Inhibition and promotion of cholesterol crystallization by protein fractions from normal human gallbladder bile

Pooled, normal human gallbladder biles were initially separated on a molecular sieving chromatography column to remove soluble mucin glycoproteins as well as high molecular weight proteins (greater than 200,000). The remaining lower molecular weight proteins and other bile components were then examined by lectin affinity chromatography with four different types of lectin. The separated bound fractions were compared for inhibiting and promoting activities with a newly devised sensitive cholesterol crystal growth assay and for differences in electrophoretic patterns on SDS-gels. Protein factors (presumably glycoproteins) were found to have both inhibiting and promoting activities, even in the absence of cholesterol gallstone disease. The promoting effect was indicated by shortened crystal detection times and increases in crystal growth rate; whereas the inhibiting effect was indicated by decreases in crystal growth rate and reductions in the final crystal concentration as determined by the growth assay. Affinity chromatography mitigated the major problems of removing both lipids and pigment from the glycoproteins. In addition, partial purification of bound fractions with potent cholesterol crystal nucleation-altering activity can be obtained by this technique.     

Contraceptive steroids increase cholesterol in bile: mechanisms of action

Contraceptive steroids increase the risk of acquiring cholesterol gallstones. The factors responsible include an increase in cholesterol saturation of bile and an increase in rate of secretion of cholesterol into bile. The goal of this study was to investigate the mechanism(s) of these increases in biliary cholesterol. During the use of contraceptive steroids, cholesterol saturation of gallbladder bile and the amount of cholesterol secreted per mole of bile acid increased (P less than 0.05 and P less than 0.02, respectively). Cholesterol absorption, cholesterol synthesis, chylomicron remnant clearance, and the concentration of plasma and lipoprotein lipids were not altered by contraceptive steroids. Despite this apparent lack of effect, important correlations were present during steroid use. LDL (low density lipoprotein) cholesterol increased as dietary cholesterol increased (r = 0.58, P less than 0.025). Cholesterol synthesis correlated directly with VLDL cholesterol concentration (r = 0.64, P less than 0.01), biliary cholesterol secretion (r = 0.68, P less than 0.01) and with molar percent cholesterol in bile (r = 0.49, P = 0.06). Chylomicron remnant clearance also correlated with cholesterol secretion (r = 0.85, P less than 0.001). As either remnant uptake or synthesis increased, the effect of the other source of hepatic cholesterol on biliary cholesterol secretion diminished. These relationships were not observed in the same subjects when they were not taking the hormones. The findings suggest that both newly synthesized and dietary cholesterol contribute to the cholesterol secreted in bile. This is consistent with the hypothesis that cholesterol for secretion into bile and VLDL is derived from a common metabolic pool of free cholesterol. It is proposed that contraceptive steroids exert their effect on biliary cholesterol by increasing cholesterol entering the pool and/or by inhibiting hepatic ACAT (acylcoenzyme A:cholesterol acyltransferase) activity, a known effect of progesterone, so that an increase in free cholesterol entering the pool leads to an increase in output.     

The use of solid 13C nuclear magnetic resonance for the characterization of cholesterol and bilirubin pigment composition of human gallstones

The new magic-angle spinning and cross polarization techniques for obtaining a ¹³C solid NMR spectrum are applied to the characterization of human cholesterol, mixed cholesterol-pigment, calcium bilirubinate and bilirubin pigment gallstones. The stones divide into two general classes: the cholesterol stones and the bilirubin pigment stones. The cholesterol stones are very similar to each other whereas the bilirubin pigment stones exhibit considerably more variation in spectral features. The importance of other material and polymerization in the bilirubin pigment stones is discussed.     

Inhibition of glycollate metabolism by amino-oxyacetate: Effects on pigment formation in higher plants

In greening leaf segments amino-oxyacetate inhibited both chlorophyll and carotenoid formation by ca 60 % at 0.5 mM inhibitor concentration. In greening tissue serine: glyoxylate aminotransferase was the only enzyme of the glycollate pathway whose activity was markedly decreased after inhibitor treatment. The inhibition of pigment formation in barley and maize could be alleviated by glyoxylate, pyruvate and acetaldehyde; in the latter case there is probably a preferential reaction with inhibitor which displaces it from combination with enzymic pyridoxal 5′-phosphate.     

Spontaneous gallstone formation in deer mice: interaction of cholesterol,bile acids,and dietary fiber

A study of the physiologic and ecologic factors involved in a spontaneous seasonal gallstone cycle of deer mice (Peromyscus maniculatus gambelii) was conducted at the Tulelake National Wildlife Refuge (California, USA) from March 1991 to June 1992. The specific hypothesis examined was whether or not seasonal increases in dietary fiber intake provides the necessary conditions for a solubility defect, or supersaturation mechanism, resulting in precipitation of cholesterol gallstones. Results indicated that in addition to the seasonal gallstone prevalence cycle, these deer mice exhibit significant seasonal cycling in serum cholesterol, serum bile acids, fecal bile acids, and diet composition. These physiologic and dietary cycles were phase-advanced 3 mo over the gallstone prevalence cycle, indicating an approximate 3 mo time period for gallstone formation under field conditions. Further, seasonal dietary fiber (plant material and seeds) was positively correlated with both serum cholesterol and the fecal bile acids. This suggests that in wild deer mice, variations in dietary fiber may significantly affect the resorption of bile acids, thereby providing a potential physiologic and nutritional mechanism for spontaneous cholesterol gallstone formation.     

Dirofilaria immitis: identification and partial characterization of parasite antigens in the serum of infected dogs

We have recently developed a sensitive and specific immunodiagnostic test for canine Dirofilaria immitis infection based on detection of soluble parasite antigens in dog sera by monoclonal antibody-based enzyme immunoassay. In addition to their importance as markers of infection, these antigens may contribute to the pathogenesis of heartworm disease in dogs. In the present study, a variety of methods were used to identify and characterize circulating D. immitis antigens. Two antigens were identified in infected dog sera that formed lines of identity in rocket-line immunoelectrophoresis with soluble antigens extracted from adult D. immitis. Circulating D. immitis antigens were also demonstrated in infected dog sera by immunoblot analysis with polyclonal and monoclonal antibodies. These antigens had apparent molecular weights that ranged from 50 to 250 kDa. Most of the circulating D. immitis antigens contained the epitope defined by monoclonal antibody 1418BF2.1 which is used in our enzyme immunoassay for circulating D. immitis antigen. Studies of parasite antigens released during in vitro culture indicated that the circulating D. immitis antigens in dog sera that are detected by our enzyme immunoassay are primarily derived from adult female worms.     

Bilirubin diglucuronide formation by rat liver microsomes: demonstration by affinity and thin layer chromatography of bile pigment tetrapyrroles

The conjugates formed in vitro by bilirubin UDP-glucuronyl transferase were studied by examining reaction products as intact tetrapyrroles, rather than as dipyrrolic azoderivatives. Bile pigments were extracted from conventional microsomal enzyme reaction mixtures by affinity chromatography over albumin-agarose, eluted with 50% ethanol, and separated by a silica gel thin layer chromatographic system. In the presence of UDPGA, native and activated microsomal preparations all formed both bilirubin mono- and diglucuronides from unconjugated bilirubin, and bilirubin diglucuronide from bilirubin monoglucuronide. No significant non-enzymatic conversion of mono- to diglucuronide occurred without UDPGA, or in the presence of denatured enzyme. Hence, bilirubin diglucuronide is a major product of bilirubin-UDP-glucuronyl transferase.     

The apoprotein fraction of the bile lipoprotein complex: isolation, partial characterization and phospholipid binding properties

A bile apoprotein fraction (Apo BLC) was isolated by preparative isoelectric focusing (I.E.F.) from the detergent-free form of the bile lipoprotein complex (BLC). Analytical I.E.F. of Apo BLC yields a characteristic and reproducible pattern of two narrow acidic bands (pI 4,8-5,0). This apoprotein presents a strong tendency to undergo self-aggregation in aqueous buffer. A low molecular weight constituent of Apo BLC has been isolated after gel filtration, its mean Mw is estimated by SDS-PAGE at 7,500 daltons. The binding capacity of Apo BLC for phospholipids was investigated on dimyristoylphosphatidylcholine liposomes by gel filtration and zone electrophoresis. The resulting structures, larger than the original single-shelled vesicles, acquire and anodic electrophoretic mobility. Apo BLC has a weaker affinity for lysophosphatidylcholines: these phospholipids decrease the degree of aggregation of the apoprotein. These studies contribute additional data concerning the high affinity of Apo BLC for phosphatidylcholines, which are the major phospholipid constituents of bile. The discussion deals with the fact that association of Apo BLC with bile phosphatidylcholines may present some implications in the pathogeny of LpX and in the process of intestinal fat absorption.     

Nitrated fatty acids: mechanisms of formation, chemical characterization, and biological properties

Nitrated derivatives of unsaturated fatty acids are formed under oxidative and nitrative stress conditions, and are detected and structurally characterized in cell membranes, cardiac tissue, human plasma, and urine. Nitro-fatty acids display pleiotropic activities, including modulation of macrophage activation, prevention of leukocyte and platelet activation, and promotion of blood vessel relaxation. However, mechanisms of formation and levels reached in inflammatory milieu are poorly characterized. In this review, we discuss potential mechanisms of formation of nitro-fatty acids and their key chemical and biochemical properties. A major focus is to analyze nitrated lipids as novel signaling mediators leading to secondary changes in protein function via electrophilic-based modifications as well as inhibition of inflammatory cell function, thus representing the convergence of lipid and nitric oxide signaling pathways.     

Revertants of a Chinese hamster ovary cell mutant resistant to suppression by an analogue of cholesterol: isolation and partial biochemical characterization

A highly efficient selection procedure was developed for isolating revertants of Chinese hamster ovary (CHO) cell mutants resistant to suppression by 25-hydroxy-cholesterol. The procedure is based on the fact that the specific polyene antibiotic amphotericin B caused a lethal porous complex formation with membrane cholesterol only in cholesterol-rich cells. The wild-type cells and the revertant cells switched to grow from fetal calf serum medium to delipidated fetal calf serum medium for approximately 1 day became deficient in cellular cholesterol content. These cells, unlike the cholesterol-rich mutant cells, became much less sensitive to amphotericin B cytotoxicity. The spontaneous reversion frequency of a previously reported 25-hydroxycholesterol-resistant cell clone, 25-RA [Chang, T.-Y., & Limanek, J.S. (1980) J. Biol. Chem. 255, 7787-7795], was found to be approximately 3 X 10(-6), a frequency comparable to other single gene mutations of CHO cells. Biochemical analyses of three of these revertants showed that all defects manifested in 25-RA cells reverted back in parallel, a result suggesting that these observed defects in 25-RA cells are due to a single mutation event, thus supporting the hypothesis (Chang & Limanek, 1980) that a common controlling factor may be involved in mediating the suppressive action(s) of the cholesterol analogue on various cholesterogenic enzyme activities. The function of this common controlling factor is rendered abnormal in 25-RA cells by mutation.     

Enzyme-independent nitric oxide formation during UVA challenge of human skin: characterization, molecular sources, and mechanisms

Many of the local UV-induced responses including erythema and edema formation, inflammation, premature aging, and immune suppression can be influenced by nitric oxide synthase (NOS)-produced NO which is known to play a pivotal role in cutaneous physiology. Besides NOS-mediated NO production, UV radiation might trigger an enzyme-independent NO formation in human skin by a mechanism comprising the decomposition of photo-reactive nitrogen oxides. Therefore, we have examined the chemical-storage forms of potential NO-generating agents, the mechanisms and kinetics of their decomposition, and their biological relevance. In normal human skin specimens we find nitrite and S-nitrosothiols (RSNO) at concentrations 25- or 360-fold higher than those found in plasma of healthy volunteers. UVA irradiation of human skin leads to high-output formation of bioactive NO due to photo-decomposition of RSNO and nitrite which represents the primary basis for NO formation during UVA exposure. Interestingly, reduced thiols strongly augment photo-decomposition of nitrite and are essential for maximal NO release. The enzyme-independent NO formation found in human skin opens a completely new field in cutaneous physiology and will extend our understanding of mechanisms contributing to skin aging, inflammation, and cancerogenesis.     

Cholesterol gallstone dissolution in bile. Dissolution kinetics of crystalline cholesterol monohydrate by conjugated chenodeoxycholate-lecithin and conjugated ursodeoxycholate-lecithin mixtures: dissimilar phase equilibria and dissolution mechanisms

Using compressed discs and microcrystals of cholesterol monohydrate, we evaluated the mechanisms and kinetics of dissolution in conjugated bile salt-lecithin solutions. In stirred conjugated ursodeoxycholate-lecithin and cheno-deoxycholate-lecithin solutions, dissolution of 10,000-psi discs was micellar and linear with time for 10 hours. The dissolution rate constants (k) decreased in proportion to the lecithin content and dissolution rates and k values were appreciably smaller in conjugated ursodeoxycholate-lecithin solutions. After dissolution for 5 to 10 days the discs incubated with ursodeoxycholate-lecithin systems became progressively transformed into macroscopic liquid crystals. Unstirred dissolution of 3,000-psi discs in "simulated" human bile containing physiological lecithin concentrations gave apparent k values that decreased in the following order: ursodeoxycholate-rich >/= chenodeoxycholate-rich > normal. In most cases the discs incubated with ursodeoxycholate-rich bile became covered with a microscopic liquid-crystalline layer. With 20-25 moles % lecithin, these layers eventually dispersed into the bulk solution as microscopic vesicles. During dissolution of microcrystalline cholesterol in conjugated ursodeoxycholate-lecithin systems, a bulk liquid-crystalline phase formed rapidly (within 12 hours) and the final cholesterol solubilities were greater than those in conjugated chenodeoxycholate-lecithin micellar systems. Prolonged incubation of cholesterol microcrystals with pure lecithin or lecithin plus bile salt liposomes did not reproduce these effects. Condensed ternary phase diagrams of conjugated ursodeoxycholate-lecithin-cholesterol systems established that cholesterol-rich liquid crystals constituted an equilibrium precipitate phase that coexisted with cholesterol monohydrate crystals and saturated micelles under physiological conditions. Similar phase dissolution-relationships were observed at physiological lecithin-bile salt ratios for a number of other hydrophilic bile salts (e.g., conjugated ursocholate, hyocholate, and hyodeoxycholate). In contrast, liquid crystals were not observed in conjugated chenodeoxycholate-lecithin-cholesterol systems except at high (nonphysiological) lecithin contents. Based on these and other results we present a molecular hypothesis for cholesterol monohydrate dissolution by any bile salt-lecithin system and postulate that enrichment of bile with highly hydrophilic bile salts will induce crystalline cholesterol dissolution by a combination of micellar and liquid crystalline mechanisms. Since bile salt polarity can be measured and on this basis the ternary phase diagram deduced, we believe that the molecular mechanisms of cholesterol monohydrate dissolution as well as the in vivo cholelitholytic potential of uncommon bile salts can be predicted.-Salvioli, G., H. Igimi, and M. C. Carey. Cholesterol gallstone dissolution in bile. Dissolution kinetics of crystalline cholesterol monohydrate by conjugated chenodeoxycholate-lecithin and conjugated ursodeoxycholate-lecithin mixtures: dissimilar phase equilibria and dissolution mechanisms.     

Dual-function of thiocyanate on nitrite-induced formation of reactive nitrogen oxide species in human oral cavity: Inhibition under neutral and enhancement under acidic conditions

Salivary nitrate is reduced to nitric oxide (NO) via nitrite in the human oral cavity. The nitrite and NO formed can be transformed to reactive nitrogen oxide species (RNOS). In this investigation, RNOS formed in mixed whole saliva and its fractions were detected by the oxidation of aminophenyl fluorescein (APF) and the transformation of 3-amino-4-monomethylamino-2′,7′-difluorofluorecein (DAF-FM) to its triazol form (DAF-FMT). Nitrite-induced oxidation of APF and formation of DAF-FMT increased as pH was decreased from 7 to 5 and SCN^? inhibited the oxidation of APF and the formation of DAF-FMT around neutral pH and enhanced at pH about 5. The SCN^?-dependent inhibition was due to the suppression of salivary peroxidase and the enhancement was due to the formation of NOSCN from HNO₂ and SCN^?. It is deduced that the increase in the concentrations of nitrite and H⁺ in the oral cavity may result in the enhanced formation of RNOS.     

Marmoset red blood cell receptor for membrane-associated complement components is not related to human CR1: partial characterization of the C3-binding proteins responsible for the spontaneous rosette formation between marmoset red blood cells and human leukocytes

Cells from all the human B-lymphoblastoid cell lines tested and most human monocytes form rosettes with marmoset red blood cells (MaRBC). Because previous reports suggested the involvement of complement components in this phenomenon, the mechanism of rosette formation and the eventual similarities between the MaRBC receptor and the CR1 receptor present on human erythrocytes have been analyzed herein. The binding of MaRBC to human leukocytes strongly differs from the immune adherence phenomenon: rabbit anti-human CR1 did not react with MaRBC and the MaRBC receptor-binding activity is Ca2+-dependent. Rosette formation required intact energy metabolism and cytoskeleton integrity of leukocytes. Our attempts to purify the receptor from MaRBC membranes revealed the absence of CR1. Nevertheless, C3-binding proteins were isolated by selective desorption by Sepharose iC3 column chromatography. A three-band pattern was observed under reduced conditions with 74,000, 70,000, and 53,000 molecular weights. It was not possible to further separate these components. This protein complex inhibited the rosette phenomenon between MaRBC and both Raji and U-937 cells, exhibited a very poor cofactor activity, and had no decay-accelerating activity toward the classical C3 convertase. This material did not cross-react with antibodies directed to human proteins. These results showed that erythrocytes from new world monkeys do not express a receptor analogous to the human CR1, but expressed C3-binding protein with low cofactor activity that could recognize membrane-associated complement components.