| For medical practitioners and the general public - Cholesterol Journal Article Catalog. |
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| The risk of colorectal adenomatous polyp in relation to serum total cholesterol levels in Japanese men classified by age group Kamiya, N., T. Sakata, et al. (2000), Sangyo Eiseigaku Zasshi 42(3): 97-101. Abstract: In order to investigate the relationship between the risk of colorectal cancer and serum total cholesterol (TC) levels, we studied the relationship between the risk of colorectal adenomatous polyp and high TC levels in Japanese men aged from 40 to 59 at a manufacturing company. We first diagnosed 283 subjects as having adenomatous polyp (AD) or normal (C), identified by means of an immunological fecal occult blood detection test and total colonofiberscopic examination (TCF), and then selected 94 subjects after excluding the patients with diseases possibly influencing TC. We classified the subjects into two age groups (40-49 and 50-59) and conducted a statistical analysis of AD and C groups by means of a two tailed t-test. The mean values for TC (DTC), which had been obtained within 3 months before TCF, were significantly different (p < 0.001 95% CI 15.79-48.49) for those in their 40s, but were not different for those in their 50s. In order to check the stability of the data, we analyzed the mean values for DTC and BTC, which had been obtained within 15 months. The results showed the same trend for those in their 40s (p = 0.001 95% CI 10.76-40.87). The mean DTC and BTC values were again not significantly different for those in their 50s. We further divided the subjects into the lower (-181 mg/dl) and higher (209 mg/dl-) DTC values and conducted further statistical analysis with Fisher's exact test. The results were significant in the 40-49 age group (p = 0.004), in the odds ratio (13.75 95% CI 2.32-81.49), but showed no significant difference in the 50-59 age group. The mean LDL-cholesterol values within 3 months before TCF were significantly different in the 40-49 age group (p < 0.001 95% CI 15.22-47.70) and were not different in the 50-59 age group. There was no statistical difference in the mean values for HDL-cholesterol, triglyceride and body mass index in either age group. From these results, it can be concluded that the risk of colorectal adenomatous polyp was associated with a higher serum total cholesterol level in the 40s, and seemed to indicate a close relationship with the risk of colorectal cancer. |
| The risk to develop NIDDM is related to the fatty acid composition of the serum cholesterol esters Vessby, B., A. Aro, et al. (1994), Diabetes 43(11): 1353-7. Abstract: This investigation was undertaken to study whether the risk to develop non-insulin-dependent diabetes mellitus (NIDDM) among 50-year-old men during a 10-year follow-up period was related to the fatty acid composition of their serum cholesterol esters. There were highly significant differences in the initial health survey between the fatty acid composition in serum in subjects who remained normoglycemic (n = 1,753) and in those who later developed NIDDM (n = 75). The main differences were that the latter had higher proportions of saturated fatty acids and palmitoleic acid (16:1 omega-7), a low proportion of linoleic acid (18:2 omega-6), and a relatively high content of gamma-linolenic (18:3 omega-6) and dihomo-gamma-linolenic (20:3 omega-6) acids in the serum cholesterol esters. The picture was similar also after adjusting for differences in body mass index. In a logistic model, a high proportion of dihomo-gamma-linolenic acid remained a significant contributor to the development of diabetes, along with the height of the insulin index, the blood glucose concentration at 60 min, and the fasting insulin concentration. The increased risk to develop NIDDM related to the serum cholesterol ester fatty acid composition may be mediated by diet and/or genetic factors. |
| The role of age on the cholesterol-metabolizing enzymes and lipid levels in chick plasma and liver microsomes after cholesterol enriched diet cessation Segovia, J. L., M. Garcia-Gonzalez, et al. (1994), Biochem Mol Biol Int 34(1): 93-100. Abstract: Chicks of two age groups (11 and 21 days-old) were fed a cholesterol enriched diet administered either from hatching or for only 6 hours (9:00-15:00). Afterwards, the cholesterol was removed from the diet and we analysed hepatic Acyl-coenzyme A:cholesterol acyltransferase (ACAT) and 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase activities, plasma cholesterol levels and hepatic microsomal cholesterol content up to a day and a half. The treatments raised plasma and microsomal cholesterol levels in both age groups, increases in the older group exceeding those of the younger chicks. After removal of the cholesterol diet, both groups recovered by the middle of the next day, reaching values similar to those of control-chick groups. The ACAT activity showed a relationship with the microsomal cholesterol levels although did not return to similar levels than those of control microsomes. This correlation was not observed in HMG-CoA reductase. In general, differences in returning to the control values depended on the developmental stage of the chick. |
| The role of apolipoprotein A-I helix 10 in apolipoprotein-mediated cholesterol efflux via the ATP-binding cassette transporter ABCA1 Panagotopulos, S. E., S. R. Witting, et al. (2002), J Biol Chem 277(42): 39477-84. Abstract: Recent studies of Tangier disease have shown that the ATP-binding cassette transporter A1 (ABCA1)/apolipoprotein A-I (apoA-I) interaction is critical for high density lipoprotein particle formation, apoA-I integrity, and proper reverse cholesterol transport. However, the specifics of this interaction are unknown. It has been suggested that amphipathic helices of apoA-I bind to a lipid domain created by the ABCA1 transporter. Alternatively, apoA-I may bind directly to ABCA1 itself. To better understand this interaction, we created several truncation mutants of apoA-I and then followed up with more specific point mutants and helix translocation mutants to identify and characterize the locations of apoA-I required for ABCA1-mediated cholesterol efflux. We found that deletion of residues 221-243 (helix 10) abolished ABCA1-mediated cholesterol efflux from cultured RAW mouse macrophages treated with 8-bromo-cAMP. Point mutations in helix 10 that affected the helical charge distribution reduced ABCA1-mediated cholesterol efflux versus the wild type. We noted a strong positive correlation between cholesterol efflux and the lipid binding characteristics of apoA-I when mutations were made in helix 10. However, there was no such correlation for helix translocations in other areas of the protein as long as helix 10 remained intact at the C terminus. From these observations, we propose an alternative model for apolipoprotein-mediated efflux. |
| The role of cholesterol absorption and hepatic cholesterol content in high and low responses to dietary cholesterol and fat in pedigreed baboons (Papio species) Kushwaha, R. S., K. S. Rice, et al. (1993), Metabolism 42(6): 714-22. Abstract: Selective breeding has produced baboon families with low and high plasma cholesterol responses to dietary cholesterol and fat. We used 12 high- and 12 low-responding (mainly in low-density lipoprotein LDL cholesterol) pedigreed baboons to determine whether cholesterol absorption and hepatic cholesterol concentration are associated with these responses. We measured cholesterol absorption first on the chow diet, which was low in cholesterol and fat, and after 3 and 13 weeks on the challenge diets, which contained 0.45 mg cholesterol/kcal and 40% of calories as either coconut oil or corn oil. Plasma, lipoprotein, and hepatic cholesterol concentrations were measured 1 week after cholesterol absorption measurements. High-responding baboons had higher percentage cholesterol absorption than low-responding baboons on both chow and challenge diets, regardless of the type of dietary fat. Both high and low responders had higher percentage cholesterol absorption with corn oil than with coconut oil. High responders also had higher hepatic cholesterol concentrations than low responders on chow and after consuming the challenge diets for 4 weeks. After consuming the challenge diets for 14 weeks, low responders fed coconut oil had hepatic cholesterol levels equal to those of high responders, while low responders fed corn oil continued to have low hepatic cholesterol levels. Thus, percentage cholesterol absorption is consistently higher in high-responding baboons regardless of diet, but hepatic cholesterol concentration varies with duration of challenge and type of fat. The results suggest that both cholesterol absorption and hepatic cholesterol concentration regulate cholesterolemic responses to diet, but by different mechanisms. |
| The role of cholesterol accumulation in prosthetic vascular graft anastomotic intimal hyperplasia Baumann, D. S., M. Doblas, et al. (1994), J Vasc Surg 19(3): 435-45. Abstract: PURPOSE: To demonstrate that modulation of plasma cholesterol concentrations affects prosthetic vascular graft anastomotic intimal hyperplasia (AIH), aortic grafts were examined histologically and biochemically in 41 rabbits. METHODS: Twenty-seven rabbits were fed standard rabbit diet, whereas 14 were fed cholesterol-supplemented diet to induce hypercholesterolemia. RESULTS: A smooth muscle cell proliferative response, similar to AIH in humans, was seen equally at the proximal and distal anastomoses. However, surface area and thickness of AIH were significantly greater in rabbits with hypercholesterolemia. Anastomotic tissue cholesterol concentrations were fifteenfold higher in rabbits with hypercholesterolemia than in rabbits with normal cholesterol concentrations and anastomotic cholesterol concentrations were fivefold higher than in the aorta away from the graft in rabbits with hypercholesterolemia. Preferential deposition of radioiodinated dilactitol tyramine coupled to low-density lipoproteins, but not albumin, was demonstrated in anastomotic areas and grafts of rabbits with normal cholesterol concentrations as well. Surface area and thickness of AIH correlated closely with plasma and tissue cholesterol concentrations. CONCLUSIONS: Oxidized products of lipoproteins have been shown to stimulate production of growth factors that cause smooth muscle cell proliferation, migration, and synthetic function. It is likely they play an important part in prosthetic vascular graft AIH, similar to their role in atherogenesis. |
| The role of cholesterol and glycosylphosphatidylinositol-anchored proteins of erythrocyte rafts in regulating raft protein content and malarial infection Samuel, B. U., N. Mohandas, et al. (2001), J Biol Chem 276(31): 29319-29. Abstract: Human erythrocytes are terminally differentiated, nonendocytic cells that lack all intracellular organelles. Here we show that their plasma membranes contain detergent-resistant membrane rafts that constitute a small fraction (4%) of the total membrane protein, with a complex mixture of proteins that differentially associate with rafts. Depletion of raft-cholesterol abrogates association of all proteins with no significant effect on cholesterol:protein ratios in the rest of the membrane, lipid asymmetry, deformability, or transport properties of the bilayer, indicating that cholesterol is critical for protein assembly into rafts and suggesting that rafts have little influence on several erythrocyte functions. Erythrocytes from patients with paroxysmal nocturnal hemoglobinuria, which lack glycosylphosphatidylinositol-anchored proteins, show significant elevation in raft-cholesterol but no increase in raft protein association, suggesting that raft assembly does not require glycosylphosphatidylinositol-anchored proteins, raft proteins do not bind directly to cholesterol, and only threshold levels of raft-cholesterol are critical for protein recruitment. Loss of glycosylphosphatidylinositol-anchored proteins had no effect on erythrocytic infection by malarial parasite or movement of raft markers into the parasite's vacuole. However, infection is blocked following raft-cholesterol disruption, suggesting that erythrocyte rafts can be functionally exploited and providing the first evidence for the involvement of host rafts in an apicomplexan infection. |
| The role of cholesterol and intermediary metabolites of its synthesis in intensive care and parenteral nutrition Zadak, Z., R. Hyspler, et al. (2000), Vnitr Lek 46(11): 776-81. Abstract: Hypocholesterolaemia is a frequent and typical phenomenon of many acute situations such as injury, severe infection associated with sepsis and septic shock, catabolic situations after serious operations, in myocardial infarction and neoplastic diseases. This phenomenon cannot be explained only by malnutrition or energy deficiency although they may participate in the development of hypocholesterolaemia. In the development of the mentioned acute conditions participates according to our opinion also impaired synthesis of cholesterol as well as of intermediary metabolites of its biosynthesis (isoprene, squalene, lanosterol, and lathosterol). Evidence was provided that deprivation of these metabolites is frequent, very marked and statistically significant. Some precursors of cholesterol biosynthesis are extremely important for normal processes in the cell and as mediators (isoprene, farnesyl diphosphate, squalene).Their deficiency is a serious disorder which must be diagnosed in time. It is important to define the patients and conditions where a serious deficiency of these metabolites develops regularly and to seek ways how to treat deprivation of the mentioned metabolites. |
| The role of cholesterol and phosphatidylcholine on very low density lipoprotein secretion from rat hepatocytes Hayashi, K., K. Nakashima, et al. (1990), Nippon Shokakibyo Gakkai Zasshi 87(10): 2393-9. Abstract: The role of cholesterol and phosphatidylcholine on hepatic very low density lipoprotein secretion was investigated with rat hepatocytes. Hepatic very low density lipoprotein secretion (apo B, apo E, cholesterol, triglyceride, phosphatidylcholine) was decreased by the reduction of hepatic phosphatidylcholine content. However, cholesterol loading into hepatocytes did not affect hepatic very low density lipoprotein secretion. Hepatic apolipoprotein contents were constant and were not influenced by a change of hepatic cholesterol and phosphatidylcholine contents. These results suggest that lipids, which are constituents of lipoproteins, play different roles on hepatic very low density lipoprotein secretion. |
| The role of cholesterol and sphigomyelin in tyrosine phosphorylation of proteins and capping of Fcgamma receptor II Drzewiecka, A., K. Kwiatkowska, et al. (1999), Acta Biochim Pol 46(1): 107-16. Abstract: Cross-linking of cell surface receptors by multivalent ligands, e.g. by antibodies, evokes their clustering -- patching. Subsequently, these clusters can be translocated by the acto-myosin machinery toward one pole of the cell and assembly cap. Patching of FcgammaRII in U937 cells correlates with tyrosine phosphorylation of several proteins while cap assembly correlates with their dephosphorylation. To study the mechanism of activation of tyrosine kinases during FcgammaRII activation we disturbed the organization of the putative plasma membrane microdomains by depletion of membrane cholesterol and sphingomyelin. Cholesterol was removed with the use of beta-cyclodextrin while sphingomyelin was decomposed by exogenous sphingomyelinase. Cyclodextrin at 5-10 mM removed about 70% of cholesterol from the cells and abolished the assembly of FcgammaRII caps thereby arresting the receptors at the patching stage. Similarly, 70 mU/ml sphingomyelinase inhibited cap formation by 60%. Cholesterol and sphingomyelin depletion also suppressed the tyrosine phosphorylation of proteins which accompanied cross-linking of FcgammaRII. The observations indicate that cholesterol and sphingomyelin can control the interactions of tyrosine kinases with clustered FcgammaRII. |
| The role of cholesterol and statins in Alzheimer's disease Miller, L. J. and R. Chacko (2004), Ann Pharmacother 38(1): 91-8. Abstract: OBJECTIVE: To briefly discuss the impact of elevated total and low-density-lipoprotein cholesterol levels, as well as the potential relationship of hydroxymethylglutaryl coenzyme A reductase inhibitor (statin) use, on the development of Alzheimer's disease (AD). DATA SOURCES: Biomedical literature was accessed through MEDLINE and International Pharmaceutical Abstracts (1966-June 2003). The authors independently reviewed literature for possible inclusion in this article. STUDY SELECTION AND DATA EXTRACTION: Clinical studies were selected and reviewed from the data sources, with special emphasis on those dealing with statin use and AD. DATA SYNTHESIS: The impact of AD is significant, as it is rapidly becoming one of our country's most debilitating and costly diseases. Data from epidemiologic trials indicate that statins may have some protective effect against the development of AD. These trials also allude to theories regarding possible mechanisms of action for this use, data implicating possible superiority of one statin over another, and their lack in certain populations, specifically the very old elderly population. CONCLUSIONS: Preliminary evidence suggests that statins may offer a protective effect against the development of AD. However, review of the literature does not lend credence to the use of statins in the general nondemented population without hyperlipidemia. Potential confounding variables have not been considered in the majority of trials. Placebo-controlled clinical trials are ongoing and should yield more definitive results. |
| The role of cholesterol efflux in regulating the fertilization potential of mammalian spermatozoa Travis, A. J. and G. S. Kopf (2002), J Clin Invest 110(6): 731-6. |
| The role of cholesterol in activating lipid peroxidation in platelets Gurevich, V. S., L. V. Shatilina, et al. (1992), Biokhimiia 57(2): 267-74. Abstract: The relationship between the cholesterol (Ch) content and the concentration of lipid peroxidation (LPO) products in activated platelets and the effect of these parameters on the structure-function characteristics of platelet membranes were studied. It was found that esterified Ch activates free radical processes occurring in platelets. Nonesterified Ch does not induce the production of primary products of LPO (dienoic conjugates) but promotes the accumulation of a secondary LPO metabolite, malonic dialdehyde, this reaction being mediated via indirect mechanisms. The higher (in comparison with normal) orderliness and orientation of membranes in platelets reflect the increase in the concentration of dienoic conjugates and nonesterified Ch. The observed differences in the aggregability of platelets are due to the changes in the Ch content as well as to the "rigidity" of blood platelets. |
| The role of cholesterol in atherosclerosis and its potential management by dietary fiber Kohn, I. J. and L. G. Ribeiro (1991), Arq Bras Cardiol 56(3): 173-84. |
| The role of cholesterol in chronic blepharitis Shine, W. E. and J. P. McCulley (1991), Invest Ophthalmol Vis Sci 32(8): 2272-80. Abstract: Chronic blepharitis has been a difficult disease to define either microbiologically or biochemically. Sterols from meibomian secretions of normal subjects and patients were analyzed, and important differences were observed. Based on analyses of these secretions, two significantly different (P less than 0.001) types of normal subjects were found, those with and those without cholesterol esters Norm(CP) and Norm(CA), respectively. All patients' secretions contained cholesterol esters. Evidence was obtained which suggests that oxysterols may control the ester cholesterol accumulation. Furthermore, only when cholesterol esters were present did wax and sterol esters containing unsaturated fatty acids accumulate. Over 90% of these unsaturated fatty acids were normal (unbranched); the rest were iso-fatty acids. Preliminary results also suggest that the ester fatty alcohols are much more complex than previously reported; seven alcohols were common to all samples analyzed. Additionally, highly oxygenated alcohols were detected, especially in the meibomian keratoconjunctivitis (MKC) disease group. The MKC samples also contained an alcohol (mass, M/Z 378) not present in any of the other samples analyzed. Based on analysis of variance and linear-regression models, it was determined that the long-chain (C20-28) fatty acids were more important in determining disease signs. Furthermore, in the MKC group, the ratio of unsaturated C18 fatty acids to cholesterol in the wax and sterol esters was significantly different (P less than 0.05) from the Norm(CP) group. The authors discuss the fact that rabbit meibomian secretions are stable, despite containing a very high percentage of ester sterols, and relate this to their high percentage of branched-chain fatty acids and low percentage of unsaturated fatty acids.(ABSTRACT TRUNCATED AT 250 WORDS) |
| The role of cholesterol in mycoplasma membranes Dahl, J. (1993), Subcell Biochem 20: 167-88. |
| The role of cholesterol in pathogenesis of Alzheimer's disease: dual metabolic interaction between amyloid beta-protein and cholesterol Michikawa, M. (2003), Mol Neurobiol 27(1): 1-12. Abstract: The implication that cholesterol plays an essential role in the pathogenesis of Alzheimer's disease (AD) is based on the 1993 finding that the presence of apolipoprotein E (apoE) allele epsilon;4 is a strong risk factor for developing AD. Since apoE is a regulator of lipid metabolism, it is reasonable to assume that lipids such as cholesterol are involved in the pathogenesis of AD. Recent epidemiological and biochemical studies have strengthened this assumption by demonstrating the association between cholesterol and AD, and by proving that the cellular cholesterol level regulates synthesis of amyloid beta-protein (Abeta). Yet several studies have demonstrated that oligomeric Abeta affects the cellular cholesterol level, which in turn has a variety of effects on AD related pathologies, including modulation of tau phosphorylation, synapse formation and maintenance of its function, and the neurodegenerative process. All these findings suggest that the involvement of cholesterol in the pathogenesis of AD is dualistic-it is involved in Abeta generation and in the amyloid cascade, leading to disruption of synaptic plasticity, promotion of tau phosphorylation, and eventual neurodegeneration. This review article describes recent findings that may lead to the development of a strategy for AD prevention by decreasing the cellular cholesterol level, and also focuses on the impact of Abeta on cholesterol metabolism in AD and mild cognitive impairment (MCI), which may result in promotion of the amyloid cascade at later stages of the AD process. |
| The role of cholesterol in rod outer segment membranes Albert, A. D. and K. Boesze-Battaglia (2005), Prog Lipid Res 44(2-3): 99-124. Abstract: The photoreceptor rod outer segment (ROS) provides a unique system in which to investigate the role of cholesterol, an essential membrane constituent of most animal cells. The ROS is responsible for the initial events of vision at low light levels. It consists of a stack of disk membranes surrounded by the plasma membrane. Light capture occurs in the outer segment disk membranes that contain the photopigment, rhodopsin. These membranes originate from evaginations of the plasma membrane at the base of the outer segment. The new disks separate from the plasma membrane and progressively move up the length of the ROS over the course of several days. Thus the role of cholesterol can be evaluated in two distinct membranes. Furthermore, because the disk membranes vary in age it can also be investigated in a membrane as a function of the membrane age. The plasma membrane is enriched in cholesterol and in saturated fatty acids species relative to the disk membrane. The newly formed disk membranes have 6-fold more cholesterol than disks at the apical tip of the ROS. The partitioning of cholesterol out of disk membranes as they age and are apically displaced is consistent with the high PE content of disk membranes relative to the plasma membrane. The cholesterol composition of membranes has profound consequences on the major protein, rhodopsin. Biophysical studies in both model membranes and in native membranes have demonstrated that cholesterol can modulate the activity of rhodopsin by altering the membrane hydrocarbon environment. These studies suggest that mature disk membranes initiate the visual signal cascade more effectively than the newly synthesized, high cholesterol basal disks. Although rhodopsin is also the major protein of the plasma membrane, the high membrane cholesterol content inhibits rhodopsin participation in the visual transduction cascade. In addition to its effect on the hydrocarbon region, cholesterol may interact directly with rhodopsin. While high cholesterol inhibits rhodopsin activation, it also stabilizes the protein to denaturation. Therefore the disk membrane must perform a balancing act providing sufficient cholesterol to confer stability but without making the membrane too restrictive to receptor activation. Within a given disk membrane, it is likely that cholesterol exhibits an asymmetric distribution between the inner and outer bilayer leaflets. Furthermore, there is some evidence of cholesterol microdomains in the disk membranes. The availability of the disk protein, rom-1 may be sensitive to membrane cholesterol. The effects exerted by cholesterol on rhodopsin function have far-reaching implications for the study of G-protein coupled receptors as a whole. These studies show that the function of a membrane receptor can be modulated by modification of the lipid bilayer, particularly cholesterol. This provides a powerful means of fine-tuning the activity of a membrane protein without resorting to turnover of the protein or protein modification. |
| The role of cholesterol in Shh signaling and teratogen-induced holoprosencephaly Incardona, J. P. and H. Roelink (2000), Cell Mol Life Sci 57(12): 1709-19. Abstract: Holoprosencephaly, or an undivided forebrain, is a complex brain malformation associated with Sonic hedgehog (Shh) mutations. Other causes of holoprosencephaly have converged upon the Shh signaling pathway: genetic and pharmacologic impairment of cholesterol synthesis, and the action of the steroidal alkaloid cyclopamine. This review focuses on recent studies aimed at determining how Shh signaling is affected by these causes of holoprosencephaly, whether they involve a common mechanism and the role played by cholesterol. Cholesterol is potentially important for both biogenesis of Shh and in signal transduction in Shh-responsive cells. Teratogens that induce holoprosencephaly appear to affect Shh signal transduction rather than Shh biogenesis. Analysis of these agents and other compounds that affect various aspects of cellular cholesterol distribution indicates that the role of cholesterol in Shh signal transduction is novel and complicated. The similarity of the Shh receptor, Patched (Ptc), to the Niemann-Pick Cl protein, which is involved in the vesicular trafficking of cholesterol, provides insight into the role of cholesterol and the action of compounds like cyclopamine. |
| The role of cholesterol in the activity of pneumolysin, a bacterial protein toxin Nollmann, M., R. Gilbert, et al. (2004), Biophys J 86(5): 3141-51. Abstract: The mechanism via which pneumolysin (PLY), a toxin and major virulence factor of the bacterium Streptococcus pneumoniae, binds to its putative receptor, cholesterol, is still poorly understood. We present results from a series of biophysical studies that shed light on the interaction of PLY with cholesterol in solution and in lipid bilayers. PLY lyses cells whose walls contain cholesterol. Using standard hemolytic assays we have demonstrated that the hemolytic activity of PLY is inhibited by cholesterol, partially by ergosterol but not by lanosterol and that the functional stoichiometry of the cholesterol-PLY complex is 1:1. Tryptophan (Trp) fluorescence data recorded during PLY-cholesterol titration studies confirm this ratio, reveal a significant blue shift in the Trp fluorescence peak with increasing cholesterol concentrations indicative of increasing nonpolarity in the Trp environment, consistent with cholesterol binding by the tryptophans, and provide a measure of the affinity of cholesterol binding: K(d) = 400 +/- 100 nM. Finally, we have performed specular neutron reflectivity studies to observe the effect of PLY upon lipid bilayer structure. |