Abstract
Mutational inactivation of NPC1 largely blocks the movement of LDL-derived cholesterol from the lysosome to the metabolically active, cytosolic pool of sterol that is the substrate for steroid hormone production. Such a block might, in theory, lead to deficiencies in circulating levels of testosterone, progesterone, and corticosterone. However, there are at least two other sources for cellular cholesterol, de novo synthesis and scavenger receptor class B type I-mediated uptake of HDL cholesteryl ester (CE). In this study, we measured the rates of net cholesterol acquisition by these three pathways in the adrenal, ovary, and testis. In all three organs, the majority (81-98%) of cholesterol acquisition came from the selective uptake of CE from HDL and de novo synthesis. Furthermore, in the npc1(-/-)mouse, the cytosolic storage pool of CE in a tissue such as the adrenal remained constant (approximately 25 mg/g). As a result of these alternative pathways, the plasma concentrations of testosterone (3.5 vs. 2.5 ng/ml), progesterone (8.5 vs. 6.7 ng/ml), and corticosterone (391 vs. 134 ng/ml) were either the same or elevated in the npc1(-/-)mouse, compared with the control animal. Thus, impairment of cholesterol acquisition through the NPC1-dependent, clathrin-coated pit pathway did not limit the availability of cholesterol substrate for steroid hormone synthesis in the steroidogenic cells.
Highlights
Mutational inactivation of Niemann Pick type C1 (NPC1) largely blocks the movement of LDL-derived cholesterol from the lysosome to the metabolically active, cytosolic pool of sterol that is the substrate for steroid hormone production
Mutation of the acidic cholesteryl ester esterase leads to a defect in the hydrolysis of esters arriving at the cell in Abbreviations: apolipoprotein B100, apoB100; CE, cholesteryl ester; LDLR, LDL receptor; NPC, Niemann-Pick disease type C; NPCIL1, Niemann-Pick type C1 Like 1; NPC1, Niemann-Pick type C1; SR-BI, scavenger receptor class B type I; TC, total cholesterol
The cholesteryl ester contained in the LDL particle is hydrolyzed to unesterified cholesterol in the lysosomal compartment by a cholesteryl ester esterase with an acidic pH optimum, but the cholesteryl ester taken up through the SR-BI pathway is hydrolyzed in the cytosol by a neutral cholesteryl ester esterase
Summary
Mutational inactivation of NPC1 largely blocks the movement of LDL-derived cholesterol from the lysosome to the metabolically active, cytosolic pool of sterol that is the substrate for steroid hormone production Such a block might, in theory, lead to deficiencies in circulating levels of testosterone, progesterone, and corticosterone. Niemann Pick type C1 Like 1 (NPC1L1) protein appears to be able to move unesterified cholesterol from a micellar solution across the cell membrane directly to the intracellular metabolically active pools [18,19,20] This pathway does not require the intervention of a cholesteryl ester esterase. Both SR-BI and LDLR function primarily in the liver and steroidogenic tissues, low levels of LDLR-dependent transport are found in many other cell types, including glia and neurons of the central nervous system [21, 22]
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