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

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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 morphological innervation pattern of developing fetal and neonatal rabbit hearts was delineated histochemically by a cholinesterase/silver procedure and immunohistochemically with the monoclonal antibody HNK1, an antibody which recognizes some cells derived from neuroectoderm. Cholinesterase-containing nerves appeared distally on the outflow tract by gestational day 15 (G15). Isolated cells with cholinesterase-stained fine processes were present near the base of the pulmonary trunk. HNK1 antibody stained the same nerves and ganglia revealed by the cholinesterase reaction and other nerves in the rabbit heart. It was used to confirm that cells with fine neuron-like processes were present before nerve ingrowth. The G14 heart contained many HNK1 staining cells in the right atrium, outflow, and inflow tracts; cells with fine processes were few but increased at G16. By G17, a plexus of interweaving nerves and associated cells began to form at the base of the pulmonary trunk. Fine nerves encircled the base of the aorta, and others crossed the intercaval region dorsally. At G19, nerves 1) extended downward from a rich "bulbar" plexus along the front ventricular surface, 2) grew near the epicardial surface at the base of the heart along the atrial floor and ventricular roof, 3) traversed the vena cavae and intercaval region to enter the atrial roof, and 4) crossed the coronary sinus to reach the back ventricular walls. By G23, cholinesterase-staining nerves and ganglia in the atria and, epicardially, in the ventricles formed the general innervation pattern of the newborn and adult rabbit heart.
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PMID:Morphological innervation pattern of the developing rabbit heart. 171 72

Muscle spindles of 8-week old chicken tibialis anterior muscles were examined to determine if specific intrafusal fiber types were also characterized by differences in motor innervation. Incubation with a monoclonal antibody against myosin heavy chains permitted the identification of strongly reactive, moderately reactive and unreactive intrafusal fibers. The innervation of each fiber type was evaluated in silver-impregnated sections, and in sections incubated with a monoclonal antibody against acetylcholinesterase. There was no acetylcholinesterase activity at the midequator of any fiber. At the juxtaequator and at the pole strongly reactive fibers typically exhibited fewer axon contacts and less acetylcholinesterase activity than unreactive and moderately reactive fibers. Differences were also recognized at neuromuscular junctions in the size and shape of acetylcholinesterase-positive sites. At the juxtaequator and at the pole strongly reactive fibers and moderately reactive fibers displayed significantly more small, dot-like acetylcholinesterase sites than unreactive fibers. On the contrary, the greatest number of larger, stout sites was found on unreactive fibers and the least number on strongly reactive fibers. Moderately reactive fibers took an intermediate position. The results indicate that myosin heavy chain-based chicken intrafusal fiber types are also set apart by differences in innervation.
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PMID:Axon contacts and acetylcholinesterase activity on chicken intrafusal muscle fiber types identified by their myosin heavy chain composition. 174 80

The innervation pattern of skeletal muscles was studied in the normal and regenerating tail of Notophthalmus viridescens. Silver staining for nerve endings and histochemical localization of acetylcholinesterase (AChE) were used for light microscopy. In In normal musculature, AChE positive reactions were localized at the ends of the muscle fibers where they are anchored on connective tissue septa by myotendinous junctions. At this level, silver staining shows nerve terminals forming endplates. During regeneration, positive reactions for AChE appear de novo as dense plates localized at the ends of the newly formed myotubes. The mechanisms involved in the localization of AChE on this surface seem to operate before previous local contacts by nerve terminals. From the ultrastructural data and immunohistochemical results with anti-laminin antibody, these observations suggest that regenerating muscle fibers determine a region of post-synaptic specialization in close relation with the organization of myotendinous regions and basement membrane formation. Nerve-muscle contacts appear at these levels at stage IV (15-20 days after amputation) in the stump and in the rostral part of the regenerate (transition zone). These nerve terminals are provided by the disorganized peripheral nervous system of the injured segment. In the regenerate a similar pattern of AChE reaction can be seen in every myotube, differentiating according to a rostro-caudal gradient. Innervation at the ends of the muscle fibers is in spatiotemporal relation with the exists of the ventral roots from the regenerating nerve cord as the regenerate continues to grow in length.
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PMID:Early innervation of skeletal muscle during tail regeneration in urodele amphibians. 174 16

The incidence of motor nerve and terminal sprouting was quantitatively analyzed in normal unoperated muscles, in homologous muscles contralateral to muscles which have been partially denervated, in partially denervated muscles, and in sham-operated muscles. Muscles were studied by light microscopy after staining motor endplates by a combined silver-cholinesterase stain. In addition, the incidence of endplates containing terminal sprouts, the number of terminal branch points per endplate, and endplate, and endplate size were also assessed in the various groups examined. We observed that following section of the L4 spinal nerve, the incidence of sprouting (preterminal and intranodal) in the contralateral muscle exhibited a 2-fold increase over sham-operated controls. We also found a correlation between nerve terminal sprouting, terminal branch point number and endplate size. All of these parameters were significantly increased in the contralateral muscles as compared to the sham-operated control muscles. These findings suggest that normal muscles undergo sprouting which can be enhanced by contralateral partial denervation. The possible underlying mechanism may be the transneuronal induction of sprouting.
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PMID:Nerve sprouting and endplate growth induced in normal muscle by contralateral partial denervation of rat plantaris. 176 Jul 37

Sensory innervation of lingual musculature was studied in young adult Wistar rats using retrograde labeling by horseradish peroxidase (HRP) and combined silver impregnation and acetylcholinesterase (AchE) methods. Intra-lingual injection of HRP resulted in labeling of neuronal somata in the trigeminal, superior vagal, and second cervical spinal (C2) ganglia. When HRP was directly applied to the proximal stump of severed hypoglossal nerve, labeling occurred only in the cervical and superior vagal ganglia. Morphometric analysis revealed that the labeled neurons were of the small-sized category in all ganglia. However, in the trigeminal and C2 ganglia, labeling occurred also among the medium-sized neurons. Combined silver and AchE preparations from lingual muscles revealed the absence of typical muscle spindles. Instead, there were free and spiral nerve terminals in the interstitium, and epilemmal knob-like or bouton-like endings surrounding non-encapsulated muscle fibers. These terminals showed AchE -ve reaction in contrast to the motor ones. Few ganglionic cells were scattered along the hypoglossal nerve with uniform AchE +ve reaction in their perikarya. This indicates that medium-sized neurons in the trigeminal and C2 ganglia, and probably sensory neurons along the hypoglossal nerve mediate lingual muscle sensibility perceived by atypical sensory terminals.
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PMID:Identification of sensory neurons supplying receptors in lingual muscles of the rat: histochemical and retrograde labeling study with horseradish peroxidase. 180 33

A single subcutaneous injection of a sublethal dose of the irreversible organophosphate sarin (0.08 mg/kg) in rats induced a non-Wallerian-type axonal degeneration of the neuromuscular synapse in the slow twitch, soleus muscle. These alterations of the endplate region were more obvious in the soleus than in the fast extensor digitorum longus muscle and were slowly reversible, complete recovery requiring about 10 days. Silver-cholinesterase staining and electrophysiological techniques were used to define the spatiotemporal evolution of prejunctional abnormalities. The non-Wallerian-type axonal degeneration of the neuromuscular synapse was characterized by bead or balloon-like varicosities of the focal, distal, and terminal nerve fibers and a retraction of terminal axons. Axonal degeneration was accompanied by junctional and extrajunctional membrane depolarization and was followed by nerve sprouting at focal, distal, and terminal nerve fibers. Transients similar to miniature endplate potentials were recorded along the muscle fiber at distances of 800-2500 microns away from the parent endplate. New ectopic endings, originating from the same endplate, were discovered adjacent to the terminal axon and also distant from the parent endplate. Very elaborate terminal arborization and occasional multibranching arose from a progressive growth sprout. The new sprouting may have served to compensate for the loss of synaptic contact caused by sarin. Thus the present study demonstrates a direct cytotoxic effect of sarin and indicates that this organophosphate agent may be an important neurotoxicological tool to understand the mechanisms involved in nerve sprouting.
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PMID:Morphological and electrophysiological study of distal motor nerve fiber degeneration and sprouting after irreversible cholinesterase inhibition. 194 71

This systematic study describes the determination of approximately 150 pesticides (mainly insecticides and fungicides) on high-performance thin-layer chromatography (HPTLC) layers, using modern techniques for spotting and evaluation. Standardized mobile phases and reagents for visualization form the basis for the confirmation of gas-chromatographic results by HPTLC. The very high sensitivity of cholinesterase inhibition can be utilized only on plates coated with silica gel. Several other currently important pesticides can be separated on C-18 reversed phase layers and detected using silver nitrate-UV irradiation or chlorine-o-tolidine. Computer-assisted densitometric evaluation allows direct quantitative determination of the pesticides.
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PMID:[Identification and quantitative determination of currently important plant protectants by HPTLC]. 199 14

The conduction velocity and histological structure of motoneurons innervating normal and hypertrophied rat plantaris muscles were investigated. Hypertrophy was produced by ablation of synergist muscles. Single motor units were obtained by ventral root dissection and conduction velocities measured. The structure of neurons was investigated following retrograde labeling with horseradish peroxidase. A combined silver, gold and cholinesterase staining method was developed to study the motor endplate. In addition, the peripheral nerve was fixed, embedded in Araldite, and sectioned for determination of axonal size and myelin thickness. Conduction velocity of motor axons decreased following hypertrophy of the skeletal muscle (control CV = 75.8 +/- 8.9 m s-1, n = 94, hypertrophy CV = 69.0 +/- 12.3 m s-1, n = 84). However, no alteration in the size of motor axons or myelin thickness could account for this alteration in conduction velocity. Mean motoneuronal soma size decreased following muscle hypertrophy (soma diameter: control 36.1 +/- 4.6 microns, n = 283, hypertrophy 32.9 +/- 4.5 microns, n = 294). The complexity of the motor endplate increased following hypertrophy with an increased occurrence of nodal sprouts. In addition, the area of cholinesterase staining increased following hypertrophy (control 588.1 +/- 297.2 microns 2, n = 269, hypertrophy 857.7 +/- 357.0 microns 2, n = 269). This study found that both the morphological and physiological parameters of motoneurons innervating a hypertrophied muscle were shifted toward those of normal rat slow motor units.
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PMID:Functional and structural changes of rat plantaris motoneurons following compensatory hypertrophy of the muscle. 199 79

In a previous study, we demonstrated trophic effects of vitamin A and its active metabolite, retinoic acid (RA), on perinatal rat spinal cord neurons and astrocytes in vitro. We now report that RA increases the survival of cholinergic neurons without affecting that of GABAergic neurons. These results were supported by measured levels of acetylcholinesterase (AChE), choline acetyltransferase (ChAT), and glutamic acid decarboxylase (GAD) activities, key enzymes of acetylcholine and gamma-aminobutyric acid metabolism, respectively, which showed RA-induced increases in AChE and ChAT levels but no elevations of GAD activity. In contrast to these phenotype-specific effects, most neurons showed RA-induced increases in neuritic outgrowth, density, and silver impregnation. Taken together, these results demonstrate neurotransmitter-specific and generalized effects of RA on developing CNS neurons.
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PMID:Differential susceptibilities of spinal cord neurons to retinoic acid-induced survival and differentiation. 201 40

The myenteric plexus of the domestic fowl (Gallus domesticus) small intestine was studied by means of silver staining, glyoxylic acid-induced fluorescence, the modified Koelle-Friedenwald method for the detection of acetylcholinesterase, NADH-diaphorase techniques and the unlabelled antibody method involving the use of an antiserum raised against GABA conjugated by glutaraldehyde to bovine serum albumin. The majority of the perikarya were in the ganglia, with an average density of 3370 +/- 942 nerve cells/cm2. Cholinesterase-positive and a few GABA-immunoreactive nerve cell bodies were seen in the myenteric ganglia, while fluorescent ganglion cells were not observed. In addition to AChE and GABA-positive nerve fibres, a rich fluorescent network of varicose and nonvaricose nerve fibres was detected, pointing to the presence of an extrinsic aminergic system in the domestic fowl myenteric plexus. Electron microscopic observations on nerve cells, axon profiles and varicosites with various vesicle populations were in good agreement with the histochemical findings.
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PMID:Histochemical characterization of myenteric plexus in domestic fowl small intestine. 207 64


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