A relation between high-density-lipoprotein cholesterol and bile cholesterol saturation.

The association of cholesterol gall stones with coronary artery disease is controversial. To investigate this possible relation at the biochemical level, bile cholesterol saturation and the plasma concentrations of triglycerides, total cholesterol, and high-density-lipoprotein cholesterol (HDL cholesterol) were measured in 25 healthy, middle-aged women. Bile cholesterol saturation index was negatively correlated with HDL cholesterol. It was positively correlated with plasma triglycerides and with total cholesterol minus HDL cholesterol. These findings provide a biochemical basis for a positive association in women between cholesterol gall stones and coronary artery disease.     

Pancreatic cholesterol esterases. 3. Kinetic characterization of cholesterol ester resynthesis by the pancreatic cholesterol esterases

The ability of cholesterol esterase to catalyze the synthesis of cholesterol esters has been considered to be of limited physiological significance because of its bile salt requirements for activity, though detailed kinetic studies have not been reported. This study was performed to determine the taurocholate, pH, and substrate requirements for optimal cholesterol ester synthesis catalyzed by various pancreatic lipolytic enzymes, including the bovine 67- and 72-kDa cholesterol esterases, human 100-kDa cholesterol esterase, and human 52-kDa triglyceride lipase. In contrast to current beliefs, cholesterol esterase exhibits a bile salt independent as well as a bile salt dependent synthetic pathway. For the bovine pancreatic 67- and 72-kDa cholesterol esterases, the bile salt independent pathway is optimal at pH 6.0-6.5 and is stimulated by micromolar concentrations of taurocholate. For the bile salt dependent synthetic reaction for the 67-kDa enzyme, increasing the taurocholate concentration from 0 to 1.0 mM results in a progressive shift in the pH optimum from pH 6.0-6.5 to pH 4.5 or lower. In contrast, cholesterol ester hydrolysis by the 67-, 72-, and 100-kDa enzymes was characterized by pH optima from 5.5 to 6.5 at all taurocholate concentrations. Optimum hydrolytic activity for these three enzyme forms occurred with 10 mM taurocholate. Since hydrolysis is minimal at low taurocholate concentrations, the rate of synthesis actually exceeds hydrolysis when the taurocholate concentration is less than 1.0 mM. The 52-kDa enzyme exhibits very low cholesterol ester synthetic and hydrolytic activities, and for this enzyme both activities are bile salt independent. Thus, our data show that cholesterol esterase has both bile salt independent and bile salt dependent cholesterol ester synthetic activities and that it may catalyze the net synthesis of cholesterol esters under physiological conditions.     

Intestinal cholesterol absorption.

The strong association between intestinal cholesterol absorption and total plasma cholesterol level has renewed interest in the absorptive process and stimulated the generation of new animal models. Increasingly, new studies suggest that cholesterol absorption is genetically controlled and supports a protein-mediated mechanism for cholesterol uptake into the intestinal mucosal cell. Insights into potential mechanisms are predicted to lead to novel pharmacological approaches to inhibit cholesterol absorption.     

Cellular cholesterol efflux.

Efflux of free cholesterol (FC) continues even when cellular FC mass is unchanged. This reflects a recirculation of preformed FC between cells and extracellular fluids which has multiple functions in cell biology including receptor recycling and signaling as well as cellular FC homeostasis. Total FC efflux is heterogeneous. Simple diffusion to mature high density lipoprotein (HDL), mainly via albumin as intermediate, initiates FC net transport driven by plasma lecithin:cholesterol acyltransferase activity. A second major efflux component reflects protein-facilitated transport from cell surface domains (caveolae, rafts) driven by FC binding to lipid-poor, pre-beta-migrating HDL (pre-beta-HDL). Facilitated efflux from caveolae, unlike simple diffusion, is highly regulated. Neither ABC1 (the protein defective in Tangier disease) nor other ATP-dependent transporters now appear likely to contribute directly to FC efflux. Their role is limited to the initial formation of a particle precursor to circulating pre-beta-HDL, which recycles without further lipid input from ATP-dependent transporter proteins. Lipid-free apolipoprotein A-I, previously considered a surrogate for pre-beta-HDL, has a reactivity much lower than that of native lipoprotein FC acceptors.     

Hepatic cholesterol metabolism in normo- and hyperlipidemic patients with cholesterol gallstones.

In vivo studies have shown abnormalities in cholesterol and bile acid metabolism in primary hyperlipoproteinemia (HLP). The aim of the present investigation was to determine if the increased production of cholesterol in HLP type IV can be attributed to a correspondingly high level of the hepatic 3-hydroxy-3-methylglutaryl (HMG) CoA reductase activity and if the low cholic acid: chenodeoxycholic acid synthesis ratio in HLP type II is due to some hydroxylase deficiency. Liver biopsies from 26 normolipidemic and 25 hyperlipidemic (10 type IIa, 6 type IIb, and 9 type IV) patients undergoing elective cholecystectomy were assayed for HMG CoA reductase activity, 12 alpha-hydroxylase activity, and 25-hydroxylase activity. The HMG CoA reductase activity was normal in HLP type IIa and type IIb and was increased about twice HLP type IV (P less than 0.001). The 12 alpha- and 25-hydroxylase activities were normal in all groups of patients. The results are compatible with a normal cholesterol synthesis in the liver in HLP type II. A reduced 12 alpha- or 25-hydroxylase activity cannot explain the low production of cholic acid relative to chenodeoxycholic acid in this type of HLP. The elevated HMG CoA reductase activity found in the liver of type IV patients may, however, be part of the explanation for the elevated synthesis of cholesterol often seen in these patients.     

Pancreatic cholesterol esterases. 1. Pancreatic cholesterol esterase induction during maturation

The activities of pancreatic cholesterol esterase from calf and cow pancreas were examined in detail. A 1300-fold enhancement of enzymatic activity was found after maturation, even though cholesterol esterase activity levels in other organs did not change from the juvenile to the adult species. Radioimmunoassays also showed that the calf pancreas contained at least 100-fold less cholesterol esterase protein. Decreased amounts of protein were not due to enhanced proteolysis, since cytosol from cow pancreas degrades exogenously added cholesterol esterase faster than that from calf pancreas. Rather, enhancement of pancreatic cholesterol esterase activity associated with bovine maturation was the result of specific, increased synthesis of a 72-kDa enzyme. This labile 72-kDa cholesterol esterase species was purified to homogeneity by a two-step process in 75% yield and is the major form of bovine pancreatic cholesterol esterase (99%). A much less abundant 67-kDa species, accounting for less than 1% of total pancreatic cholesterol esterase activity, was also purified to homogeneity in a similar two-step process. These results demonstrate that a specific form of pancreatic cholesterol esterase is induced during maturation, and they bear importantly on understanding juvenile cholesterol metabolism as related to dietary absorption of this sterol.     

Mutagenic cholesterol preparations.

Naturally air-aged commercial samples of USP or reagent-grade cholesterol contain components which are mutagenic towards Salmonella typhimurium strains TA1537, TA1538 and TA98. These mutagenic components are associated with the polar cholesterol autoxidation products, but identity of the mutagenic components has not been achieved. Pure crystalline nonmutagenic cholestrol free from autoxidation products becomes mutagenic towards these strains upon heating at 70 degrees in air or following exposure to 60 Co gamma-radiation.