Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholesterol efflux from cultured cells can be mediated through binding of high density lipoprotein (HDL) to a cell-surface site which shows many characteristics of a biological receptor. To determine whether a specific protein forms a component of this site, cell membrane proteins were analyzed by ligand blotting using 125I-HDL3. Results demonstrated that membranes from a number of cell types possess a protein with an apparent molecular mass of 110 kDa that binds HDL and apoA-I and apoA-II proteoliposomes, but not low density lipoprotein, acetylated low density lipoprotein, or apoE proteoliposomes. The binding activity of this protein was increased by loading cells with cholesterol and was abolished by trypsin treatment of intact cell monolayers. These results suggest that HDL binds with specificity to a cell-surface protein which is regulated by intracellular cholesterol levels. Since HDL binding to intact cell monolayers shows the same characteristics, the 110-kDa binding protein may represent the proposed HDL receptor that functions to facilitate transport of cholesterol from cells to HDL particles.
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PMID:Identification and characterization of a high density lipoprotein-binding protein in cell membranes by ligand blotting. 303 94

The interaction between HDL and macrophages in culture was studied using HDL labeled with 125I and with [3H]cholesteryl linoleyl ether. Mouse peritoneal macrophages and the macrophage-like cell lines J-774 and CT2, of mouse origin, took up and metabolized rat HDL and human HDL3. In all 3 cell types using both rat and human HDL, the uptake of the cholesteryl ester moiety as measured with the nondegradable cholesteryl ether analog, was 2-5-fold higher when compared to the protein moiety. Modulation of the cholesterol content of the cultured macrophages affected the uptake of both protein and lipid moieties of HDL to the same extent. When the macrophages had interacted with the labeled HDL for 5 h and were post-incubated for 20 h, the amount of [125I]HDL which reappeared in the post incubation medium was twice that of [3H]cholesteryl linoleyl ether-HDL. The site from which the HDL may have returned to the culture medium was tentatively localized to the trypsin-releasable, cell surface-related compartment. The present results indicate that interaction between macrophages and HDL may result in some loss of cholesteryl ester and possibly render the particle more receptive for cellular cholesterol removal.
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PMID:Preferential uptake of cholesteryl ester-HDL by cultured macrophages. 360 29

Rat adrenocortical cells take up high density lipoprotein cholesterol for use as steroidogenic substrate. To better understand this unique uptake process, we have first characterized HDL binding. Infusion of human 125I-labeled HDL into rats pretreated with 4-APP demonstrated that the adrenal and ovary accumulate HDL in a saturable fashion in vivo. Subsequent studies using isolated rat adrenocortical cells demonstrated that cellular uptake of HDL is comprised of two events. One event is characterized by reversible membrane binding and is complete by 60 min (t1/2 = 20 min). The second event is marked by irreversible apoprotein accumulation which continues for at least 3 hr. Reversibly bound material exhibits the same apoprotein distribution as unincubated HDL. Irreversible accumulation could not be attributed to internalization or lysosomal accumulation inasmuch as it also occurred with partially purified plasma membranes and was not enhanced by addition of chloroquine. Reversible binding of human HDL3 exhibited a saturable dependence on concentration (Kd = 27 micrograms protein/ml; N = 3.0 X 10(6) sites/cell) similar to that previously reported for rat liver, ovary, and testis. Cell accumulation of HDL decreased by over 80% at 4 degrees C compared to 37 degrees C, did not require calcium, and was not diminished by prior cell treatment with trypsin or pronase. These results indicate that rat adrenocortical cells possess plasma membrane recognition sites for HDL with different properties than those of the LDL receptor. Moreover, adrenal accumulation of HDL apoproteins does not lead to secondary lysosome formation.
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PMID:Characterization of high density lipoprotein binding activity in rat adrenocortical cells. 651 12

The initial rate of filipin association with unesterified cholesterol in high density lipoproteins (HDL) was measured by stopped-flow spectrophotometry to assess the roles played by apolipoproteins and phospholipids in modulating the surface exposure of cholesterol. The initial rate of filipin-unesterified cholesterol association was enhanced upon hydrolysis of the glycerophospholipids of human HDL3 by phospholipase A2. Rate enhancements were also observed following trypsin-catalyzed hydrolysis of apolipoprotein A-I in canine HDL and of apolipoproteins A-I and A-II in human HDL3. However, the initial rate of filipin-unesterified cholesterol association was not altered upon incubation of HDL3 with polymorphonuclear cells, which causes hydrolysis of apolipoprotein A-II but leaves apolipoprotein A-I intact. These results are consistent with the general structural model of HDL in which unesterified cholesterol, apolipoproteins and glycerophospholipids are presumed to be localized at the surface of the HDL particle. From these studies and from results indicating that the initial rate of filipin-unesterified association was enhanced in canine HDL hybrids in which 50% of the apolipoprotein A-I had been replaced by apolipoprotein A-II, we also conclude that apolipoprotein A-I in HDL is in closer proximity to unesterified cholesterol than apolipoprotein A-II. Thus, it appears that rapid kinetic measurements of filipin-cholesterol association may be useful in assessing the organization of unesterified cholesterol in serum lipoproteins.
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PMID:Organization of unesterified cholesterol in high density lipoproteins probed by filipin. 681 43

We prepared discoidal and spherical model high density lipoprotein (HDL) with apolipoprotein A-I and 1-palmitoyl-2-oleoyl phosphatidylcholine at various lipid:protein ratios and compared their reactivity with exo- and endopeptidases to that of human HDL2 and HDL3. Limited proteolysis with trypsin, Staphylococcus V8 protease, and elastase yielded a major stable peptide of 11,000-11,500 daltons under conditions which completely degraded lipid-free A-I. By Western blotting this protease-resistant fragment was shown to consist of the amino-terminal 90-100 residues of the A-I protein; the residues on the carboxyl side of this peptide are therefore protease-sensitive and appear to correlate with the putative "hinge" region, which is especially reactive with antibodies. The amino terminus was very resistant to digestion with a variety of aminopeptidases, whereas carboxypeptidases could remove up to 70 residues from the lipid-free A-I protein or 12-24 residues from A-I in various HDL. When these truncated forms of A-I, in combination with lipid, were used to examine binding interactions with rat hepatic plasma membranes, it was found that removal of up to 20-24 residues from the carboxyl terminus had no significant effect on binding, whereas removal of 70 residues completely eliminated specific binding to the membranes. Taken together, our data indicate that there is a protease-resistant domain constituted by the first 90 residues of A-I, which, in HDL, contain little of the class of amphipathic helix characteristic of the rest of the molecule and most likely form a structure dominated by protein-protein interactions. At the carboxyl end of the protein, there is a functional domain constituted by residues 149-219 that possesses the capacity to bind to proteins on hepatic membranes.
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PMID:Structural and functional domains of apolipoprotein A-I within high density lipoproteins. 836 78


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