Cholesterols conversion

Partial summary of lipoprotein metabolism in humans. I to VII are sites of action of hypolipidemic drugs. I, stimulation of bile acid and/or cholesterol fecal excretion II, stimulation of lipoprotein lipase activity III, inhibition of VLDL production and secretion IV, inhibition of cholesterol biosynthesis V, stimulation of cholesterol secretion into bile fluid VI, stimulation of cholesterol conversion to bile acids VII, increased plasma clearance of LDL due either to increased LDL receptor activity or altered lipoprotein composition. CHOL, cholesterol IDL, intermediate-density lipoprotein. 

Homig, D., and Weiser, H., 1976, Ascorbic acid and cholesterol Effect of graded oral intakes on cholesterol conversion to bile acids in guinea-pigs, Experientia 32 687-689. 

Pig, i. Some steps in the sequence of the cholesterol conversion to bile acid conjugates ... 

Whether changes in the composition of the diet influence the conjugating enzyme activity directly or only influence the conjugation capacity by means of changes of the substrate supply to the liver is so far not known. Xor have any unequivocal results been presented which answer the question as to whether the bile acid conjugation reaction has any importance for the regulation of the rate of cholesterol conversion to bile acids. 

FIGURE 26 10 The biosyn thetic conversion of squa lene to cholesterol proceeds through lanosterol Lano sterol IS formed by enzyme catalyzed cyclization of the 2 3 epoxide of squalene... 

The conversion of lanosterol to cholesterol involves 19 steps and is described in the article Cholesterol Biosynthesis Lanosterol to Cholesterol on pp 377-384 in the March 2002 issue of the Journal of Chemical Education... 

Enzymatic Conversion of Cholesterol. A decrease of cholesterol in meat products in the future may be possible through the conversion of cholesterol [57-88-5] to coprosterol [560-68-9] which is not absorbed readily in the intestine. Cholesterol reductase can be isolated from alfalfa leaves and cucumber leaves (53). Treatment of meat animals might involve an injection of this ensyme immediately prior to slaughter, allowing for the conversion of a portion of the membrane-bound cholesterol into coprostanol. 

The conversion of cholesterol (2) to pregnenolone [145-13-1] (78) is accomplished primarily through enzymatic systems in the adrenocortical and gonadal mitochondria. This conversion appears to be rate-limiting and therefore is regarded as the control point for the entire steroid hormone... 

L-Tyrosine metabohsm and catecholamine biosynthesis occur largely in the brain, central nervous tissue, and endocrine system, which have large pools of L-ascorbic acid (128). Catecholamine, a neurotransmitter, is the precursor in the formation of dopamine, which is converted to noradrenaline and adrenaline. The precise role of ascorbic acid has not been completely understood. Ascorbic acid has important biochemical functions with various hydroxylase enzymes in steroid, dmg, andhpid metabohsm. The cytochrome P-450 oxidase catalyzes the conversion of cholesterol to bUe acids and the detoxification process of aromatic dmgs and other xenobiotics, eg, carcinogens, poUutants, and pesticides, in the body (129). The effects of L-ascorbic acid on histamine metabohsm related to scurvy and anaphylactic shock have been investigated (130). Another ceUular reaction involving ascorbic acid is the conversion of folate to tetrahydrofolate. Ascorbic acid has many biochemical functions which affect the immune system of the body (131). 

Like the a2ole derivatives, it inhibits the biosynthesis of ergosterol. However, naftifine [65472-88-0] does not inhibit the cytochrome P-450 dependent C-14-demethylase, but the epoxidation of squalene. Squalene epoxidase cataly2es the first step in the conversion of squalene via lanosterol to ergosterol in yeasts and fungi or to cholesterol in mammalian cells. The squalene epoxidase in C. albicans is 150 times more sensitive to naftifine, C2 H2 N, than the en2yme in rat fiver (15). Naftifine is available as a 1% cream. 

The preparation of 7,7-d2-cholesterol in 1950 was the first example of deuterium incorporation into steroids via desulfurization of mercaptals with deuterated Raney nickel. A substantially modified version of this reaction subsequently became the first widely used method for site-specific insertion of two deuteriums in place of a carbonyl oxygen. This conversion consists of the preparation of a mercapto derivative (84 85), which usually... 

Carbonates and carbamates are reported to be intermediate in stability and easier to prepare than xanthates. " They can conveniently be prepared directly from the alcohol in high yield and give clean conversion to olefins. Cholesta-3,5-diene, for example, can be readily obtained via the phenylcar-bamate (114) or ethylcarbonate (115) of cholesterol. Such esters appear to have been somewhat neglected as synthetic intermediates. 

Conversion of Lanosterol to Cholesterol Requires 20 Additional Steps... 

We hear a lot these days about the relationships between saturated fats, cholesterol, and heart disease. What are the facts It s well established that a diet rich in saturated animal fats often leads to an increase in blood serum cholesterol, particularly in sedentary, overweight people. Conversely, a diet-lower in saturated fats and higher in polyunsaturated fats leads to a lower serum cholesterol level. Studies have shown that a serum cholesterol level greater than 240 mg/dL (a desirable value is <200 mg/dL) is correlated with an increased incidence of coronary artery disease, in which cholesterol deposits build up on the inner walls of coronary arteries, blocking the flow of blood to the heart muscles. 

The biomimetic approach to total synthesis draws inspiration from the enzyme-catalyzed conversion of squalene oxide (2) to lanosterol (3) (through polyolefinic cyclization and subsequent rearrangement), a biosynthetic precursor of cholesterol, and the related conversion of squalene oxide (2) to the plant triterpenoid dammaradienol (4) (see Scheme la).3 The dramatic productivity of these enzyme-mediated transformations is obvious in one impressive step, squalene oxide (2), a molecule harboring only a single asymmetric carbon atom, is converted into a stereochemically complex polycyclic framework in a manner that is stereospecific. In both cases, four carbocyclic rings are created at the expense of a single oxirane ring. 

Lithocholic add costs 2 or 3 times more than cholesterol. Thus, although the yields are slightly lower with cholesterol, it is cheaper to use it Furthermore, cholesterol is more widely available and in greater quantities than lithocholic add. These two factors tend to favour the use of cholesterol. Lithocholic add does have the advantages, however, of being more water soluble and is, therefore, more easily supplied to cultures in aqueous media. The costs of recovery of die desired product from the reaction brew are also commercially important. The point we are making in this in-text activity is that in selecting a substrate we need to consider more than simply the conversion effidency and the cost of the substrate. 

HMG-CoA-Reductase Inhibitors. Figure 1 Mechanism of action of statins - cholesterol synthesis pathway. The conversion of acetyl CoA to cholesterol in the liver. The step of cholesterol biosynthesis inhibited by HMG-CoA reductase inhibitors (statins) is shown. 

Steroids, e.g. cholesterol, triolein, androsterone sugars, e.g. fructose, glucose, ribose amino acids, pyrimidines, purines, alkaloids 110-150°C, 2-12 h Conversion to fluorescent derivatives by heating. [5]... 

About 1 g of cholesterol is ehminated from the body per day. Approximately half is excreted in the feces after conversion to bile acids. The remainder is excreted as cholesterol. Coprostanol is the principal sterol in the... 

Testiculat androgens are synthesized in the interstitial tissue by the Leydig cells. The immediate precursor of the gonadal steroids, as for the adrenal steroids, is cholesterol. The rate-limiting step, as in the adrenal, is delivery of cholesterol to the inner membrane of the mitochondria by the transport protein StAR. Once in the proper location, cholesterol is acted upon by the side chain cleavage enzyme P450scc. The conversion of cholesterol to pregnenolone is identical in adrenal, ovary, and testis. In the latter two tissues, however, the reaction is promoted by LH rather than ACTH. 

Angiotensin II binds to specific adrenal cortex glomerulosa cell receptors. The hormone-receptor interaction does not activate adenylyl cyclase, and cAMP does not appear to mediate the action of this hormone. The actions of angiotensin II, which are to stimulate the conversion of cholesterol to pregnenolone and of corticosterone to 18-hydroxycorticosterone and aldosterone, may involve changes in the concentration of intracellular calcium and of phospholipid metabolites by mechanisms similar to those described in Chapter 43. 

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