Heparin-binding defective lipoprotein lipase is unstable and causes abnormalities in lipid delivery to tissues
E. Peer Lutz, … , André Bensadoun, Ira J. Goldberg
E. Peer Lutz, … , André Bensadoun, Ira J. Goldberg
Published May 1, 2001
Citation Information: J Clin Invest. 2001;107(9):1183-1192. https://doi.org/10.1172/JCI11774.
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Article

Heparin-binding defective lipoprotein lipase is unstable and causes abnormalities in lipid delivery to tissues

Abstract

Lipoprotein lipase (LpL) binding to heparan sulfate proteoglycans (HSPGs) is hypothesized to stabilize the enzyme, localize LpL in specific capillary beds, and route lipoprotein lipids to the underlying tissues. To test these hypotheses in vivo, we created mice expressing a human LpL minigene (hLpLHBM) carrying a mutated heparin-binding site. Three basic amino acids in the carboxyl terminal region of LpL were mutated, yielding an active enzyme with reduced heparin binding. Mice expressing hLpLHBM accumulated inactive human LpL (hLpL) protein in preheparin blood. hLpLHBM rapidly lost activity during a 37°C incubation, confirming a requirement for heparin binding to stabilize LpL. Nevertheless, expression of hLpLHBM prevented the neonatal demise of LpL knockout mice. On the LpL-deficient background hLpLHBM expression led to defective targeting of lipids to tissues. Compared with mice expressing native hLpL in the muscle, hLpLHBM transgenic mice had increased postprandial FFAs, decreased lipid uptake in muscle tissue, and increased lipid uptake in kidneys. Thus, heparin association is required for LpL stability and normal physiologic functions. These experiments confirm in vivo that association with HSPGs can provide a means to maintain proteins in their stable conformations and to anchor them at sites where their activity is required.

Authors

E. Peer Lutz, Martin Merkel, Yuko Kako, Kristan Melford, Herbert Radner, Jan L. Breslow, André Bensadoun, Ira J. Goldberg

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Rat chylomicron, Intralipid, and palmitate turnover studies. (a) Rat chy...
Rat chylomicron, Intralipid, and palmitate turnover studies. (a) Rat chylomicrons were labeled in vivo with (3H)triolein, collected as described in Methods, and injected into the tail vein of hLpLHBM/LpL0 (n = 5) and hLpL/LpL0 (n = 5) male mice. Blood was collected 2, 4, and 10 minutes after injection. Total plasma volume was calculated as 2.75% of body weight. Data are expressed as percentage of injected dose (ID). (b) A 100 μl aliquot of the plasma from the 10-minute time point was lipid extracted and separated by TLC. The bars show the 3H dpm per ml plasma for the indicated lipid. (PL, phospholipids; FA, fatty acids; FC, free cholesterol; CE, cholesterol esters). (c) Ten minutes after injection of labeled rat chylomicrons or Intralipid (injected into four hLpLHBM/LpL0 and four hLpL/LpL0 female mice), the mice were perfused with PBS and the indicated organs were taken out. Lipids were extracted with chloroform-methanol 2:1 (42) and counted. The data are expressed as percentage of hLpL/LpL0 dpm/g tissue. (d) (3H)palmitate was complexed to fatty acid–free BSA and injected into four hLpLHBM/LpL0 and four hLpL/LpL0 male mice. Mice were bled at the indicated time points. Data are expressed as percentage of injected dose. AP ≤ 0.02; BP ≤ 0.05. Cholest., cholesterol; chol.ether, cholesterol ether.