Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.1.7 (
acetylcholinesterase
)
28,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have established a primary neuronal cell culture technique from the postnatal (
P11
to P15) rat CNS to study the nerve growth factor (NGF) response to basal forebrain cholinergic neurons. The survival of septal cholinergic neurons in culture was monitored both by the determination of choline acetyltransferase activity and by counting
acetylcholinesterase
-positive cells. Cells obtained from postnatal septal regions were found to require a plentiful oxygen supply during the dissociation of the cells. NGF-mediated survival of the septal cholinergic neurons was similarly observed in the cultures by using different plating cell densities up to 12.5 X 10(5) cells/cm2. These results suggest that the promotion by NGF of cell survival in culture is independent of plating cell density.
...
PMID:Nerve-growth-factor-dependent and cell-density-independent survival of septal cholinergic neurons in culture from postnatal rats. 217 Aug 75
The development of
acetylcholinesterase
(
AChE
) activity within cortical neurons of the rat brain was investigated using a histochemical method. The fate of these neurons in later stages of development was studied in animals in which
AChE
within cortical axons (mostly cholinergic) had been depleted by lesions of the cholinergic neurons of the basal forebrain or by injections of diisopropyl fluorophosphate. We designated neurons with medium to high intensity of reaction product as AChEH and neurons with a low intensity of reaction product as AChEL. Four groups of AChEH cortical neurons were detected: (1) AChEH Cajal-Retzius cells were present in layer I at birth (P0) and decreased steadily in number until none could be detected at P17 or thereafter. (2) AChEH neurons within layer VI and underlying white matter were present at P0, peaked in number and staining intensity at P8-P9, showed a moderate decrease in number at
P11
-P13 and a further decrease into adulthood. (3) AChEH polymorphic intracortical neurons appeared at P3-P4 in deep cortical layers and by P9 were present in layers II-VI. They continued to increase in number through
P11
-P14 at which time they displayed the adult pattern and were found in all cortical areas. (4) A large population of AChEH pyramidal neurons appeared at P1-P4, peaked at P8-P10 and was no longer visible at P21. In the adult cerebral cortex, few pyramidal neurons displayed
AChE
activity and these were almost always of the AChEL type. These results indicate that the
AChE
within cortical neurons is developmentally regulated and that the content of this enzyme helps to differentiate cortical neurons into distinct populations. The transient expression of
AChE
activity within cortical neurons suggests a role for this enzyme in the development of the cerebral cortex.
...
PMID:Postnatal development of cortical acetylcholinesterase-rich neurons in the rat brain: permanent and transient patterns. 755 36
Using a histochemical method for the visualization of
cholinesterase
activity in neurons, we have observed developmentally transient expression of
acetylcholinesterase
(
AChE
) in cortical pyramidal neurons of the rat brain. Depending on the extent of the deposition of
AChE
reaction product, several types of cortical neurons could be visualized. We designated neurons with moderate-to-high staining intensity as AChEH and neurons with relatively lower staining intensity as AChEL. At birth (P0), very little
AChE
activity was found within cortical neurons. Between P1-P4, there was a gradual emergence of
AChE
-stained cortical neurons. At this stage, the majority of these neurons were of the AChEL type. At P5-P7 we observed an abrupt increase in
AChE
-stained cortical neurons. The number and the staining intensity of these neurons was at a peak at P8-P10. At this age range, the majority of these neurons were of the AChEH variety and displayed morphological characteristics of cortical pyramidal neurons. At
P11
-P15, there was an abrupt decrease in the number of AChEH neurons. After P15, the density and staining intensity of cortical
AChE
-positive (cholinergic) axons gradually increased. Nevertheless, AChEL pyramidal neurons were detected through these fibers up to P21. At P21, a dense plexus of
AChE
-positive axons was observed in all cortical areas while very little
AChE
reaction product was visible in pyramidal neurons, and this pattern continued into adult life. When the adult cortex was denervated from its
AChE
-positive axons by lesions of the nucleus basalis magnocellularis, many AChEL pyramidal neurons were uncovered.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Developmentally transient expression of acetylcholinesterase within cortical pyramidal neurons of the rat brain. 830 28
We tested the effects of the
acetylcholinesterase
inhibitor eserine (10 microM), an indicator of the activity of endogenous ACh, on the generation of epileptiform discharges during blockade of inhibitory GABA(A)-mediated potentials by bicuculline (10 microM), in the CA3 area of hippocampal slices from postnatal days 4-20 (P4-P20) immature and adult rats. Eserine provoked or significantly increased the frequency of spontaneous synchronous epileptiform discharges, in 6/22 (27%) P4-P10 slices, 34/35
P11
-P20 slices and 18/18 adult slices, an epileptogenic effect. In immature slices, spontaneous discharges showed a stable frequency throughout perfusion with eserine, while in 5/11 adult slices an initial fast frequency was followed by a slower steady-state one. The cholinergic agonist carbachol (CCh, 25 microM) provoked only transient or no spontaneous synchronous discharges in adult slices (n=8), thus suggesting that massive activation of cholinergic receptors may lead to suppression of epileptiform activity in adult brain. Stimulus-induced excitatory CA3 responses, were depressed by eserine in approximately half of 20 P4-P10, 45
P11
-P20 and 11 adult slices. The depression consisted of a decrease in the amplitude, duration, and number of population spikes of the field potentials by about 30%, a minor neuroprotective effect, which did not change with maturation. The different developmental profiles of the epileptogenic and neuroprotective effects of endogenous ACh suggest that they are mediated by different mechanisms. These experiments demonstrate that, endogenous ACh is sufficient to induce epileptogenesis during a decrease or failure of GABAergic inhibition, in both >/=P10 immature and in adult hippocampus. We therefore suggest that clinical or behavioral conditions which raise the concentration of endogenous ACh may lower the threshold to seizures.
...
PMID:Epileptiform activity generated by endogenous acetylcholine during blockade of GABAergic inhibition in immature and adult rat hippocampus. 1041 85
Unlike the development of
acetylcholinesterase
(
AChE
) activity, the postnatal development of the activity of the related enzyme butyrylcholinesterase (BuChE) in the rodent brain has not been investigated in a comprehensive manner. The purpose of the present study was to fill this gap. Development of histochemically visualized BuChE activity followed four distinct stages. Between birth and five postnatal days (P0-P5) BuChE staining of very low intensity was present in nearly all neurons in the forebrain and upper brainstem. Substantial BuChE activity was present in the endothelial cells of blood vessels and the cuboidal cells lining the ventricles. At P6-P10, BuChE neuronal staining of high to moderate intensity emerged in many areas, including certain thalamic nuclei (e.g. anterior group), a number of brainstem nuclei, and darkly stained neurons in the olfactory tubercle/piriform cortex. At
P11
-P17, the staining which emerged in earlier stages was darker and had expanded to include more neurons. A scattered population of BuChE-positive neurons of moderate to high intensity emerged in the neocortex and amygdala. Importantly, at P17, the very light staining present in all neurons since birth was no longer visible. At P18-P30, the number and staining intensity of cortical neurons displayed a gradual increase while the staining in certain thalamic nuclei was substantially decreased or completely disappeared (e.g. ventral lateral nucleus). A prominent feature of this stage was the emergence of BuChE activity in many fiber tracts. At P30, the adult pattern of staining was attained. The transient presence of BuChE activity of very low intensity in all neurons and of higher intensity in thalamic neurons supports the implied role for this enzyme in neuronal development.
...
PMID:Butyrylcholinesterase activity in the rat forebrain and upper brainstem: postnatal development and adult distribution. 1727 83
