Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Enzyme
Compound
Query: EC:3.1.1.7 (
acetylcholinesterase
)
28,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The histoenzymologic study of the adrenals in Glis glis was realized for 4 enzymatic activities (acid phosphatase, glucose 1 phosphate dehydrogenase, delta5
3beta-hydroxysteroid dehydrogenase
and
cholinesterase
) completed by the simultaneous dosage of glucose-6-phosphate dehydrogenase. The histophotometric measures made it possible to differentiate the enzymatic activities of the different zones of the adrenal cortex and to show the persistance of an important activity of the zona fasciculata and sometimes of the zona reticulata during hibernation, independantly of the zona glomerulosa. This study confirms the activation of the adrenal cortex during hibernation with a brutal depletion at awakening and reduced activity during estivation.
...
PMID:[Histoenzymologic study of the adrenal gland of the dormouse during the annual cycle]. 102 46
Decisive steps of bovine prenatal adrenal development were investigated in 46 embryos and fetuses using histological, electron microscopical, immuno-, enzyme and lectin histochemical methods. About day 30, the intermediate mesoderm between the cranial mesonephros and coelomic cavity is segmentally organized. It consists of proliferating tissue complexes that are connected to the coelomic cavity by vestigial nephrostomial tubules. This segmental organization soon disappears, however, due to longitudinal fusion of the tissue complexes into a continuous joined blastema. This blastema of intermediate mesodermal (nephric) origin becomes positive for alkaline phosphatase at about 30 days, and slightly later also for
acetylcholinesterase
. The most cranial portions of this common blastema represent the adrenocortical anlage, the following portions the gonadal rete blastema. A reevaluation of the comparative anatomical record revealed that a nephric origin of adrenocortical or interrenal cells is a general feature of all vertebrates and that the erroneous assumption of the lateral plate-derived coelothelium as precursor of the adrenocortical (interrenal) blastema should be definitively abandoned. The first adrenomedullary precursor cells become visible in the bovine adrenal primordium at day 35. At 50 days, both components (medullary and cortical precursors) are present as interpenetrating plates and strands between large sinusoid vessels and exhibit a strong MIB-1 activity, indicative of a high proliferation rate. About day 60 the cellular proliferation slows down in some of the adrenocortical precursor cells, and the separation into a visible cortex and medulla is initiated. From about day 80 on, the medullary tissue coalesces into a large, continuous area in the interior of the gland, surrounded by a narrow cortical glomerulo-fasciculata that becomes positive for
3beta-hydroxysteroid dehydrogenase
at about day 90. Autonomous nerves penetrate the blastemal region as early as day 31. When the separation into cortex and medulla starts, the nerves are more concentrated in the latter. From 130 days on, nerve fascicles reach the interior of the organ not only from its medial side, but also from the capsule surrounding the gland. The penetrating bundles traverse the zona glomerulo-fasciculata without ramification and split off at the border to the medulla. Here, in the outer zone of the medulla, they constitute a particularly dense plexus, whereas in the central medulla a less dense innervation is observed. Up until 90 days, cells with the characteristic features of primordial germ cells are present within the confines of the adrenal gland.
...
PMID:On the origin and prenatal development of the bovine adrenal gland. 1019 5
Signal transduction by xenobiotics in fish has recently gained much attention. The better known transduction mechanisms are those elicited by organochlorines, organophosphates, carbamates and heavy metals. Organochlorines specifically bind to the membrane bound ouabain sensitive Na+-K+-ATPase affecting neural transmission while the organophosphates and carbamates bind specifically to the membrane bound enzyme
acetylcholinesterase
again affecting neural transmission. Since the nervous system is one of the important integrative and interactive physiological systems in animals, hypofunction of the nervous system leads to secondary effects in the endocrine system including thyroidal, gonadal, interrenal, pituitary and hypothalamic functions. Even low levels of xenobiotics are efficient enough to bring about remarkable changes in the functional physiology of the non target animals. Heavy metals such as cadmium or mercury belonging to the same group II B in the periodic table probably have a similar mechanism of action. Avidity of these metals to SH-radicals allow them to bind indiscriminately to SH groups in proteins. One pathway of interaction by inorganic mercury with the membrane bound ouabain sensitive Na+-K+-ATPase has been clearly established in fish liver and ovary. Binding of inorganic mercury to the membrane bound enzyme is through sulfhydryl group which inactivates the sodium pump leading to accumulation of the cation in the cytosol. The inorganic mercury is next conjugated by the cytosolar nucleophile, glutathione, and is transported to the nucleus where dissociation occurs and the free metal binds to the metal regulatory element to initiate gene expression. The inducible proteins are
3beta-hydroxysteroid dehydrogenase
in the oocyte and metallothionein and C-reactive protein in the liver. The present review deals with the role of xenobiotic as a stress factor.
...
PMID:Signal transduction by xenobiotics in fish. 1255 5
