--the functional recovery and the site of implantation]. 146 Mar 77

Unilateral lesions of rat entorhinal cortex produce a transitory performance deficit on spatial learning tasks, such as reinforced alternation in a T-maze. Tetrahydroaminoacridine (THA), a cholinesterase inhibitor, was administered to determine its effects on behavioral recovery using a reinforced alternation task in a T-maze. Rate of recovery after unilateral entorhinal lesion was not affected by a low dose of THA (0.05 mg/kg), while a higher dose (5.0 mg/kg) impaired recovery. Behavioral recovery was subsequently evaluated in the same rats following lesions to the contralateral entorhinal cortex. Serial bilateral lesions of the entorhinal cortex are known to produce a prolonged performance deficit on the alternation task. The 0.05 mg/kg THA group exhibited an intermediate rate of recovery, between the undamaged control group and bilateral lesion-saline injected groups. The group receiving 5.0 mg/kg of THA after bilateral lesion did not differ from the bilateral lesion-saline group. The failure of THA to significantly improve functional recovery in rats with lesions of the entorhinal cortex indicates that the compound may have limited applicability in treating human neurodegenerative disorders such as Alzheimer's disease.
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PMID:Effects of tetrahydroaminoacridine (THA) on functional recovery after sequential lesion of the entorhinal cortex. 174 69

Advancing age affects the ability of motor neurons to regrow axons after the facial nerve is crushed. In rats, it requires 14 days after injury for 3-month-old animals to resume normal whisker activity, compared to at least 19 days in 15-month-old animals. The present study examines central enzymatic responses of facial motor neurons to axotomy. During the postoperative period from 1 day through 8 weeks, alternate frozen sections of brain stem are histochemically reacted to demonstrate activities of acetylcholinesterase (AChE) or cytochrome oxidase (COX) and the reactions are quantified using computerized image analyzing densitometry. AChE activity is evaluated separately in perikaryal cytoplasm and neuropil, while COX is assayed in the facial nucleus as a whole. Coincident with the initiation of axon outgrowth the activities of these enzymes decrease in the neurons. For AChE the decrease is greater in the older animals; for COX the decrease is equivalent in both age groups. With regard to the perikaryal AChE and the neuropil AChE, the recovery patterns are different in the two locations. In the perikarya AChE activity begins to recover after 4 days in both age groups; however, AChE activity in the neuropil remains decreased until after functional recovery of whisker activity, when it recovers rapidly in the 3-month-old animals, but more gradually in the 15-month-old animals. In both age groups, COX activity gradually decreases in response to axotomy. In the 3-month-old animals it recovers rapidly following return of whisker activity, while in the 15-month animals COX activity is maintained at the decreased level through 28 days post-crush, before it begins its gradual recovery. The study demonstrates that age differences are most apparent after the reestablishment of functional connections. This age-related deficiency may be related to deficiencies in retrogradely transported signals arising from the reinnervated target or in the older neuron's ability to respond to such signals.
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PMID:The effects of age on enzyme activities in the rat facial nucleus following axotomy: acetylcholinesterase and cytochrome oxidase. 216 14

Previous reports from this laboratory have indicated that fetal rat striatal grafts have the major types of neuronal and glial components known to be involved in Huntington's chorea. In this study a number of major afferent and efferent innervations seen in normal striatum were examined in the striatal grafts and were compared with embryonic striatal afferents. First, using immunocytochemistry and histochemistry, the host serotonergic (5-HT), dopaminergic (DA, stained with anti-tyrosine hydroxylase (TH) antiserum), and acetylcholinesterase (AChE) fibers exhibited vigorous growth into the grafts implanted in neostriatum, lateral ventricle, globus pallidus or substantia nigra within a period of 6 and 10 weeks. Individual characteristic terminal patterns formed in striatal grafts: 5-HT fibers were diffused; TH fibers became heavily packed, and AChE fibers were patchy. This peculiar patternization of 5-HT and TH growth into striatal graft appeared to be a recapitulation of the normal 5-HT and TH ingrowth into striatum in the embryonic stage. However, a significantly slow (6 week) onset of adult 5-HT and TH ingrowth into the fetal graft was noted, as compared with that of normal embryonic development (5-6 days from the appearance of 5-HT and TH neurons). With the anterograde-transport marker Phaseolus vulgaris agglutinin leuca method, host cortical neurons also projected to the graft, but in limited numbers. Finally, with the retrograde-transport marker (horseradish peroxidase method, the grafts implanted in neostriatum were found incapable of sending fibers to a major, distal target, substantia nigra. In a current evaluation of striatal transplants, it is shown that major input to the graft can be achieved over time, but output to the distal nigra seems an unrealistic expectation. These data suggest that: (1) the fetal brain tissue was found to be a strong stimulant for sprouting or regeneration of adult nerve fibers; (2) a number of functional recoveries reported on the tested behavior paradigm in this grafting model could be due to the survival of striatal graft and the establishment of input circuitries; further, (3) the data illustrate the necessity of seeking a bridge from the striatal transplant to the host nigra. If a proper functional recovery in Huntington's chorea requires complete striatonigral circuitry, then such a bridge is worthy of a major investigation.
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PMID:Connectivities of the striatal grafts in adult rat brain: a rich afference and scant striatonigral efference. 259 10

We correlated neuroanatomical developmental parameters with sequential ultrasonography scans to reveal the structural basis of functional recovery after early focal hypoxic lesions of the human frontal lobe in premature infants. We studied the transient fetal subplate zone in the premotor and prefrontal cortex in premature, newborn, infant, and young adult brains by acetylcholinesterase (AChE) histochemical, Golgi, and immunocytochemical methods. The structural in vivo rearrangements of the cerebral wall after perinatal lesions were studied on serial real-time sector scans (5-MHz transducer). The subplate zone contains "waiting" axons and randomly oriented fetal neurons, its developmental peak is between 22 and 34 weeks of gestation, and it is present in the frontal cortex of newborns and disappears after the sixth postnatal month, but individual subplate-like neurons remain until adulthood. Ultrasonography revealed remarkable structural rearrangements of the cerebral wall when the hypoxic lesion occurred during the developmental peak of the subplate zone: anechoic cavities ("cysts") develop rapidly (within 3 weeks) in premature brains, the rebuilding of these lesions continues after birth, and cavities disappear around the 11th month. We propose that the transient population of "waiting" axons and cells of the subplate zone participate in the structural and functional plasticity of the human cerebral cortex after perinatal brain damage.
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PMID:Structural basis of the developmental plasticity in the human cerebral cortex: the role of the transient subplate zone. 264 79

The partial lesion paradigm of the dorsal hippocampal afferents in the rat was used as a model to study the effect of GM1 ganglioside treatment on recovery of neurotransmitter markers of the cholinergic and serotoninergic activity in various hippocampal regions. It was found that the enhancement of recovery of acetylcholinesterase, choline acetyltransferase and serotonin uptake by GM1 treatment (30 mg/kg i.m., daily), as studied on the 6th and 21st postlesion day, was dependent on the degree of fiber degeneration. The results may be interpreted in terms of the relationship between the action of GM1 and that of neuronotrophic factors whose release also depends on the extent of the fiber degeneration. These data indicate that GM1 elicits the recovery of biochemical parameters, or fails to, depending on the specificity of the trauma. The result may explain why, after certain brain lesions, GM1 does not promote functional recovery.
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PMID:The effect of GM1 ganglioside on cholinergic and serotoninergic systems in the rat hippocampus following partial denervation is dependent on the degree of fiber degeneration. 373 Aug 33

Grafts of fetal septal tissue rich in cholinergic neurons were implanted as a dissociated cell suspension into the depth of the hippocampal formation in aged rats with severe impairments in spatial learning abilities. After 2 1/2 to 3 months, the rats with grafts, but not the controls, had improved their performance in a spatial learning test. Their improvement was due, at least in part, to an increased ability to use spatial cues in the task. In all animals the grafts had produced an extensive acetylcholinesterase-positive terminal network in the surrounding host hippocampal formation. Thus, the action of cholinergic neurons in the graft onto elements in the host hippocampal circuitry may be a necessary, but perhaps not sufficient, prerequisite for the observed functional recovery.
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PMID:Intrahippocampal septal grafts ameliorate learning impairments in aged rats. 653 49

The effect of ethanol on hippocampal axonal sprouting was studied with a histochemical technique for identifying acetylcholinesterase. Unilateral lesion of the entorhinal cortex in adult rats produced an increase in the density of acetylcholinesterase staining in the outer molecular layer and a concomitant increase in the width of the pale-staining commissural-associational zone of the dentate gyrus. Other rats were given ethanol (11.3 +/- 0.45 grams per kilogram) for 2 weeks before and 9 days after receiving the lesion. Ethanol abolished the expansion of the commissural-associated zone. The effect of ethanol on sprouting axons suggests that it may inhibit recovery of function after brain injury.
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PMID:Lesion-induced sprouting in the rat dentate gyrus is inhibited by repeated ethanol administration. 713 77

In a study of the capacity of neural grafts to promote functional recovery in rats with fimbria-fornix lesions, 5 groups of rats were studied behaviourally and with acetylcholinesterase (AChE) histochemistry: (1) sham-operated controls; (2) bilateral fimbria-fornix lesions; (3) bilateral lesions plus bilateral solid embryonic septal grafts to the lesion cavity; (4) bilateral lesions plus bilateral embryonic septal suspension injections into the hippocampus; and (5) bilateral lesions plus bilateral solid embryonic locus coeruleus grafts to the lesion cavity. Seven months were allowed for growth of the grafts and reinnervation of the host hippocampus prior to behavioural testing. The control rats were able to rapidly learn a rewarded alternation task, while the performance of animals with bilateral fimbria-fornix lesions alone remained at a chance level. Both types of septal grafts (rich in cholinergic neurones) but not the locus coeruleus grafts (rich in noradrenergic neurones) reversed the impairment. Behavioural recovery correlated significantly with AChE-positive fibre ingrowth from the grafts into the denervated host hippocampus. However, the septal grafts did not ameliorate the lesion-induced disturbances in spontaneous activity or spontaneous alternation. Thus, the observed behavioural recovery appears specific to the conditioned alternation task and dependent upon cholinergic reinnervation of the hippocampus.
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PMID:Septal transplants restore maze learning in rats with fornix-fimbria lesions. 713 30


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