EC:3.1.1.8 - FACTA Search

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Query: EC:3.1.1.8 (cholinesterase)
12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In peripheral nerves of mouse embryos Schwann cells exhibit a high activity of unspecific cholinesterase. At first (day 12 of embryonic development) this enzyme occurs in the nuclear envelope and in the granular endoplasmic reticulum. Thus, it is possible to differentiate between Schwann cells and fibroblasts which lack cholinesterase. Later on (day 16) the cholinesterase has shifted to the cell membrane of the Schwann cells. However, only that part of the plasmalemma which encircles single axons and the mesaxons exhibits an irregular deposition of the reaction end product. In newborns the first loops of the just formed myelin sheath are still stained. With maturation of the myelin sheath the enzyme activity disappears. The functional role of cholinesterase is unclear. Possible roles are discussed. The expression of cholinesterase in Schwann cells depends on the integrity of the axons. After a few hours, the cultivation of amputated limbs results in a reduction of the enzyme activity. After 1 day in culture cholinesterase disappears totally.
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PMID:Expression of cholinesterase in the Schwann cells of peripheral nerves during development. 186 52

Acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) activity was localized by electron microscopic enzyme cytochemistry in cortex from Alzheimer brains and brains from non-demented cases. In the tangle-rich medial temporal cortex of the Alzheimer brain, most of the neuronal AChE was associated with neurofibrillary tangles. These structures also contained BChE activity. In normal neurons AChE activity was found in the rough endoplasmic reticulum, nuclear envelope and Golgi apparatus. Little BChE activity was noted in normal cortex. In neuritic plaques, AChE and BChE activity was associated mostly with the amyloid, but also with the neuritic component.
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PMID:Electron microscopic localization of cholinesterase activity in Alzheimer brain tissue. 205 12

Rat liver cholinesterases were found to share properties and characteristics with those expressed in cholinergic tissues. The distribution and presence of different molecular forms of cholinesterases in different subcellular organelles of rat liver were studied. The rough and smooth endoplasmic reticulum and Golgi apparatus were enriched in the G4 molecular form of acetylcholinesterase (AChE) (relative to the G2 molecular form), while the inverse was found in the plasma membrane. The interaction of these molecular forms of AChE with the Golgi membrane was studied in detail. Approximately one-half of the G4 form was free within the lumen while the remainder was an intrinsic membrane protein; all the G2 molecular form was anchored to the membrane via phosphatidylinositol. Only the G1 and G2 molecular forms of butyrylcholinesterase (BuChE) were found in the above subcellular organelles; both molecular forms were soluble within the lumen of Golgi vesicles. These results indicate that rat liver expresses several molecular forms of AChE which have multiple interactions with membranes and that liver is unlikely to be the source of the G4 form of BuChE present in high concentration in the plasma.
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PMID:Differential association and distribution of acetyl- and butyrylcholinesterases within rat liver subcellular organelles. 215 20

The results presented here demonstrate non-specific cholinesterase (nChE) activity in the developing peripheral nerves of chick embryos at stages 25-26 according to Hamburger and Hamilton (1951, J. Morphol. 88, 49-92). Under the light microscope the use of simultaneous staining for nChE activity and silver proteinate impregnation revealed the axons to be surrounded by cells exhibiting nChE activity in the main nerve trunks and in the growing tips of nerves. Nerve branches arising from the main nerve trunks contained cells with positive reaction for nChE activity, too. Electron-dense particles of the reaction product indicating nChE activity were found in the rough endoplasmic reticulum and in the perinuclear envelope of cells in close contact with growing nerve fibers and their growth cones. The same distribution of nChE activity was found in cells which were located near to nerve fasciculi but without direct contact with axons. Surprisingly, the cells in close contact with axons and their growth cones exhibited the end product of nChE activity in the outer part of their plasma membrane. The cells enveloping axons within the nerve trunks were apparently Schwann cells, while those around the growth cones at nerve tips could be identified as Schwann cells and/or mesenchymal cells of the hindlimb. The nChE reaction product was also detected in the axolemma of nerve fibers and their growth cones. The distribution of nChE activity in the developing peripheral nerves of chick embryos suggests that these molecules may influence the process of axonal elongation and locomotion. Several possible mechanisms of nChE action on growing axons can be presumed: (i) intracellular Ca2+ level regulation; (ii) providing an adhesive substrate; and (iii) butyrate production affecting the cell metabolism and the distribution of neurotubules and neurofilaments. It is also assumed that nChE molecules are involved in the interactions of nerve fibers with Schwann cells and/or mesenchymal cells as well as in interneuronal interactions.
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PMID:Non-specific cholinesterase activity of the developing peripheral nerves and its possible function in cells in intimate contact with growing axons of chick embryo. 228 18

A subacute toxicity study of propiverine hydrochloride (P-4), a new anti-pollakiuria agent, was carried out using male and female Wistar rats. P-4 was orally administered to rats at dose levels of 2, 10, 50 and 150 mg/kg/day for 13 weeks, followed by 5 weeks recovery period. The results obtained are as follows: 1. In the general conditions, transient salivation was observed immediately after administration and blotted fur at lower abdomen was noted in rats given 50 mg/kg/day or more. There were no deaths related to P-4. 2. Body weight gain was depressed in males given 50 mg/kg/day or more and females given 150 mg/kg/day. No significant changes in food consumption were observed. Water consumption increased in the groups of 50 mg/kg/day or more. 3. Urinalysis revealed an increase of urine volume, decreases of osmotic pressure, protein and urobilinogen, and a slight increase in excretion of electrolyte in rats given 50 mg/kg/day or more. 4. Hematological examinations revealed slight changes such as an increase in erythrocyte count and a shortening of APTT in rats given 150 mg/kg/day. 5. Serum biochemical examinations showed a decrease in triglyceride and increases in gamma-GTP and AlP activities, and urea nitrogen in males given 50 mg/kg/day or more and females given 150 mg/kg/day. Additionally, decreases in total and free cholesterol, and phospholipid for males and an increase of total cholesterol and a decrease of cholinesterase activity for females were detected. 6. At autopsy, atrophy of thymus and spleen was observed in rats given 50 mg/kg/day or more, but without histopathological correlation. Histopathological examinations revealed hypertrophy and fatty degeneration of hepatocytes, which were accompanied with increases of absolute and/or relative liver weight, in males given 50 mg/kg/day or more and females given 150 mg/kg/day. Electron-microscopy showed proliferation of smooth endoplasmic reticulum in the same groups. In the kidney, eosinophilic and intranuclear inclusions in the tubular epithelium were detected, in which cytoplasm there were no toxic injuries, in males given 10 mg/kg/day or more and females given 50 mg/kg/day or more. 7. After 5 weeks recovery period, above-mentioned changes were generally disappeared, suggesting that these were reversible. 8. The non-effective dose levels and the toxic dose levels of P-4 were estimated to be 2 mg/kg/day for males and 10 mg/kg/day for females, and 50 mg/kg/day for males and 150 mg/kg/day for females, respectively.
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PMID:[Thirteen-week oral toxicity study of propiverine hydrochloride in rats]. 260 52

Subcellular distribution and some extraction properties of acetylcholinesterase (AchE) (EC 3.1.1.7) and nonspecific cholinesterase (ChE) (EC 3.1.1.8) were studied in rat liver employing subcellular fractionation techniques. All purified subcellular fractions were enriched in total cholinesterase activity over the homogenate. Plasma membrane and Golgi fractions showed a significant enrichment in AchE activity, while ChE activity was enriched in both rough and smooth endoplasmic reticulum. Subcellular fractions were subjected to conditions that selectively release proteins having varying degrees of association to membranes. High-pH treatment (known to release peripheral and soluble proteins) extracted ChE activity, but more than 90% of AchE activity remained associated to the pellet. Solubility properties and molecular forms of AchE and ChE in this tissue were studied by extraction in high-salt medium with and without Triton X-100, followed by velocity sedimentation centrifugation. Most of AchE activity (88%) (41% G4 and 59% G2 + G1) was detergent soluble; 42% of ChE activity (detected only as G2 + G1) was high-salt soluble, whereas remaining ChE activity was detergent soluble. These results indicate not only a different subcellular location for both enzymes, but also point to a differential association to membranes. AchE behaves as an integral membrane protein and ChE behaves as a peripheral or a luminal soluble protein.
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PMID:Acetylcholinesterase and nonspecific cholinesterase activities in rat liver: subcellular localization, molecular forms, and some extraction properties. 261 91

A daily dose of 3 x 10(6) or 6 x 10(6) units of alpha-interferon was given during two 4- to 6-month periods to a 65-yr-old male patient with hairy cell leukemia, reducing splenomegaly and decreasing the number of hairy cells. Liver biopsy specimens taken during treatment revealed predominantly decreased hairy cell infiltration in the dilated sinusoids and enlarged or vacuolar nuclei of hepatocytes, compared with those in the liver before treatment. The ultrastructure of hepatocytes in specimens taken during treatment showed cytoplasmic vacuoles, weakly stained glycogen particles, and conspicuously decreased endoplasmic reticulum. Liver tests revealed decreased serum cholinesterase and total cholesterol levels in the early stage of treatment, low levels of total protein and albumin during treatment, and a very low value in the [13C]aminopyrine breath test. No clinical reports have been made on the decreased microsomal function during treatment with interferon. alpha-Interferon damaged the endoplasmic reticulum of hepatocytes, although it was effective for the reduction of hairy cells in the liver of hairy cell leukemia.
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PMID:The effect of alpha-interferon on the liver in a patient with hairy cell leukemia: light and electron microscopic studies. 275 86

An acetylcholinesterase (AChE) activity and a cholinesterase (ChE) activity were localized in mammalian kidneys, using a modified histochemical method of Koelle. The animals studied were mouse, hamster, cat, rat, and guinea pig. The kidneys were excised after in situ perfusion and fixation to eliminate AChE and ChE activities of blood. We carried out a relatively long incubation (up to 4 h) to detect weak AChE and ChE activities in the tissue. The differences in enzymatic activities in the kidneys from these 5 animals were important. The AChE activity was localized in the glomerulus (mouse, hamster, cat, and rat) and in the tubule (mouse, hamster, and rat). The ChE activity was also localized in the glomerulus (mouse and rat) and in the tubule (mouse and cat). An important nonspecific esterase activity was observed in the tubules of rat, guinea pig, and cat. In the thin segment of the loop of Henle, except of cat kidney, no esterase activity at all was observed. Electron microscopy revealed that, in the mouse kidney, both AChE and ChE activities were localized in the endoplasmic reticulum of glomerular endothelial cells and mesangial cells. (An AChE activity was localized mainly in mesangial cells, while ChE activity was localized mainly in endothelial cells). AChE and ChE activities were also localized in the endoplasmic reticulum of tubule cells.
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PMID:A histochemical localization of acetylcholinesterase and cholinesterase activities in mammalian kidneys. 309 Aug 31

The appearance and distribution of acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) in 12 human thyroid cancers and three normal thyroids were examined by electron microscopic study with indirect thiocholine method. The demonstration of AChE and BuChE activities in only two of nine cases of follicular and papillary carcinoma examined and none of the three cases of medullary carcinoma shows that the cholinesterases are not specific enzymes for the thyroid tumors. In normal thyroid tissue samples examined, no activities of AChE and BuChE were detected. On ultrastructural level AChE reaction product was revealed in the perinuclear space, in the endoplasmic reticulum, and in the Golgi complex of some but not in all cells in less-differentiated regions of the tumors. In contrast to the distribution of AChE, no staining for BuChE was noted in the Golgi elements. Ultrastructural localization of AChE activity in the thyroid cancer cells corresponds exactly to the current understanding of glycoproteins synthesis and processing in normal cells. The authors postulate that the copy of AChE gene suppressed in normal thyroid epithelium cells may be expressed in some follicular thyroid carcinoma cells. Their hypothesis is logical on the basis of recent finding of a significant homology between AChE and thyroglobulin.
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PMID:Acetylcholinesterase and butyrylcholinesterase activities in human thyroid cancer cells. 333 19

Fine structural changes in neurons of the dorsal hippocampus, caudate nucleus, supraoptic nucleus (SON), and ventral horn of the spinal cord of adult male or spayed female cats were studied after single and multiple doses (dose range 1.0-20.0 micrograms/kg sc) of the organophosphonate, pinacolyl methylphosphonofluoridate (soman). Increases in amounts of rough endoplasmic reticulum (rER) and polyribosomes, proliferation of Golgi complexes, as well as indentations of nuclear membranes occur after single and multiple exposures. The degree of change is dependent on dose, duration of exposure, and time of survival after exposure. The cell organelles affected are essential for protein synthesis and changes in their quantities are morphological indicators for changes in protein synthesis. The data presented in this study suggest an initial increase in protein synthesis after soman exposure, followed by early signs of degeneration. Soman (10 micrograms/kg iv) inhibition of cholinesterases of whole blood, spinal cord, and caudate nucleus of control and cats from which electrophysiological recordings of Renshaw cell field potentials were taken show significant differences. Moreover, while blood values are unmeasurable, spinal cord and caudate nucleus values are 42.21 and 53.6% those of controls at 30 min after injection and 63.41 and 50.75% those of controls after 240 min, respectively. No differences are noted between Renshaw cell field potentials after treatment and controls. Similarly, no changes in gross behavior are noted after 10 micrograms/kg sc. Yet, morphological signs of increases in protein synthesis are present. It is concluded that soman induces increased protein synthesis in many areas studied and that this increase is not dependent on inhibition of cholinesterase to a degree that affects gross behavior of evoked potentials from a CNS cholinergic-transmitting synapse--the motoneuron axon collateral and Renshaw cell (J. C. Eccles, P. Fatt, and K. Koketsu (1954), J. Physiol, 126, 524-562).
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PMID:Morphological evidence for increased protein synthesis in CNS neurons after soman exposure. 355 20

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