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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Plasma membranes of cultured cells contain high affinity receptors for high density lipoprotein (HDL) that appear to mediate removal of excess intracellular cholesterol. Recent studies using ligand blot analysis have identified a 110-kDa membrane protein which has features predicted for an HDL receptor, in that it preferentially binds HDL apolipoproteins and undergoes up-regulation in response to cholesterol loading of cells. In this study, we isolated a cDNA clone from an expression library using an antibody raised against partially purified 110-kDa
HDL-binding protein
. This clone encodes a novel cell protein, designated
HBP
, comprised mostly of 14 imperfect tandem repeats of approximately 70 amino acids in length. Each repeat appears to contain two amphipathic helices. Expression of
HBP
in cultured cells was increased severalfold when cells were loaded with cholesterol, as evident by increases in both
HBP
mRNA and membrane-associated protein. Overexpression of
HBP
in mammalian cell transfectants was associated with higher HDL binding to isolated cell protein and with modest increases in HDL binding to the cell surface. Proteins identified by ligand blot analysis had lower apparent M(r) than the primary
HBP
gene product and varied in M(r) and in HDL binding activity between cell types, suggesting that
HBP
undergoes cell-specific processing. These results provide preliminary evidence that
HBP
is a component of a cellular pathway that facilitates removal of excess cholesterol from cells, perhaps through its interaction with HDL. However, the predicted structure of
HBP
does not conform to that of any known receptor, suggesting that it does not function as a classic plasma membrane receptor.
...
PMID:Cloning and expression of a cellular high density lipoprotein-binding protein that is up-regulated by cholesterol loading of cells. 131 10
Chick
vigilin
cRNA clones were used to isolate the cognate human gene, by screening a pWE15 genomic library. Three independent cosmid clones were isolated and characterized by restriction mapping. The gene was identified by sequencing an internal EcoRI fragment containing two exons homologous to exon 24 and 25 of the chicken
vigilin
gene and corresponding to nucleotides 1973-2104 of the human
HBP
-cDNA. The homology between the chicken and human sequences was 77% and 82% at the cDNA level, and 91% and 100% at the amino acid level. In addition, the analyzed intron/exon boundaries were invariantly conserved. The 5' and 3' regions of the human gene were mapped by Southern analysis of the respective clones with synthetic oligonucleotides. The entire
vigilin
gene spans a region of about 50 kb and has been assigned to chromosome 2q36-q37.2 (FL-pter value of 0.96 +/- 0.03) by fluorescence in situ hybridization to metaphase spreads from normal peripheral blood lymphocytes. The
vigilin
gene is localized in a chromosomal region comprising a cluster of collagen genes (COLIVA3, COLVIA3) and the locus of the Waardenburg syndrome I. Only one mRNA species of 4.4 kb is transcribed from the human
vigilin
gene. In accordance with previous observations on chicken mRNA, the expression of the human
vigilin
mRNA depends on the stage of cytodifferentiation both in vitro and in situ.
...
PMID:The human vigilin gene: identification, chromosomal localization and expression pattern. 816 38
Previous studies have indicated that in HepG2 cells HDL3-signalling involves glycosylphosphatidylinositol (GPI) anchored proteins. HDL3-binding to HepG2 cells was found to be enhanced by cellular preincubation with PI-PLC inhibitors and sensitive to a cellular preincubation with exogenous PI-PLC, suggesting that HDL3 binds directly on GPI-anchored proteins to initiate signaling. Moreover HDL3-binding was found to be partly inhibited by antibodies against the
HDL-binding protein
(AbHBP). HDL3, when binding to HepG2 cells, promoted the release in the culture medium of a 110 kDa protein that binds AbHBP, while a cellular preincubation with antibodies against the inositol-phosphoglycan (IPG) moiety of GPI-anchor (AbIPG), used to block lipolytic cleavage of the GPI-anchor, inhibits HDL3-induced release of the 110 kDa protein in the culture medium. In [3H]-PC prelabeled HepG2 cells, AbHBP were found to stimulate PC-hydrolysis and DAG generation within 5 min as did HDL3 stimulation. Cellular preincubation with AbIPG was found to inhibit only the HDL3-signal and not the AbHBP-signal, while a prior cellular pretreatment with PI-PLC from Bacillus cereus was found to inhibit the HDL3-and AbHBP-signal. Moreover cellular preincubation with AbHBP for 1 h at 37 degrees C was found to inhibit HDL3-signalling pathways. Our results suggest that in HepG2 cells a 110 kDa protein, which could be
HBP
, can be anchored to the membrane via GPI, and can function in HDL3-signalling pathways as binding sites.
...
PMID:HDL3 binds to glycosylphosphatidylinositol-anchored proteins to activate signalling pathways. 929 27
Several HDL binding proteins, quite disparate in structure, have recently been cloned and their role in HDL metabolism is currently being assessed. High density lipoprotein binding protein,
HBP
(
vigilin
), which lacks a transmembrane domain is responsive to cell cholesterol levels, but its physiological significance remains unknown. On the other hand much is known about SR-B1, a member of the class B scavenger receptors. The level of SR-B1 expression correlates with both the selective transfer of cholesteryl ester into cells and cholesterol efflux from cells, the transfers probably mediated after docking of HDL at the cell surface. SR-B1 exhibits broad ligand specificity and, in animal models, appears to be regulated by the action of pituitary hormones that stimulate steroidogenesis, suggesting an important role for steroid hormone production in supplying precursor cholesterol. Another candidate HDL receptor, HB2, one of a pair of liver HDL binding proteins, shows high sequence homology with adhesion molecules, particularly activated leukocyte-cell adhesion molecule (ALCAM). When HB2 is overexpressed in cells, HDL binding increases. After PMA-induced differentiation of monocytes into macrophages, HB2 mRNA is strikingly elevated, which correlates with increased binding of HDL, but is down-regulated by cholesterol loading of macrophages. The ligand specificity of the HDL receptors, confounded by nonspecific lipid interactions, remains controversial. Their affinity for apoA-I versus apoA-I/A-II-rich HDL particles has clinical implications; both specific sequences in apoA-I and amphipathic alpha-helices may determine binding events. Post-receptor-mediated signalling events may regulate cell functions which, although not primarily related to lipid transport, nevertheless protect against coronary artery disease. Growing evidence for the involvement of lipid-poor apoA-I as a mediator of such pathways is also discussed.
...
PMID:High density lipoprotein receptors, binding proteins, and ligands. 992 47
Several HDL binding proteins have recently cloned and their roles in HDL metabolism have been gradually elucidated.
HBP
(
vigilin
), which lacks a transmembrane domain, is responsive to cell cholesterol levels, however, its physiological roles remain unknown. SR-B1, a member of the class B scavenger receptor, has been reported to bind with not only oxidized LDL but also HDL. The level of SR-B1 expression correlates with both the selective cholesterol transfer into cells and cholesterol efflux from cells. These data suggest that SR-B1 plays important roles in steroid hormone production. HB2 shows high sequence homology with ALCAM (activated leukocyte-cell adhesion molecule). When overexpressed with HB2, HDL binding is increased in the cells. After PMA-induced differentiation of monocytes into macrophages, HB2 mRNA is elevated, which correlates with increased binding of HDL, but is down-regulated by cholesterol loading of macrophages. However, physiological role of HB2 also remains unknown.
...
PMID:[The family of HDL receptor]. 1063
