The proposed project is intended to promote further understanding of the physiologic effects of high density lipoproteins (HDL) in humans, and of the roles played by specific cell-surface receptors for HDL in these effects. It is ultimately hoped that these studies will yield fundamental information which will provide insights into the inverse relationship between HDL-cholesterol and atherogenesis, and that this information will be of benefit in developing effective therapeutic and preventive interventions. Such broad goals will be approached by addressing specific questions about HDL physiology and the attendant roles of HDL receptors. These questions include: 1) whether HDL-promoted net efflux of cholesterol from human fibroblasts, and net uptake of cholesterol into Hep G2 cells (a minimal-deviation human hepatoma cell line) is mediated by specific cell-surface receptors (net cholesterol flux due to HDL will be measured at baseline and when the HDL receptors are blocked or ablated); 2) whether hepatic and steroidogenic tissue HDL receptors serve to bring HDL into contact with hepatic lipase and thereby promote cholesterol uptake by these tissues (the conversion of C14-choline-labeled phosphatidylcholine within HDL to lysophosphatidylcholine will be used to assay the interaction of hepatic lipase with HDL); 3) whether HDL-cholesterol delivered to the liver through HDL receptors affects the synthesis of cholesterol and lipoproteins (Hep G2 cells will be used); 4) whether the binding of HDL to their receptors inhibits the uptake of LDL by the low affinity LDL receptor in human fibroblasts (high-affinity LDL receptor-negative cells - GM 2000 - will be used); 5) whether hepatic and fibroblast HDL receptors are under hormonal regulation; and 6) whether individual subspecies of HDL, isolated from human serum by the newly developed technique of selected-affinity immunosorption, can be assigned specific physiologic (receptor-mediated) functions which correlate with their structures.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Clinical Investigator Award (CIA) (K08)
Project #
5K08HL001546-05
Application #
3081919
Study Section
Research Manpower Review Committee (MR)
Project Start
1985-09-01
Project End
1991-02-28
Budget Start
1988-09-01
Budget End
1991-02-28
Support Year
5
Fiscal Year
1989
Total Cost
Indirect Cost
Name
University of California San Francisco
Department
Type
Schools of Medicine
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Mendel, C M; Laughton, C W; McMahon, F A et al. (1991) Inability to detect an inhibitor of thyroxine-serum protein binding in sera from patients with nonthyroid illness. Metabolism 40:491-502
Mendel, C M; Kuhn, R W; Weisiger, R A (1991) Uptake of corticosterone by the perfused rat liver. Endocrinology 129:27-32
Mendel, C M; Weisiger, R A (1990) Thyroxine uptake by perfused rat liver. No evidence for facilitation by five different thyroxine-binding proteins. J Clin Invest 86:1840-7
Mendel, C M (1990) Rates of dissociation of sex steroid hormones from human sex hormone-binding globulin: a reassessment. J Steroid Biochem Mol Biol 37:251-5
Mendel, C M; Miller, M B; Siiteri, P K et al. (1990) Rates of dissociation of steroid and thyroid hormones from human serum albumin. J Steroid Biochem Mol Biol 37:245-50
Mendel, C M; Murai, J T; Siiteri, P K et al. (1989) Conservation of free but not total or non-sex-hormone-binding-globulin-bound testosterone in serum from Nagase analbuminemic rats. Endocrinology 124:3128-30
Mendel, C M; Cavalieri, R R; Gavin, L A et al. (1989) Thyroxine transport and distribution in Nagase analbuminemic rats. J Clin Invest 83:143-8
Chen, G C; Hardman, D A; Hamilton, R L et al. (1989) Distribution of lipid-binding regions in human apolipoprotein B-100. Biochemistry 28:2477-84
Mendel, C M (1989) Modeling thyroxine transport to liver: rejection of the ""enhanced dissociation"" hypothesis as applied to thyroxine. Am J Physiol 257:E764-71
Mendel, C M; Kuhn, R W; Weisiger, R A et al. (1989) Uptake of cortisol by the perfused rat liver: validity of the free hormone hypothesis applied to cortisol. Endocrinology 124:468-76

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