Compartmentalization of Cholesterol Biosynthesis

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Abstract

We have recently demonstrated that mevalonate kinase and farnesyl diphosphate (FPP) synthase are localized predominantly in peroxisomes. This observation raises the question regarding the subcellular localization of the enzymes that catalyze the individual steps in the pathway between mevalonate kinase and FPP synthase (phosphomevalonate kinase, mevalonate diphosphate decarboxylase, and isopentenyl diphosphate isomerase). These enzyme are found in the 100,000 x g supernatant fraction of cells or tissues and have been considered to be cytoplasmic proteins. In the current studies, we show that the activities of mevalonate kinase, phosphomevalonate kinase, and mevalonate diphosphate decarboxylase are equal in extracts prepared from intact cells and selectively permeabilized cells, which lack cytosolic enzymes. We also demonstrate structure-linked latency of phosphomevalonate kinase and mevalonate diphosphate decarboxylase that is consistent with a peroxisomal localization of these enzymes. Finally, we show that cholesterol biosynthesis from mevalonate can occur in selectively permeabilized cells lacking cytosolic components. These results suggest that the peroxisome is the major site of the synthesis of FPP from mevalonate, since all of the cholestrogenic enzymes involved in this conversion are localized in the peroxisome.

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Most cited references 14

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Identification of a nuclear receptor that is activated by farnesol metabolites.

B M Forman, E Goode, J. Chen … (1995)

Nuclear hormone receptors comprise a superfamily of ligand-modulated transcription factors that mediate the transcriptional activities of steroids, retinoids, and thyroid hormones. A growing number of related proteins have been identified that possess the structural features of hormone receptors, but that lack known ligands. Known as orphan receptors, these proteins represent targets for novel signaling molecules. We have isolated a mammalian orphan receptor that forms a heterodimeric complex with the retinoid X receptor. A screen of candidate ligands identified farnesol and related metabolites as effective activators of this complex. Farnesol metabolites are generated intracellularly and are required for the synthesis of cholesterol, bile acids, steroids, retinoids, and farnesylated proteins. Intermediary metabolites have been recognized as transcriptional regulators in bacteria and yeast. Our results now suggest that metabolite-controlled intracellular signaling systems are utilized by higher organisms.

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Morphological analysis of protein transport from the ER to Golgi membranes in digitonin-permeabilized cells: role of the P58 containing compartment

J Saraste, JF Balch, HW Davidson … (1992)

The glycoside digitonin was used to selectively permeabilize the plasma membrane exposing functionally and morphologically intact ER and Golgi compartments. Permeabilized cells efficiently transported vesicular stomatitis virus glycoprotein (VSV-G) through sealed, membrane-bound compartments in an ATP and cytosol dependent fashion. Transport was vectorial. VSV-G protein was first transported to punctate structures which colocalized with p58 (a putative marker for peripheral punctate pre-Golgi intermediates and the cis-Golgi network) before delivery to the medial Golgi compartments containing alpha-1,2-mannosidase II and processing of VSV-G to endoglycosidase H resistant forms. Exit from the ER was inhibited by an antibody recognizing the carboxyl-terminus of VSV-G. In contrast, VSV-G protein colocalized with p58 in the absence of Ca2+ or the presence of an antibody which inhibits the transport component NSF (SEC18). These studies demonstrate that digitonin permeabilized cells can be used to efficiently reconstitute the early secretory pathway in vitro, allowing a direct comparison of the morphological and biochemical events involved in vesicular tafficking, and identifying a key role for the p58 containing compartment in ER to Golgi transport.

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Analytical study of microsomes and isolated subcellular membranes from rat liver. I. Biochemical methods.

J Berthet, M Robbi, D THINES-SEMPOUX … (1974)

The series introduced by this paper reports the results of a detailed analysis of the microsomal fraction from rat liver by density gradient centrifugation. The biochemical methods used throughout this work for the determination of monoamine oxidase, NADH cytochrome c reductase, NADPH cytochrome c reductase, cytochrome oxidase, catalase, aminopyrine demethylase, cytochromes b(5) and P 450, glucuronyltransferase, galactosyltransferase, esterase, alkaline and acid phosphatases, 5'-nucleotidase, glucose 6-phosphatase, alkaline phosphodiesterase I, N-acetyl-beta-glucosaminidase, beta-glucuronidase, nucleoside diphosphatase, aldolase, fumarase, glutamine synthetase, protein, phospholipid, cholesterol, and RNA are described and justified when necessary.