scholarly article | Q13442814 |
P50 | author | Miranda Van Eck | Q60628879 |
P2093 | author name string | Ying Zhao | |
Bart Lammers | |||
Menno Hoekstra | |||
Reeni B Hildebrand | |||
Theo J C Van Berkel | |||
Johan Kuiper | |||
Dan Ye | |||
Miranda Stitzinger | |||
P2860 | cites work | Association of polymorphisms at the SR-BI gene locus with plasma lipid levels and body mass index in a white population | Q77974682 |
The LDL receptor is not necessary for acute adrenal steroidogenesis in mouse adrenocortical cells | Q80294363 | ||
Cloning and sequencing of human cholesteryl ester transfer protein cDNA | Q24299374 | ||
Characterization of CLA-1, a Human Homologue of Rodent Scavenger Receptor BI, as a Receptor for High Density Lipoprotein and Apoptotic Thymocytes | Q24315731 | ||
A targeted mutation in the murine gene encoding the high density lipoprotein (HDL) receptor scavenger receptor class B type I reveals its key role in HDL metabolism | Q24646308 | ||
Single-Step Method of RNA Isolation by Acid Guanidinium Thiocyanate–Phenol–Chloroform Extraction | Q25938986 | ||
Identification of scavenger receptor SR-BI as a high density lipoprotein receptor | Q28273182 | ||
Adrenal cholesterol utilization | Q28282253 | ||
Scavenger receptor class B, type I (SR-BI) is the major route for the delivery of high density lipoprotein cholesterol to the steroidogenic pathway in cultured mouse adrenocortical cells | Q33713740 | ||
New insights into the regulation of HDL metabolism and reverse cholesterol transport | Q34428702 | ||
Separation of plasma lipoproteins by density-gradient ultracentrifugation | Q34566105 | ||
Plasma cholesteryl ester transfer protein | Q34662720 | ||
Absence of HDL cholesteryl ester uptake in mice via SR-BI impairs an adequate adrenal glucocorticoid-mediated stress response to fasting | Q34737784 | ||
Dietary cholesterol increases transcription of the human cholesteryl ester transfer protein gene in transgenic mice. Dependence on natural flanking sequences | Q35606510 | ||
Immunohistochemical localization of low density lipoprotein receptors in adrenal gland, liver, and intestine | Q35814246 | ||
Scavenger receptor BI and ATP-binding cassette transporter A1 in reverse cholesterol transport and atherosclerosis | Q36125671 | ||
SR-BI protects against endotoxemia in mice through its roles in glucocorticoid production and hepatic clearance | Q36227219 | ||
Low Density Lipoprotein Receptors in Bovine Adrenal Cortex. I. Receptor-Mediated Uptake of Low Density Lipoprotein and Utilization of Its Cholesterol for Steroid Synthesis in Cultured Adrenocortical Cells* | Q40223301 | ||
Regulation of the scavenger receptor BI and the LDL receptor by activators of aldosterone production, angiotensin II and PMA, in the human NCI-H295R adrenocortical cell line | Q40659829 | ||
Peptide growth factors and the adrenal cortex | Q41463605 | ||
Increased selective uptake in vivo and in vitro of oxidized cholesteryl esters from high-density lipoprotein by rat liver parenchymal cells | Q41920322 | ||
Comparison of expression and regulation of the high-density lipoprotein receptor SR-BI and the low-density lipoprotein receptor in human adrenocortical carcinoma NCI-H295 cells | Q42471086 | ||
Specific gene expression of ATP-binding cassette transporters and nuclear hormone receptors in rat liver parenchymal, endothelial, and Kupffer cells | Q44409367 | ||
Genetic variation at the scavenger receptor class B type I gene locus determines plasma lipoprotein concentrations and particle size and interacts with type 2 diabetes: the framingham study | Q44467113 | ||
Association between a novel 11-base pair deletion mutation in the promoter region of the scavenger receptor class B type I gene and plasma HDL cholesterol levels in Taiwanese Chinese | Q44484474 | ||
Population-based study of SR-BI genetic variation and lipid profile. | Q44928878 | ||
Scavenger receptor class B type I is solely responsible for the selective uptake of cholesteryl esters from HDL by the liver and the adrenals in mice | Q45020519 | ||
Molecular cloning, sequence, and expression of cynomolgus monkey cholesteryl ester transfer protein. Inverse correlation between hepatic cholesteryl ester transfer protein mRNA levels and plasma high density lipoprotein levels | Q48627235 | ||
Cholesteryl ester transfer protein (CETP) expression protects against diet induced atherosclerosis in SR-BI deficient mice. | Q51768378 | ||
Important role for bone marrow-derived cholesteryl ester transfer protein in lipoprotein cholesterol redistribution and atherosclerotic lesion development in LDL receptor knockout mice. | Q52576944 | ||
Cloning and mRNA tissue distribution of rabbit cholesteryl ester transfer protein | Q68063176 | ||
Regulation by adrenocorticotropic hormone of the in vivo expression of scavenger receptor class B type I (SR-BI), a high density lipoprotein receptor, in steroidogenic cells of the murine adrenal gland | Q71903440 | ||
Regulation of low density lipoprotein receptors by adrenocorticotropin in the adrenal gland of mice and rats in vivo | Q72853316 | ||
The estradiol-stimulated lipoprotein receptor of rat liver. A binding site that membrane mediates the uptake of rat lipoproteins containing apoproteins B and E | Q72868797 | ||
Antibody against low density lipoprotein receptor blocks uptake of low density lipoprotein (but not high density lipoprotein) by the adrenal gland of the mouse in vivo | Q72891171 | ||
Regulation of adrenal scavenger receptor-BI expression by ACTH and cellular cholesterol pools | Q73045943 | ||
Expression of low and high density lipoprotein receptor genes in human adrenals | Q73835687 | ||
ACTH regulates LDL receptor and CLA-1 mRNA in the rat adrenal cortex | Q77794720 | ||
P433 | issue | 6 | |
P304 | page(s) | 1039-1046 | |
P577 | publication date | 2009-01-28 | |
P1433 | published in | Journal of Lipid Research | Q6295449 |
P1476 | title | Scavenger receptor class B type I-mediated uptake of serum cholesterol is essential for optimal adrenal glucocorticoid production | |
P478 | volume | 50 |
Q39429581 | A lipoprotein source of cholesteryl esters is essential for proliferation of CEM-CCRF lymphoblastic cell line. |
Q33632173 | Adrenal Function in females with low plasma HDL-C due to mutations in ABCA1 and LCAT. |
Q34578466 | Aldosterone production in human adrenocortical cells is stimulated by high-density lipoprotein 2 (HDL2) through increased expression of aldosterone synthase (CYP11B2) |
Q33435708 | Carboxy-terminal deletion of the HDL receptor reduces receptor levels in liver and steroidogenic tissues, induces hypercholesterolemia, and causes fatal heart disease |
Q37777663 | Cholesterol as a Potential Target for Castration-Resistant Prostate Cancer |
Q34948139 | Cholesteryl ester transfer protein expression partially attenuates the adverse effects of SR-BI receptor deficiency on cholesterol metabolism and atherosclerosis |
Q33903801 | Class B scavenger receptor types I and II and CD36 mediate bacterial recognition and proinflammatory signaling induced by Escherichia coli, lipopolysaccharide, and cytosolic chaperonin 60 |
Q37383254 | Class B scavenger receptor types I and II and CD36 targeting improves sepsis survival and acute outcomes in mice. |
Q34700741 | Deficiency of calcium and magnesium induces apoptosis via scavenger receptor BI |
Q51866843 | Evidence for a hyporesponsive limbic-hypothalamic-pituitary-adrenal axis following early-life repetitive hypoglycemia in adult male rats. |
Q39783085 | Gipr is essential for adrenocortical steroidogenesis; however, corticosterone deficiency does not mediate the favorable metabolic phenotype of Gipr(-/-) mice |
Q36731763 | HDL is redundant for adrenal steroidogenesis in LDLR knockout mice with a human-like lipoprotein profile |
Q40470895 | High density lipoprotein as a source of cholesterol for adrenal steroidogenesis: a study in individuals with low plasma HDL-C. |
Q36868107 | Human SR-BI and SR-BII Potentiate Lipopolysaccharide-Induced Inflammation and Acute Liver and Kidney Injury in Mice |
Q36658359 | LCAT deficiency in mice is associated with a diminished adrenal glucocorticoid function |
Q36145188 | Lecithin:cholesterol acyltransferase: old friend or foe in atherosclerosis? |
Q39016597 | Leoligin, the major lignan from Edelweiss, activates cholesteryl ester transfer protein |
Q38293457 | Mouse models of disturbed HDL metabolism |
Q36418591 | Nature and nurture in atherosclerosis: The roles of acylcarnitine and cell membrane-fatty acid intermediates |
Q42477363 | Plasma lipoproteins are required for both basal and stress-induced adrenal glucocorticoid synthesis and protection against endotoxemia in mice |
Q29147547 | Rare variant in scavenger receptor BI raises HDL cholesterol and increases risk of coronary heart disease |
Q33393289 | Scavenger receptor BI: a multi-purpose player in cholesterol and steroid metabolism |
Q37864742 | Scavenger receptor class B type I and the hypervariable region-1 of hepatitis C virus in cell entry and neutralisation. |
Q34622857 | Scavenger receptor class B, type I (Scarb1) deficiency promotes osteoblastogenesis but stunts terminal osteocyte differentiation |
Q38767004 | Synthetic High-Density Lipoprotein (sHDL) Inhibits Steroid Production in HAC15 Adrenal Cells |
Q28070244 | Targeting the SR-B1 Receptor as a Gateway for Cancer Therapy and Imaging |
Q34386283 | The atherogenic Scarb1 null mouse model shows a high bone mass phenotype |
Q37837679 | Update on HDL receptors and cellular cholesterol transport |
Q39642788 | Upregulation of scavenger receptor class B type I expression by activation of FXR in hepatocyte |
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