EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A method has been developed for routine high yield separation of canalicular (cLPM) from basolateral (blLPM) liver plasma membrane vesicles of rat liver. Using a combination of rate zonal floatation (TZ-28 zonal rotor, Sorvall) and high speed centrifugation through discontinuous sucrose gradients, 9-16 mg of cLPM and 15-28 mg of blLPM protein can be isolated in 1 d. cLPM are free of the basolateral markers Na+/K+-ATPase and glucagon-stimulatable adenylate cyclase activities, but are highly enriched with respect to homogenate in the "canalicular marker" enzyme activities leucylnaphthylamidase (48-fold), gamma-glutamyl-transpeptidase (60-fold), 5'-nucleotidase (64-fold), alkaline phosphatase (71-fold), Mg++-ATPase (83-fold), and alkaline phosphodiesterase I (116-fold). In contrast, blLPM are 34-fold enriched in Na+/K+-ATPase activity, exhibit considerable glucagon-stimulatable adenylate cyclase activity, and demonstrate a 4- to 15-fold increase over homogenate in the various "canalicular markers." cLPM have a twofold higher content of sialic acids, cholesterol; and sphingomyelin compared with blLPM. At least three canalicular-(130,000, 100,000, and 58,000 mol wt) and several basolateral-specific protein bands have been detected after SDS PAGE of the two LPM subfractions. Specifically, the immunoglobin A-binding secretory component is restricted to blLPM as demonstrated by immunochemical techniques. These data indicate virtually complete separation of basolateral from canalicular LPM and demonstrate multiple functional and compositional polarity between the two surface domains of hepatocytes.
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PMID:Structural and functional polarity of canalicular and basolateral plasma membrane vesicles isolated in high yield from rat liver. 669 96

Incubation of S49 cell membranes at 0 degree C resulted in a loss of adenylate cyclase activity, but addition of ATP and ATP regenerating system prevented the decrease of the activity. A non-phosphorylating analogue of ATP, adenyl-5'-yl imidodiphosphate, was less effective than ATP. Treatment of solubilized adenylate cyclase with calf intestine alkaline phosphatase caused the decrease of the activity. Membranes from cyc- S49 mutant cells, which are devoid of guanine nucleotide-binding protein, yielded the same results as membranes from S49 cells, indicating that the catalytic component is involved in the alteration of the enzyme activity by these treatments. These results suggest that phosphorylation and dephosphorylation of the catalytic component may regulate adenylate cyclase activity.
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PMID:Alteration of adenylate cyclase activity by phosphorylation and dephosphorylation. 683 11

1. The addition of 50 000g cytosol preparations of isolated human platelets, cultured rat osteogenic sarcoma or cultured bone cells to particulate preparations of adenylate cyclase, from the same or unrelated tissues, caused marked enhancement of the hormone-stimulated enzyme activities. 2. The degree of enhancement obtained by addition of the cytosol preparations was similar to that observed on addition of GTP. 3. The enhancing activity of the three cytosol types was found to be sensitive to digestion by trypsin and alkaline phosphatase, partially heat-labile and partially inactivated by exposure to charcoal. 4. Gel filtration studies indicated an apparent molecular weight of 20 000--30 000. Further, the 20000-30000-mol.wt. fractions obtained by gel filtration could enhance the adenylate cyclase activity of particulate preparations derived from unrelated cell types. 5. The results suggest a common or similar adenylate-cyclase-enhancing factor or factors, protein in nature, present in the three cytosol types.
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PMID:Properties of a factor in cytosol that enhances hormones-stimulated adenylate cyclase activity. 693 Sep 68

Certain metabolic properties of hormonally responsive osteogenic sarcoma cells derived from a transplantable rat tumor have been compared with those of related normal rat bone cells. All studies were carried out on cells grown in monolayer culture. Normal rat bone cells derived by repeated collagenase/trypsin digestion of newborn rat calvaria. Bone cells selected for comparison were thought to be osteoblast-like, as judged by enrichment of alkaline phosphatase and adenylate cyclase responsiveness to parathyroid hormone and prostaglandin E2. The adenylate cyclases of the two cell strains were similarly stimulated by a range of prostanoids and their metabolites and analogs. Morphology showed the two cell strains to be similar; the only obvious difference was a multilayering of cells in the sarcoma cultures, while the normal cultures showed abundant extracellular fibril formation which was not seen in the tumor cells. Investigation of the cAMP-dependent protein kinase isoenzymes showed the presence of two forms in both cell types, one eluting at a low salt concentration and the other at a high salt concentration. There was approximately twice the amount of the first isoenzyme compared to the second isoenzyme. The results indicate the usefulness of the two cell strains to elucidate further the molecular mechanisms of action of parathyroid hormone and prostaglandins.
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PMID:Functional properties of hormonally responsive cultured normal and malignant rat osteoblastic cells. 693 60

Several clonal cell lines from a transplantable rat osteosarcoma, selected on the basis of parathyroid hormone (PTH)-sensitive adenylate cyclase, were established in culture. Bovine PTH-(1-84) (0.1 microM) stimulation of adenylate cyclase varied among clones from 8-fold to none. The level of PTH response was a stable property of each clonal line that was retained through numerous passages in vitro (nearly 3 yr in the oldest clone). Highly PTH-responsive lines had a cuboidal-eliptoid morphology and differed from the nonresponsive lines, which had a more fibroblastic appearance. PTH responsiveness correlated with several properties, presumably associated with the osteoblastic phenotype: elevated alkaline phosphatase activity, synthesis of the gamma-carboxyglutamic acid-containing bone protein, and production of mineralized tumors in host rats. PTH (1.0 nM; 24 h) reduced the alkaline phosphatase activity by 40% when tested in a responsive clone. The acid phosphatase activity of the various cell lines was uniformly low. These osteosarcoma-derived cell lines which are stable in vitro thus seem to reflect the phenotypic heterogeneity observed in the tumor in situ. They could be useful in studies of phenotypic expression, PTH action, and a possible relationship between the two.
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PMID:Parathyroid hormone-responsive clonal cell lines from rat osteosarcoma. 696 73

To show adenylate cyclase (AC) activity in rat calvaria, it is necessary first to decalcify the specimen. In hard tissues, several enzymes (adenosine triphosphatase (ATPase), alkaline phosphatase (APase), adenylate cyclase (AC) and perhaps pyrophosphatase (PPiase) are able to degrade adenosine triphosphate (ATP). The presence of sodium fluoride (NaF) in the incubation medium reduces the quantity of precipitate formed, compared to that observed using a NaF-free incubation medium. Levamisole, used under the same conditions, gives similar results. Possibly NaF inhibits pyrophosphohydrolase and/or phosphatases which mask the AC activity. Adenylylimidophosphate (AMP-PNP), which is a specific AC substrate, confirms the results obtained with ATP. AC activity is demonstrated cytochemically in the osteoblast and preosteoblast membranes, at the junction between two osteoblasts and along the cytoplasmic processes of the osteoblast which penetrate into the osteoid matrix. The osteocytes never show a precipitate, except those which present some osteoblastic features and then only on the membrane facing the osteogenic layer. An intracellular reaction is also evident and is discussed. Parathyroid hormone (PTH) does not reveal new sites of AC activity but increases the quantity of precipitate observed.
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PMID:An attempt at localizing adenylate cyclase in rat calvaria. Influence of sodium fluoride and parathyroid hormone. 700 93

Hepatocytes, endothelial and Kupffer cells were isolated from young adult (3 month) and old (24 month) rat livers and the activities of some plasma membrane, endoplasmic reticulum, mitochondrial, lysosomal and soluble enzymes compared using biochemical and electron microscope cytochemical techniques. Age-associated changes included: a decrease in glucose-6-phosphatase activity both in hepatocytes and sinus lining cells; and increase in alkaline phosphatase in endothelial cells but a decrease in hepatocytes; reduced basal and glucagon-induced adenyl cyclase in hepatocytes and endothelial cells and an increase in the number of hepatocytes with gamma-glutamyl transferase reaction. Cytochemistry showed that heterogeneity may also be characteristic of senescence particularly with regard to hepatocyte glucose-6-phosphatase which was absent in some cells, low in many cells but high in some and gamma-glutamyl transferase which was normally lacking from hepatocytes but localised as large deposits of reaction product on the plasma membranes of occasional cells isolated from old donors.
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PMID:Effects of age on rat liver enzymes. A study using isolated hepatocytes, endothelial and Kupffer cells. 706 Sep 52

The role of phosphatidylinositol-specific phospholipase C (PIase C) in a) the enigmatic phosphatidylinositol (PI) turnover and b) in our understanding of membrane enzyme-PI interactions is the subject matter of this article. PIase C is present in both procaryotes and eukaryotes. This enzyme is considered to be involved in the cells PI breakdown which occurs in response to several external stimuli. Recent information on the physical properties, Ca2+ requirement, cellular localization and modulation of the activity of PIase C of mammalian systems can help to evaluate the PI turnover from a new angle. Existing evidence suggests that Ca2+-dependent PI breakdown is probably mediated through the cytosolic and particulate PIase C while a Ca2+ independent pathway is catalyzed by a lysosomal enzyme. Apparently PI turnover may be operating through more than one mechanism. The association of this phenomenon with a membrane receptor event linked with "Ca2+ gating" may have to be reconsidered. Modulation of the PIase C activity by unsaturated amphiphiles or the presence of this enzyme in different physico-chemical forms could be a potential regulatory feature. Hydrolysis of membrane PI of a number of cells and tissues by the bacterial PIase C has been shown to cause substantial release of acetylcholinesterase, alkaline phosphatase and 5'-nucleotidase in free, soluble form. Other membrane enzymes, e.g., alkaline phosphodiesterase I, L-leucyl-beta naphthyl amidase and Ca2+ or Mg2+ ATPase are not affected. These results indicate a specific interaction between PI and certain enzymes in membranes. The chemical nature of this linkage, whether it is covalent or non-covalent, has also been explored and has provided intriguing insight into this phenomenon. New findings also indicate that hydrolysis of PI by PIase C also can cause modifications in membrane-enzyme activities, e.g., adenylate cyclase.
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PMID:Minireview. Phosphatidylinositol specific phospholipases C. 708 67

Two distinct plasma membranes have been partially purified and characterized from nomal human placenta. Cell membrane specializations which are likely to interact with maternal blood and humoral agents in the intervillous space were identified on the brush border membrane of the syncytiotrophoblast, which is recognized as the major site of synthetic and transport activity in the human placenta. Another placental plasma membrane fraction, which presumably contains syncytial components and is distinct from brush border membrane, has also been partially characterized. This membrane is likely to be a major site of interaction of fetal blood and humoral agents with the placenta. Both brush border and nonbrush border membranes possess different transport and receptor activities. Brush border membranes are rich in insulin receptors and in alkaline phosphatase and contain Na+-gradient--dependent amino acid transport sites (but do not contain demonstrable hormone sensitive adenylate cyclase activity). Nonbrush border placental membranes are (on the other hand) enriched in hormone sensitive adenylate cyclase activity, beta-Adrenergic receptors, Na+-K+-ATPase, [3H]ouabain binding, and an ATP-dependent Ca2+ transport system. Interposed between two separate circulatory systems the placenta has a distinct polarity of its membrane specializations thus allowing different interactions at the maternal-placental as compared to the fetal-placental interface. These interactions are likely to mediate placental metabolic, synthetic, and transport functions.
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PMID:Specializations in plasma membranes of the human placenta. 718 56

Adenylate cyclase from rat hippocampus was separated by electrophoresis in polyacryl amide microgels and stained for enzymatic activity using a new histochemical procedure. This method involves the use of AMP-PNP, aminophylline, dithiotreitole, and Sr2+ as "primary" capture ions, thus fulfilling all the demands for a really specific histochemical incubation medium for the enzyme. The incubation of the gels with this medium resulted in the inhibition of other enzymes, which are capable of splitting AMP-PNP (ATP: pyrophosphatase, alkaline phosphatase), whereas adenylate cyclase remained highly active under these conditions. The enzyme was found to be present in two forms in the gels. Both protein bands were stimulated by the addition of various biogenic amines to the incubation medium. One protein band was fully GMP-PNP dependent in its activity. It is reasonable to suppose that these forms are either differently high aggregated molecules of the enzyme or enzyme molecules bound to their regulatory sites.
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PMID:Specific demonstration of rat brain adenylate cyclase in polyacryl amide microgels by a new histochemical procedure. 732 48

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