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Enzyme
Compound
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Target Concepts:
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Query: EC:3.1.3.1 (
alkaline phosphatase
)
47,916
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Partially purified high-molecular-weight
alkaline phosphatase
from serum was compared with two other forms of the enzyme from the human liver, enzyme in native plasma membranes and purified
alkaline phosphatase
as a hydrophilic dimer. In a high-molecular-weight form from serum and plasma membranes, and when treated with 1% (v/v) Triton X-100,
alkaline phosphatase
showed a major band on gradient gel electrophoresis with a mobility equivalent to 400 kD. Nondetergent-treated material from both sources did not enter the gel and was in the voided volume of a gel permeation column. Stimulation of catalytic activity by four different phospholipids and by albumin yielded similar results for high-molecular-weight
alkaline phosphatase
and for the enzyme in plasma membranes, but these were different from the hydrophilic form. Inhibitors of
alkaline phosphatase
had similar effects on all forms. Of the three forms of the enzyme, only the hydrophilic dimer did not become incorporated into liposomes or adsorb to octyl-Sepharose after solubilization with Triton X-100 and removal of the detergent. Km (substrate concentration to give half maximal velocity) values with p-nitrophenylphosphate and heat and sodium dodecyl sulfate stabilities were similar for all forms. In the high-molecular-weight form from serum and in plasma membranes,
alkaline phosphatase
and 5'-nucleotidase showed similar rates of release by
phosphatidylinositol phospholipase C
. Three preparations of phospholipase D failed to release
alkaline phosphatase
from either the high-molecular-weight form or from plasma membranes. Based on these similarities, it is probable that the complex of high-molecular-weight
alkaline phosphatase
in serum most often originates from fragments of hepatic plasma membranes.
...
PMID:High-molecular-weight alkaline phosphatase in serum has properties similar to the enzyme in plasma membranes of the liver. 183 14
As assessed by incorporation into liposomes and by adsorption to octyl-Sepharose, the integrity of the membrane anchor for the purified tetrameric forms of
alkaline phosphatase
from human liver and placenta was intact. Any treatment that resulted in a dimeric enzyme precluded incorporation and adsorption. An intact anchor also allowed incorporation into red cell ghosts. The addition of hydrophobic proteins inhibited incorporation into liposomes to varying degrees. Alkaline phosphatase was 100% releasable from liposomes and red cell ghosts by a phospholipase C specific for phosphatidylinositol. There was no appreciable difference in the rates of release of placental and liver alkaline phosphatases, although both were approximately 250 x slower in liposomes and 100 x slower in red cell ghosts than the enzyme's release from a suspension of cultured osteosarcoma cells. Both enzymes were released by
phosphatidylinositol phospholipase C
as dimers and would not reincorporate or adsorb to octyl-Sepharose. However, the enzyme incorporated, resolubilized by Triton X-100, and cleansed of the detergent by butanol treatment was tetrameric by gradient gel electrophoresis, was hydrophobic, and could reincorporate into fresh liposomes. A monoclonal antibody to liver
alkaline phosphatase
inhibited the enzyme's incorporation into liposomes, and abolished its release from liposomes and its conversion to dimers by
phosphatidylinositol phospholipase C
.
...
PMID:Incorporation of human liver and placental alkaline phosphatases into liposomes and membranes is via phosphatidylinositol. 217 99
Bacillus cereus secretes three different phospholipases C. We studied the effect of Pi levels in the growth medium on the production of these exoenzymes. Production of both phosphatidylcholine-preferring phospholipase C and sphingomyelinase C was repressed by Pi in the growth medium, whereas production of
phosphatidylinositol phospholipase C
was unaffected. We also found that B. cereus secretes a phosphate-repressed
alkaline phosphatase
activity. Together with a previously reported highly efficient, active uptake system for Pi, these three phosphate-repressed exoenzyme activities seem to be part of a phosphate retrieval mechanism that operates under growth-limiting concentrations of Pi. In natural soil systems, which are the natural habitats of B. cereus, the scarcity of Pi is the major growth-limiting factor. A phosphate-repressed metalloprotease activity was also detected in culture supernatants of B. cereus. It is unclear whether this exoenzyme activity also participates in the proposed phosphate-scavenging system.
...
PMID:Apparent phosphate retrieval system in Bacillus cereus. 250 29
Membrane-bound human liver
alkaline phosphatase
solubilized by a non-ionic detergent, Nonidet P-40 (NP-40), has the molecular mass of a tetramer. It can be converted to a dimeric form by treatment with a
phosphatidylinositol phospholipase C
(
PI-PLC
) obtained from Bacillus cereus. When human liver plasma membranes were directly treated with
PI-PLC
, the released
alkaline phosphatase
was dimeric. Thus, phosphatidylinositol may help maintain the tetrameric quaternary structure of
alkaline phosphatase
and aid its binding to human liver plasma membranes.
...
PMID:Tetrameric alkaline phosphatase from human liver is converted to dimers by phosphatidylinositol phospholipase C. 302 65
Alkaline phosphatase solubilized from a human Hodgkin's lymphoma cell line (L428) was compared with purified amphiphilic and hydrophilic forms of the enzyme from human liver, and with the enzyme solubilized from a cultured osteosarcoma cell line (Saos-2). Purified hydrophilic alkaline phosphatases from human placenta and intestine were also compared in some experiments. Alkaline phosphatase was released from the plasma membrane of intact lymphocytes by
phosphatidylinositol phospholipase C
and thus is anchored to the outside of the plasma membrane by covalently attached phosphatidylinositol. Enzyme released in this way was hydrophilic and that solubilized with Triton X-100 was amphiphilic, as assessed by adsorption to octyl-Sepharose. Lymphocyte
alkaline phosphatase
, when released from the membrane by
phosphatidylinositol phospholipase C
or solubilized by Triton X-100, had apparent M(r) values on gradient gel electrophoresis of 227 and 494 kDa, respectively. These values were consistently higher than equivalent ones obtained with enzymes purified from human liver, but were similar to those of cultured osteosarcoma cells. Isoenzyme-specific inhibitors of
alkaline phosphatase
showed similar patterns of inhibition between the enzyme from L428 cells and the tissue-nonspecific (liver/kidney/bone) isoenzyme from human liver. Heat stabilities were similar for the enzymes from L428 and Saos-2 (bone isoform) cell lines, but differed significantly from those of liver, intestine and placenta. We conclude that the
alkaline phosphatase
expressed in this lymphoma cell line (L428) has properties that most closely resemble those of the tissue-nonspecific isoenzyme found normally in osteoblasts of bone (bone isoform).
...
PMID:Characterization of the alkaline phosphatase expressed on the surface of a Hodgkin's lymphoma cell line. 819 73
