Sterol metabolism during germination of conidia of Aspergillus fumigatus.

The sterol content of germinating conidia of the opportunistic pathogenic fungus Aspergillus fumigatus has been correlated with germination phase and sensitivity to polyene antibiotics. The sterol and sterol ester contents of walls did not change during germination. The sterol ester content of membranes and cell sap remained constant during germination, whereas the sterol content increased during the outgrowth of germ tubes. On the basis of differential extraction studies it was concluded that the loss of resistance to polyenes that occurred in the early stages of swelling of conidia during germination was not due to a movement of sterol or sterol ester out of the wall. Radioactive-labelling experiments demonstrated that, although the amounts of conidial wall sterol and sterol ester did not change during germination, they were metabolically active. Changes in the turnover rate of wall and membrane sterol and sterol ester during germination were investigated and their relationship to a possible mechanism for the change from resistance to sensitivity to polyene antibiotics is discussed.     

Multiple functions for sterols in Saccharomyces cerevisiae

Analyses with a yeast sterol auxotroph indicated that there are at least four different levels of function for sterol which have been designated sparking, critical domain, domain and bulk. Growth of yeast sterol auxotrophs on cholestanol is precluded unless minute amounts of ergosterol are available. We have designated this phenomenon the sparking of growth, in which cholestanol satisfies an overall membrane sterol requirement and ergosterol fulfills a high specificity sparking function. The critical domain role for sterol is observed under conditions of lanosterol supplementation where low levels of ergosterol (10-times those necessary for sparking on cholestanol) are required for growth. The sterol functions designated domain and bulk are illustrated by assessing cellular free sterol levels and plasma membrane properties of a sterol auxotroph after growth on different concentrations of exogenously supplied sterol. Plasma membranes isolated from auxotrophs grown on domain or bulk levels of sterol underwent no lipid thermotropic transitions, while plasma membranes from cells grown on critical domain levels of sterol underwent a lipid thermotropic transition, when analyzed by steady-state fluorescence anisotropy.     

Endosperm sterol phenotype and germination in wheat

Free and conjugated sterols of endosperm, coats, scutellum, coleoptile and roots have been analysed at different germination stages in two wheat cultivars with different endosperm sterol phenotypes. It seems that sterol metabolism of the developing tissues, namely coleoptile and roots, is not affected by the sterol conjugation profile of the endosperm. Enough sterol is present in the mature embryo to supply the germinating axis during the observation period (144 hr at 16°). The data suggest that sterol is transferred from scutellum to coleoptile and roots during germination.     

Specific fragmentation of natural inhibitor of mitochondrial ATPase by thrombin

The ability of cholestanol (5α-cholestan-3β-ol) to support growth of two independently derived sterol auxotrophs, FY3 and GL7, has been examined. Growth on this stanol was precluded unless minute quantities of sterol were also available. Contaminating sterol in most cholestanol preparations or excess sterol in the inoculum used in growth studies could provide the required sterol in quantities capable of sustaining growth through an entire culture cycle. Evidence is presented for multiple functions of sterols in $\text{Saccharomyces}\text{cerevisiae}$.     

Sterol, protein and lipid trafficking in Chinese hamster ovary cells with Niemann-Pick type C1 defect

We studied the trafficking of sterols, lipids and proteins in Niemann-Pick type C (NPC) cells. The NPC is an inherited disorder involving the accumulation of sterol and lipids in modified late-endosome/lysosome-like storage organelles. Most sterol accumulation studies in NPC cells have been carried out using low-density lipoprotein (LDL) as the sterol source, and it has been shown that sterol efflux from late endosomes is impaired in NPC cells. In this study, we used a fluorescent sterol analog, dehydroergosterol, which can be quickly and efficiently delivered to the plasma membrane. Thus, we were able to study the trafficking kinetics of the non-LDL-derived sterol pool, and we found that dehydroergosterol accumulates in the storage organelles over the course of several hours in NPC cells. We also found that dialkylindocarbocyanine lipid-mimetic analogs that recycle efficiently from early endosomes in wild-type cells are targeted to late endosomal organelles in NPC cells, and transferrin receptors recycle slowly and inefficiently in NPC cells. These data are consistent with multiple trafficking defects in both early and late endosomes in NPC cells.     

Dietary sterol preference in the silkworm, Bombyx mori

Since insects are unable to biosynthesize sterols de novo, sterols must be obtained from dietary sources. Although it has been reported that beta-sitosterol is crucial for larval growth in the silkworm, Bombyx mori, little has been investigated concerning the dietary selection of sterols by Bombyx larvae. Here, we demonstrate that Bombyx larvae have the following sterol preference: beta-sitosterol > ergosterol > cholesterol = stigmasterol. Interestingly, Bombyx larvae preferred ergosterol, an inhibitory sterol on larval growth, indicating that sterol selection following first contact of the diet with the mouth part might be different from the sterol recognition mechanism present in sterol metabolism.     

Sterols from Gynostemma pentafillum

The sterol fraction of Gynostemma pentafillum contains beta-sito sterol and isofucosterol. The identification of these compounds has been carried out through NMR and MS data.     

Free and bound sterols in seedlings of Cucumis sativus

Free sterols, sterol esters, sterol monoglucosides and sterol acylmonoglucosides have been obtained from 10 days old seedlings of Cucumis sativus. Free sterols and sterol esters consist mainly of Δ⁷ di- and triunsaturated sterols, whereas Δ⁷ mono-unsaturated and Δ⁵ mono- and diunsaturated sterols predominate in the glucosides and acylglucosides. Both acetates and derivatives of higher fatty acids, mainly linoleic and linolenic acids, have been found in the sterol esters. Sterol acylglucosides contain mostly saturated fatty acids, palmitic and stearic acids being the main components.     

The sterols of crustaceans: Decapods (Sub-order macrura)

• 1.1. The effects of environmental depth, geographical location, sex and seasonal changes have been studied on the sterol composition of closely related pelagic decapods.
• 2.2. In addition the sterol composition of the adult bodies have been compared with that of the eggs and the hepatopancreas.
• 3.3. The results indicated a pronounced uniformity of sterol requirements in these animals with cholesterol being easily the major structural sterol.

     

Deficiency in the Lipid Exporter ABCA1 Impairs Retrograde Sterol Movement and Disrupts Sterol Sensing at the Endoplasmic Reticulum

Cellular cholesterol homeostasis involves sterol sensing at the endoplasmic reticulum (ER) and sterol export from the plasma membrane (PM). Sterol sensing at the ER requires efficient sterol delivery from the PM; however, the macromolecules that facilitate retrograde sterol transport at the PM have not been identified. ATP-binding cassette transporter A1 (ABCA1) mediates cholesterol and phospholipid export to apolipoprotein A-I for the assembly of high density lipoprotein (HDL). Mutations in ABCA1 cause Tangier disease, a familial HDL deficiency. Several lines of clinical and experimental evidence suggest a second function of ABCA1 in cellular cholesterol homeostasis in addition to mediating cholesterol efflux. Here, we report the unexpected finding that ABCA1 also plays a key role in facilitating retrograde sterol transport from the PM to the ER for sterol sensing. Deficiency in ABCA1 delays sterol esterification at the ER and activates the SREBP-2 cleavage pathway. The intrinsic ATPase activity in ABCA1 is required to facilitate retrograde sterol transport. ABCA1 deficiency causes alternation of PM composition and hampers a clathrin-independent endocytic activity that is required for ER sterol sensing. Our finding identifies ABCA1 as a key macromolecule facilitating bidirectional sterol movement at the PM and shows that ABCA1 controls retrograde sterol transport by modulating a certain clathrin-independent endocytic process.     

24 epsilon-Methyl-5 alpha-cholestane-3 beta,5,6 beta,22r,24-pentol 6-acetate: new polyhydroxylated sterol from the soft coral Asterospicularia randalli

A monoacetylated pentahydroxylated sterol has been isolated from the soft coral Asterospicularia randalli collected at Guam Is. in the Pacific. The unusual feature of this sterol is the presence of a hydroxyl group at C-22. The structure was determined by spectral analyses of the new sterol and several transformation products. Proton-carbon correlated spectra were used to make 13C chemical shift assignments.     

8(9),22 -Ergostadiene-3 -ol, an ergosterol precursor accumulated in wild-type and mutants of yeast

Whereas wild-type strains of Saccharomyces cerevisiae can synthesize up to 7% dry weight of ergosterol, a polyene-resistant mutant has been obtained which produces no ergosterol. Instead, a C-28 methyl sterol is produced, and it has been identified as Delta(8(9),22)-ergostadiene-3beta-ol. This sterol is converted to ergosterol by wild-type yeasts and is observed transiently in cells during aerobic adaption of anaerobically grown wild-type yeasts. The new sterol is proposed as an intermediate in ergosterol biosynthesis.     

Biochemical basis of varying nystatin resistance of Saccharomyces cerevisiae and Candida maltosa mutants]

Six groups of nystatin resistant mutants of C. maltosa and of haploid and diploid Saccharomyces cerevisiae strains were obtained with the help of genetic and biochemical analysis. It has been shown that every group of the mutants was characterized by a specific level of resistance to nystatin. The dependence of the resistance level upon sterol content has been established. It has been shown that the more the structure of the sterol present differed from ergosterol the higher was the resistance level. The results obtained in vivo permit to make conclusions about the role of different functional groups of sterol molecule in the interaction with nystatin.     

Dietary Sterol Preference in the Silkworm,Bombyx mori

Since insects are unable to biosynthesize sterols de novo, sterols must be obtained from dietary sources. Although it has been reported that β-sitosterol is crucial for larval growth in the silkworm, Bombyx mori, little has been investigated concerning the dietary selection of sterols by Bombyx larvae. Here, we demonstrate that Bombyx larvae have the following sterol preference: β-sitosterol >> ergosterol > cholesterol = stigmasterol. Interestingly, Bombyx larvae preferred ergosterol, an inhibitory sterol on larval growth, indicating that sterol selection following first contact of the diet with the mouthpart might be different from the sterol recognition mechanism present in sterol metabolism.     

On the role of the sterol hydroxyl group in membranes.

The adequacy of sterol derivatives containing a blocked 3-hydroxyl group for sustaining the growth of two sterol auxotrophs has been investigated. Mycoplasma capricolum, a cholesterol-requiring bacterium, grows nearly as well on media supplemented with cholesteryl methyl ether or cholesteryl acetate as on free cholesterol. The two derivatives are recovered unchanged from the bacterial cells. Similarly, cholesteryl methyl ether or ergosteryl methyl ether replace cholesterol or ergosterol as sterol sources for a yeast mutant, strain GL7, defective in 2,3-oxidosqualene-lanosterol cyclization. During aerobic or semianaerobic growth, yeast cells demethylate some of the cholesteryl methyl ether to free cholesterol. However, cells growing on cholesterol methyl ether under strict anaerobic conditions do not produce free sterol. The bearing of these results on the postulated requirement of a free sterol hydroxyl group for membrane function is discussed. Sterol esterification does not appear to be essential for the two microbial systems.     

Arabidopsis sterol endocytosis involves actin-mediated trafficking via ARA6-positive early endosomes

BACKGROUND: In contrast to the intense attention devoted to research on intracellular sterol trafficking in animal cells, knowledge about sterol transport in plant cells remains limited, and virtually nothing is known about plant endocytic sterol trafficking. Similar to animals, biosynthetic sterol transport occurs from the endoplasmic reticulum (ER) via the Golgi apparatus to the plasma membrane. The vesicle trafficking inhibitor brefeldin A (BFA) has been suggested to disrupt biosynthetic sterol transport at the Golgi level. RESULTS: Here, we report on early endocytic sterol trafficking in Arabidopsis root epidermal cells by introducing filipin as a tool for fluorescent sterol detection. Sterols can be internalized from the plasma membrane and localize to endosomes positive for the early endosomal Rab5 GTPase homolog ARA6 fused to green fluorescent protein (GFP) (ARA6-GFP). Early endocytic sterol transport is actin dependent and highly BFA sensitive. BFA causes coaccumulation of sterols, endocytic markers like ARA6-GFP, and PIN2, a polarly localized presumptive auxin transport protein, in early endosome agglomerations that can be distinguished from ER and Golgi. Sterol accumulation in such aggregates is enhanced in actin2 mutants, and the actin-depolymerizing drug cytochalasin D inhibits sterol redistribution from endosome aggregations. CONCLUSIONS: Early endocytic sterol trafficking involves transport via ARA6-positive early endosomes that, in contrast to animal cells, is actin dependent. Our results reveal sterol-enriched early endosomes as targets for BFA interference in plants. Early endocytic sterol trafficking and recycling of polar PIN2 protein share a common pathway, suggesting a connection between plant endocytic sterol transport and polar sorting events.     

Effect on the fertility of female Drosophila of sterol metabolism in an ecological-genetic yeast-Drosophila system

The consequences of sterol deficiency in feeding of adult Drosophila females have been studied. Feeding of Drosophila on nys 1 mutant strain yeast leads to significant increase of non-developed eggs in Drosophila females. The effect of sterol deficiency on oogenesis in virgin and fertilized females has been estimated using different regimens of feeding. Possible mechanisms of arising of fertility defects are discussed.     

Sterol transport in yeast and the oxysterol binding protein homologue (OSH) family

Sterols such as cholesterol are a significant component of eukaryotic cellular membranes, and their unique physical properties influence a wide variety of membrane processes. It is known that the concentration of sterol within the membrane varies widely between organelles, and that the cell actively maintains this distribution through various transport processes. Vesicular pathways such as secretion or endocytosis may account for this traffic, but increasing evidence highlights the importance of nonvesicular routes as well. The structure of an oxysterol-binding protein homologue (OSH) in yeast (Osh4p/Kes1p) has recently been solved, identifying it as a sterol binding protein, and there is evidence consistent with the role of a cytoplasmic, nonvesicular sterol transporter. Yeast have seven such proteins, which appear to have distinct but overlapping functions with regard to maintaining intracellular sterol distribution and homeostasis. Control of sterol distribution can have far-reaching effects on membrane-related functions, and Osh proteins have been implicated in a variety of processes such as secretory vesicle budding from the Golgi and establishment of cell polarity. This review summarizes the current body of knowledge regarding this family and its potential functions, placing it in the context of known and hypothesized pathways of sterol transport in yeast.     

Genetic control of sterol esterification in developing wheat endosperm.

1. The action of gene Pln, previously characterized by the sterol ester patterns of mature whole wheat kernels, has been found to be restricted to the endosperm and not to affect the embryo, the pericarp or the seed coat. 2. The dominant allele Pln, which determines a sterol ester pattern with palmitate as the main ester, is also responsible for a low level of free sterol at maturity. A high level of free sterol is associated with the recessive allelet pln, which determines an ester pattern with linoleate as the main ester. 3. Divergence between the two phenotypes starts at about 21 days after anthesis, when cell proliferation has been completed, the aleurone layer has differentiated, and only cell enlargement is taking place. A marked increased in esterification, mainly by palmitate, which is controlled by the dominant allele, is concomitant with a sharp decrease in free sterol. 4. The increased net esterification is non-specific with respect to 4-demethyl sterols, because it affects the four main ones, namely sitosterol, stigmasterol, campesterol and cholesterol.     

Study of complex marine sterol mixtures by mass-analyzed ion kinetic energy spectrometry.

Mass-analyzed ion kinetic energy spectrometry (MIKE) is shown to be an efficient and rapid method for the analysis of complex sterol mixtures. The method has been applied to the study of the free sterol fractions of five marine and one freshwater invertebrates.