Cholesterol metabolism by purified cytochrome P-450scc is highly stimulated by octyl glucoside and stearic acid exclusively in large unilamellar phospholipid vesicles

Dhariwal, Mohan S; Jefcoate, Colin R.

doi:10.1021/bi00447a019

Cited by 17 publications

(19 citation statements)

References 46 publications

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“…in the order PC(14,10) Ͼ PC(12,8) Ͼ PC(10,6). The observed rates (V max Ͼ 30 min Ϫ1 ) are only comparable with the highest rates reported so far for micellar systems using Tween 20 as detergent (17,19) and for DOPC vesicle systems prepared by octylglucoside dialysis (2). In the latter case the high activity results from residual octylglucoside.…”

Section: Discussionmentioning

confidence: 62%

“…Both compounds seem to impact the membrane with the same structural property leading to activation of P450SCC via enhancement of CHL binding to P450SCC. Biphasicity in activity is not new; it has been already reported earlier for octylglucoside-reconstituted DOPC vesicles and interpreted as resulting from residual octylglucoside (2). An additional second phase of complex formation also has been reported for DMPC/CL vesicles (7).…”

Section: Table II Stopped Flow Kinetics Of P450scc Incorporation Intomentioning

confidence: 59%

“…[2][3][4]. Under the lipids used in reconstitution CL 1 played a special role mainly because (i) it is a typical mitochondrial lipid and (ii) it represents the most potent activator of P450SCC activity (5)(6)(7).…”

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confidence: 99%

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Branched Phosphatidylcholines Stimulate Activity of Cytochrome P450SCC (CYP11A1) in Phospholipid Vesicles by Enhancing Cholesterol Binding, Membrane Incorporation, and Protein Exchange

Kisselev

Wessel

Pisch

et al. 1998

Journal of Biological Chemistry

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Phosphatidylcholines (PCs) with branched fatty acyl chains substituted in the two positions of the main chains (branched PCs) have been shown to be potent activators of the side chain cleavage activity of cytochrome P450SCC (CYP11A1) (Schwarz, D., Kisselev, P., Wessel, R., Jueptner, O., and Schmid, R. D. (1996) J. Biol. Chem. 271, 12840 -12846). The present study reports on the effect of a series of branched PC on cholesterol binding, membrane integration, and protein exchange in large unilamellar vesicles prepared by an extrusion technique. Enzyme kinetics using vesicles as well as optical titration using a micelle system with the detergent Tween 20 demonstrate that activation is correlated with the fraction of P450SCC in the high spin form. The potency of branched PCs both to activate the enzyme and to induce spin state changes increases with increasing lengths of both the branched and main fatty acyl chains. We found that the extent as well as the rate of integration of P450SCC into vesicle membranes studied by gel chromatography and stopped flow kinetics were increased by branched PC. Finally, it is demonstrated by measurement of the enzymatic activity in primary and secondary vesicles that branched PCs are potent in retaining a very rapid exchange of P450SCC between vesicles, in contrast to cardiolipin, that partially inhibits this exchange process. The data suggest that different properties of P450SCC in membrane systems including cholesterol binding, membrane integration, and protein exchange are affected by branched PCs and probably by other phospholipids, too, and therefore must be considered in an explanation of the observed high stimulation of activity.Cytochrome P450SCC (CYP11A1) is an integral mitochondrial enzyme that is located on the matrix face of the inner membrane of mitochondria. It catalyzes the side chain cleavage of cholesterol to yield pregnenolone, the common precursor of steroid hormones. Enzymatic studies employing both solution (micelle) and membrane (vesicle) systems demonstrated stimulation of activity to varying extent by phospholipids depending on the phospholipid used, the kind of reconstitution, size of vesicles, and small amounts of impurities (for a review see Ref. and references therein and Refs. 2-4). Under the lipids used in reconstitution CL1 played a special role mainly because (i) it is a typical mitochondrial lipid and (ii) it represents the most potent activator of P450SCC activity (5-7). With regard to the mechanism of activation, CL is of further interest because of the exceptional structure of its hydrophobic part, i.e. consisting of four fatty acyl chains instead of two of most other phospholipids.It has been recently reported by us that certain branched PCs that in the structure of their hydrophobic part are similar to CL but have fully saturated acyl chains cause potent activation of P450SCC comparable only with those by CL (8). By systematic variation of the lengths of both the branched and main chains of these lipids and systematic introduction of unsaturation,...

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Section: Discussionmentioning

confidence: 62%

Section: Table II Stopped Flow Kinetics Of P450scc Incorporation Intomentioning

confidence: 59%

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Branched Phosphatidylcholines Stimulate Activity of Cytochrome P450SCC (CYP11A1) in Phospholipid Vesicles by Enhancing Cholesterol Binding, Membrane Incorporation, and Protein Exchange

Kisselev

Wessel

Pisch

et al. 1998

Journal of Biological Chemistry

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“…To study the chain dependence in greater detail, it would be interesting to use branched PCs with even longer acyl chain substituents in the 2-position; such experiments are now under way. (10,6) or PC (12,8) P450SCC-lipid interaction, vesicles made on the basis of DOPC were often used; applying these a rather high rate of enzymatic activity as compared to DMPC could be observed (1,19,22). Thus, it may be of interest to see to what extent ␣-branched PCs are capable of exerting their influence on the various properties of P450SCC reconstituted into vesicles from DOPC.…”

Section: Effect Of Branched 12-diacyl Pcs On the Catalytic Activity mentioning

confidence: 99%

“…Furthermore, it has been reported previously that reconstitution by both octylglucoside and cholate dialysis results in the formation of two main populations of vesicles, larger and smaller ones with the smaller vesicles containing significantly more P450SCC (31,32). Recently it was reported that the size of the vesicles, which in turn determines the vesicle curvature, has a large influence on the activity (22). Taken together, these findings all suggest that the curvature of the membrane plays a role for the incorporation of P450SCC and thus support our view that polymorphic lipids like CL and the branched PCs could influence P450SCC by maintenance of the membrane curvature at a value optimal for P450SCC activity.…”

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confidence: 99%

α-Branched 1,2-Diacyl Phosphatidylcholines as Effectors of Activity of Cytochrome P450SCC (CYP11A1)

Schwarz

Kisselev

Wessel

et al. 1996

Journal of Biological Chemistry

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We synthesized phosphatidylcholines with fully saturated branched fatty acyl chains substituted in the 2-positions of the main chains and studied the influence of these lipids on the activity and other properties of P450SCC in vesicle-reconstituted systems. These saturated branched lipids, with regard to the fatty acyl moiety in molecular shape similar to cardiolipin but with the headgroup of phosphatidylcholines retained, showed a stimulatory efficiency higher than any other phospholipid and at least comparable to cardiolipin. Activation is sensitive to the acyl chain structure and composition. Results suggest that the shape of the molecule at least partially plays an important role in the process of stimulation of the activity of P450SCC. Because binding of cholesterol was increased by the branched lipids monitored optically by the fraction of P450SCC in the high spin form, it was concluded that these lipids, like cardiolipin and other lipids, exert their effects by regulating the binding of cholesterol to P450SCC. These data suggest that polymorphic lipids such as branched phosphatidylcholines and cardiolipin might influence P450SCC function by maintenance of the membrane curvature at a value optimal for activity.

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Cholesterol monooxygenase (side-chain-cleaving)

Springer Handbook of Enzymes

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Cholesterol metabolism by purified cytochrome P-450scc is highly stimulated by octyl glucoside and stearic acid exclusively in large unilamellar phospholipid vesicles

Cited by 17 publications

References 46 publications

Branched Phosphatidylcholines Stimulate Activity of Cytochrome P450SCC (CYP11A1) in Phospholipid Vesicles by Enhancing Cholesterol Binding, Membrane Incorporation, and Protein Exchange

Branched Phosphatidylcholines Stimulate Activity of Cytochrome P450SCC (CYP11A1) in Phospholipid Vesicles by Enhancing Cholesterol Binding, Membrane Incorporation, and Protein Exchange

α-Branched 1,2-Diacyl Phosphatidylcholines as Effectors of Activity of Cytochrome P450SCC (CYP11A1)

Cholesterol monooxygenase (side-chain-cleaving)

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