Sterol utilization in honey bees fed a synthetic diet: Analysis of prepupal sterols

The sterols of prepupal honey bees, Apis mellifera L., from brood reared by workers fed chemically-defined synthetic diets containing cholesterol, campesterol, sitosterol, stigmasterol, 24-methylenecholesterol, or no sterol over a 12-week period were isolated, identified, and quantified. The major sterol present in each prepupal sample was 24-methylenecholesterol, but significant levels of sitosterol and isofucosterol were also present in every case, as was a very small percentage of desmosterol (usually < 1%). This is the first report of isofucosterol being identified in the sterols of the honey bee. A considerably larger percentage of each dietary sterol was found in prepupae reared by workers fed that particular sterol in the diet. This was most dramatic in the case of the cholesterol diet in which case cholesterol content increased to as much as 17.2% of the prepupal sterols, whereas cholesterol had not exceeded 2.2% in samples from other diet regimens. However, stigmasterol comprised no more than 6.3% of the total sterols in any sample from prepupae fed the stigmasterol diet. The preponderance of 24-methylenecholesterol in all prepupae, regardless of the dietary sterol provided to the workers, as well as the lesser quantities of sitosterol and isofucosterol present in all samples, suggest a unique system of utilization and metabolism of these dietary sterols by the worker bees. Apparently they make available to the brood varying amounts of unchanged dietary sterol plus considerable and fairly constant portions of 24-methylenecholesterol, sitosterol, and isofucosterol drawn from their own sterol pools.     

Sterol utilization in honey bees fed a synthetic diet: Effects on brood rearing

The dietary sterols, cholesterol, campesterol, sitosterol, stigmasterol and 24-methylenecholesterol, were tested for their ability to support brood rearing in the honey bee, Apis mellifera L., by adding them singly to a chemically-defined worker bee diet. Diet supplemented with 24-methylenecholesterol supported the greatest survival of worker bees, but diet supplemented with either 24-methylenecholesterol or cholesterol supported the production of nearly equivalent amounts of sealed brood and more than any of the other three sterols tested. Diets containing stigmasterol, sitosterol, campesterol, or no supplement produced less sealed brood, in decreasing order.     

Die quantitative verteilung der sterine und sterinderivate in organen von Solanum dulcamara

The following sterols were found in the roots, stems, leaves, unripe and ripe fruits of Solanum dulcamara: cholesterol, sitosterol, stigmasterol, campesterol, brassicasterol, isofucosterol and 24-methylenecholesterol. The most abundant components are cholesterol, sitosterol and stigmasterol (77–84%). In all parts of the plant the sterols are present in the free form and as esters, glycosides and acylated glycosides. The total sterol content and the content of combined forms were determined photometrically. In the leaves 58% of the sterols were found in the form of glycoside (26%), acylated glycoside (29%) and ester (2%). In the roots only 25% of the sterol were found in combined form. In the other organs the ratio of free and combined sterols was intermediate. In all cases, the ester fraction was the least.     

Free sterols,steryl esters,glucosides, acylated glucosides and water-soluble complexes in Calendula officinalis

In 3- and 14-day-old seedlings and in the leaves of Calendula officinalis the following sterols were identified: cholestanol, campestanol, stigmastanol, cholest-7-en-3-β-ol, 24-methylcholest-7-en-3β-ol, stigmast-7-en-3β-ol, cholesterol, campesterol, sitosterol, 24-methylcholesta-5,22-dien-3β-ol, 24-methylenecholesterol, stigmasterol and clerosterol. Sitosterol was predominant in young and stigmasterol in old tissues. Young tissues contained relatively more campesterol but in old tissues a C₂₈Δ^5,22 diene was present suggesting transformation of campesterol to its Δ^5,22 analog, similar to that of sitosterol to stigmasterol. All the identified sterols were present as free compounds and also in the steryl esters, glucosides, acylated glucosides and water-soluble complexes. The variations in the amounts of these fractions in the embryo axes and cotyledons of 3- and 14-day-old seedlings and the distribution of individual sterols among the fractions are discussed.     

Manipulation by 25-azacycloartanol of the relative percentage of C10, C9 and C8 side-chain sterols in suspension cultures of bramble cells

The addition of 25-azacycloartanol to the medium of suspension cultures of bramble cells resulted, after 6 weeks of growth, in a large decrease in the percentage of C₁₀ side-chain sterols, sitosterol and isofucosterol (83 % of the total in the control, 9 % in the treated cells), and in a spectacular increase in the percentage of C₈ side-chain sterols, cycloartenol, desmosterol and cholesterol (less than 1 % in the control, 53 % in the treated cells). In addition the relative percentage of C₉ side-chain sterols, mainly 24-methylene cholesterol increased significantly (from 16 to 37 %). A secondary effect of 25-azacycloartanol consisted in an increase of the percentage of Δ²⁴ sterols and in a decrease of the percentage of sterols with a saturated side chain. These results are in agreement with an inhibition by 25-azacycloartanol of the C-24 and C-28 methyltransferases and of the Δ²⁴ reductase.     

Sterol composition of Aureoumbra lagunensis, the Texas brown tide alga

Aureoumbra lagunensis, the alga responsible for the "Texas brown tide", contains (E)-24-propylidenecholesterol (35.7% of total sterols) as its dominant sterol, in common with other members of the Pelagophyceae. Other major sterols are stigmasterol (22.2%), sitosterol (19.2%), cholesterol (14.1%), and (24R)-24-propylcholesterol (5.2%). Trace amounts of 24-methylenecholesterol, crinosterol, clerosterol, campesterol, dihydrobrassicasterol, and 24-isopropylcholesterol were also detected.     

Sterols of organs involved in brood food production and of royal jelly in honey bees

The sterols of the organs (hypopharyngeal and mandibular glands and honey stomachs) involved in worker and queen honey bee brood food production, royal jelly and intact nurse bees were analyzed to obtain information on the selective transfer of specific sterols from one generation to the next. No appreciable increase in the percentage of 24-methylenecholesterol, relative to the total sterols isolated from intact honey bee (Apis mellifera L.), prepupae or adults, was found in the hypopharyngeal or mandibular glands or the honey stomachs from nurse bees reared in colonies fed a chemically-defined diet supplemented with 24-methylenecholesterol. The sterols of these organs contained higher levels of cholesterol than did the sterols of whole body extracts. The other major sterols, sitosterol and isofucosterol, occurred at relative concentrations comparable to whole body extracts. Also, there were higher levels of cholesterol in the sterols from glandular tissues of nurse bees maintained on pollen and sucrose solution than in sterols isolated from intact insects. In a separate study, royal jelly collected over a 6-day period had much higher relative percentages of 24-methylenecholesterol and lower levels of sitosterol and isofucosterol than did the pollen fed to these colonies. The sterols of nurse bees in the latter study had an intermediate concentration of 24-methylenecholesterol. The significance of these findings relative to the unique selective transfer of specific sterols from the diet or from endogenous sterol pools of the nurse bees from generation to generation in the honey bee is discussed.     

Biosynthesis of makisterone A and 20-hydroxyecdysone from labeled sterols by the honey bee,Apis mellifera

In an effort to determine the sterol precursor(s) of the 28-carbon ecdysteroid, makisterone A, honey bee pupae (13 days post-oviposition) were injected with radiolabeled sterols and subsequently examined for labeled ecdysteroids. High performance liquid chromatography of the pupal extracts revealed that [³H]campesterol was converted to a compound that behaved chromatographically identical to authentic makisterone A, and [¹⁴C]cholesterol was incorporated into a compound chromatographically like 20-hydroxyecdysone. No incorporation of either 24-[³H]methylenecholesterol or [¹⁴C]sitosterol into an ecdysteroid was observed. The neutral sterols of uninjected honey bee pupae contained 49.8% 24-methylenecholesterol on a relative percent basis and, with three other C²⁸ and C²⁹ sterols, accounted for over 99% of the total sterols present.     

The sterols of normal and male-sterile maize tassels during development

The steroids of normal and male-sterile (Texas type) genotypes of maize were investigated during tassel development. A bioassay for estrogen activity of the normal meiotic and postmeiotic tassels was negative, indicating estrogen activity (estrone equivalent) much less than one ng/g of plant tissue. The sterols found were cholesterol, campesterol, stigmasterol, sitosterol, and probably isofucosterol, stigmast-7-enol, and 24-methylenecholesterol. In the premeiotic, meiotic, and postmeiotic stages of both genotypes between 300 and 400 μg of C₂₈ and C₂₉ free sterols per g tassels (wet wt) were found, the proportions of the sterols being ca 45% sitosterol, 30% stigmasterol, and 13% campesterol, with less than 5% each of the remaining sterols. In all three stages before saponification more free sterols were found in the normal than in the male-sterile tassels. The differences were significant at the 95% level in the meiotic and post-meiotic stages. The amounts of these sterols derived from esters decreased from approximately 140 μg/g in the premeiotic stage to 50 μg/g in the meiotic stage, and to an undetectable amount in the postmeiotic stage. After application of cholesterol-[4-¹⁴C] to the normal and male-sterile maize leaves for 3 days at meiosis, the label was found in the free sterols and steryl esters of the leaves but only in the free sterols of the tassels.     

Dietary intake of plant sterols stably increases plant sterol levels in the murine brain

Plant sterols such as sitosterol and campesterol are frequently administered as cholesterol-lowering supplements in food. Recently, it has been shown in mice that, in contrast to the structurally related cholesterol, circulating plant sterols can enter the brain. We questioned whether the accumulation of plant sterols in murine brain is reversible. After being fed a plant sterol ester-enriched diet for 6 weeks, C57BL/6NCrl mice displayed significantly increased concentrations of plant sterols in serum, liver, and brain by 2- to 3-fold. Blocking intestinal sterol uptake for the next 6 months while feeding the mice with a plant stanol ester-enriched diet resulted in strongly decreased plant sterol levels in serum and liver, without affecting brain plant sterol levels. Relative to plasma concentrations, brain levels of campesterol were higher than sitosterol, suggesting that campesterol traverses the blood-brain barrier more efficiently. In vitro experiments with brain endothelial cell cultures showed that campesterol crossed the blood-brain barrier more efficiently than sitosterol. We conclude that, over a 6-month period, plant sterol accumulation in murine brain is virtually irreversible.     

Comparison of sterols of pollens,honeybee workers,and prepupae from field sites

Sterols from pollen collected by foraging honeybees, Apis mellifera L, at seven field sites were compared with the sterols of foraging adults and/or prepupae collected from colonies at each site. Invariably, the composition of prepupal sterols was comparable to that found in previous cage studies using chemically defined diets containing various dietary sterols: 24-methyl-enecholesterol was the major sterol; sitosterol and isofucosterol were present in lesser, but significant amounts; and a trace amount of cholesterol was identified in each sample. This occurred even though some of the pollen sterols contained little 24-methylenecholesterol, sitosterol, or isofucosterol and a preponderance of certain other sterols, such as δ⁷-stigmasten-3β-ol and δ^7,24(28)-campestadien-3β-ol in goldenrod and corn pollens, respectively. Thus the selective transfer and utilization of sterols in honeybees that have been demonstrated in cage studies with artificial diets were also shown to occur under field conditions.     

Brassinosteroid/Sterol synthesis and plant growth as affected by lka and lkb mutations of Pea

The dwarf pea (Pisum sativum) mutants lka and lkb are brassinosteroid (BR) insensitive and deficient, respectively. The dwarf phenotype of the lkb mutant was rescued to wild type by exogenous application of brassinolide and its biosynthetic precursors. Gas chromatography-mass spectrometry analysis of the endogenous sterols in this mutant revealed that it accumulates 24-methylenecholesterol and isofucosterol but is deficient in their hydrogenated products, campesterol and sitosterol. Feeding experiments using ²H-labeled 24-methylenecholesterol indicated that the lkb mutant is unable to isomerize and/or reduce the Δ²⁴⁽²⁸⁾ double bond. Dwarfism of the lkb mutant is, therefore, due to BR deficiency caused by blocked synthesis of campesterol from 24-methylenecholesterol. The lkb mutation also disrupted sterol composition of the membranes, which, in contrast to those of the wild type, contained isofucosterol as the major sterol and lacked stigmasterol. The lka mutant was not BR deficient, because it accumulated castasterone. Like some gibberellin-insensitive dwarf mutants, overproduction of castasterone in the lka mutant may be ascribed to the lack of a feedback control mechanism due to impaired perception/signal transduction of BRs. The possibility that castasterone is a biologically active BR is discussed.     

Absorbability of plant sterols and their distribution in rabbit tissues

Rabbits were fed a low cholesterol diet containing 2% plant sterols for 10 weeks to determine the absorbability of these sterols and their deposition in the tissues. We found campesterol and beta-sitosterol in the blood and tissues. The plasma campesterol levels were 4.34--13.3 mg/100 ml, whereas, beta-sitosterol levels were 0.41--1 mg/100 ml. Stigmasterol was not detected. The total plasma plant sterol concentration was about 10% of the total plasma sterol. The mean terminal plasma cholesterol concentration averaged 60% higher (55 vs. 88 mg/100 ml, P less than 0.001) than the mean initial value. Campesterol was the preponderant sterol in all tissues studied, including the aorta. Sitosterol was found in small amounts in the tissues of the abdominal organs. Stigmasterol was not detected in any tissue studied. Esterified campesterol and sitosterol were detected in trace amounts in most tissues. Campesterol and sitosterol, particularly the former, accumulated in the tissues including the aorta.     

Relationship of the neutral sterols and ecdysteroids of the parasitic mite,Varroa jacobsoni to those of the honey bee,Apis mellifera

The neutral sterols of the parasitic mite Varroa jacobsoni were compared with Apis mellifera carnica drone pupae. Analysis by GLC-mass spectrometry indicated mite sterols were reflective of the sterol composition of the drones; 24-methylenecholesterol was the major sterol in both species, with lesser amounts of sitosterol and isofucosterol. Cholesterol accounted for less than 1% of the total sterols. Ecdysteroid analyses indicated drones contained primarily makisterone A. In addition to makisterone A, mites contained ecdysone and 20-hydroxyecdysone, which accounted for over 66% of the ecdysteroid detected. These results indicate that while V. jacobsoni are apparently unable to convert dietary sterols to cholesterol, they are able to produce significant amount of C(27) ecdysteroids in a low cholesterol environment.     

Sitosterol biosynthesis in Hordeum vulgare

Excised barley embryos cultured on a nutrient medium containing methionine-[CD₃] incorporated deuterium into the newly biosynthesized sterols. Two deuterium atoms were present in 24-methylenecycloartanol, 24-methylenelophenol and campesterol and a maximum of four deuterium atoms were incorporated into 24-ethylidenelophenol, stigmasterol and sitosterol. Mevalonic acid-[2-¹⁴C(4R)4-³H₁] was utilized by the barley embryos to give 28-isofucosterol with a ³H-¹⁴C atomic ratio of 3:5 and stigmasterol and sitosterol with a ³H-¹⁴C atomic ratio of 2:5. 24-Methylenelophenol and 24-ethylidenelophenol were isolated from barley seed and 24-ethylidenelophenol-[2,4-³H₃] was incorporated into sitosterol by barley seedlings. These results show that in the production of sitosterol a 24-ethylidenesterol intermediate is produced and it is suggested that this is isomerized to give a Δ^24,(25) sterol prior to reduction to the saturated C₂₉ sterol side chain.     

High levels of plant sterols and cholesterol precursors in cerebrotendinous xanthomatosis

We measured the cholestanol, cholesterol precursor (lathosterol), and plant sterol (campesterol and sitosterol) concentrations of serum and bile in 11 patients with cerebrotendinous xanthomatosis. The mean values of serum cholestanol, lathosterol, campesterol, and sitosterol were, respectively, 8.4-, 2.5-, 2.7-, and 1.4-times higher in the patients than in normal control subjects (n = 26). Cholestanol (6.7-fold) and campesterol (3.7-fold) levels in bile (n = 4) were also elevated in the patients. There was no significant difference of serum sterol levels between patients with coronary artery disease and those without it. Chenodeoxycholic acid treatment for periods ranging from 6 months to 3 years and 4 months lowered serum lathosterol (57.7% reduction) and campesterol (57.8%) levels in parallel with cholestanol (70.8%) level, but the sitosterol level (19.7%) decreased less. Thus, increased levels of cholesterol precursor (lathosterol), plant sterols (campesterol and sitosterol), and cholestanol were found in the serum and bile in cerebrotendinous xanthomatosis. Chenodeoxycholic acid treatment effectively reduced the levels of these sterols, except for sitosterol.     

Effects of the growth retardant tetcyclacis on the sterol composition of oat (Avena sativa)

The norbornenodiazetine plant growth regulator tetcyclacis, when applied to roots of Avena sativa, caused a substantial increase in the cholesterol content of the shoots. Amounts of the C-24 alkylated sterols campesterol, stigmasterol and sitosterol all declined. A similar alteration in the sterol profile was observed for a plasma membrane preparation from the shoots. Changes in the sterol composition of root tissue were much less pronounced.     

Sterols in Laodelphax striatellus with special reference to the intracellular yeastlike symbiotes as a sterol source

Sterols were analysed to investigate the sterol source in Laodelphax striatellus and three other rice plant-sucking homopterous insects. In L. striatellus, cholesterol, 24-methylenecholesterol and β-sitosterol were detected. The host plant (rice) contained campesterol, stigmasterol and β-sitosterol. From the honeydew excreted by L. striatellus, cholesterol, β-sitosterol and negligible amounts of campesterol were recovered. Laodelphax striatellus possesses yeastlike symbiotes which can be destroyed by high temperature. Fifth instar nymphs, which have been exposed to 35°C for 3 days in their 1 st instar, showed lower cholesterol concentration and markedly reduced amounts of 24-methylenecholesterol. From the results it is concluded that L. striatellus has two sterol sources: one from the host plant and the other from the yeastlike symbiotes which appear to provide 24-methylenecholesterol.     

Effects of diet and metamorphosis upon the sterol composition of the butterfly Morpho peleides

Whole body sterol metabolism in insects has seldom been studied. We were able to design an appropriate study at a butterfly farm in Belize. We collected six larvas of butterfly (Morpho peleides), their food (leaves of Pterocarpus bayessii), and their excretions. In addition, six adult butterflies were collected. The sterols of the diet, the larva, and adult butterfly were analyzed by gas-liquid chromatography. The structures of these sterols were identified by digitonin precipitation, GC-MS, and NMR. Four sterols (cholesterol, campesterol, stigmasterol, and sitosterol) and a sterol mixture were found in the food, the body, and the excreta of the larva. The tissue sterol content of the larva was 326 microg. They consumed 276 microg of sterols per day. Their excretion was 185 microg per day as sterols. The total tissue sterol contents of the larva and butterfly were similar, but they had different sterol compositions, which indicated interconversion of sterols during development. There was a progressive increase in the cholesterol content from larva to butterfly and a decrease in the content of sitosterol and other plant sterols, which were likely converted to cholesterol. Our data indicated an active sterol metabolism in butterfly larva. Diet played an important role in determining its sterol composition. During metamorphosis, there was an interconversion of sterols. This is the first paper documenting the fecal sterol excretion in insects as related to dietary intakes.