Sample purification using a C18-bonded reversed-phase cartridge for the quantitative analysis of corticosteroids in adrenal cell cultures by high-performance liquid chromatography or gas chromatography--mass spectrometry

Ultra-Sensitive Quantification of Corticosteroids in Plasma Samples Using Selective Solid-Phase Extraction and Reversed-Phase Capillary High-Performance Liquid Chromatography/Tandem Mass Spectrometry

Low-dose corticosteroids may provide a favorable benefit/risk ratio for many therapeutic applications. However, the extremely low plasma drug concentrations achieved, in conjunction with the insufficient sensitivity/ selectivity of current analytical methods, renders the evaluation of corticosteroid pharmacokinetics (PK) a significant challenge under such conditions. Furthermore, targeted therapeutic strategies involving administration by inhalation or intraocular injection could result in very low but sustained systemic corticosteroid concentrations, which must be quantified to determine potential side effects. Here we describe a robust method for the ultrasensitive quantification of corticosteroids in plasma samples. This was achieved by the combination of a selective solid-phase extraction (SPE) with a highly sensitive capillary LC (microLC)-MS/MS analysis. SPE washing and elution conditions were optimized so that target drugs are selectively extracted from plasma. By eliminating most undesirable compounds from the sample matrix, this selective SPE procedure enabled a high sample loading volume on the microLC column without compromising chromatographic performance and operational robustness and helped to achieve ultralow detection limits for the corticosteroids in plasma. The effect of microLC separation on the signal-to-noise ratio of corticosteroid peaks in plasma samples was investigated. It was found that with sufficient microLC separation, sensitivity was improved because of a decrease in matrix effects and the removal of endogenous interferences. Detection limits of four clinically important corticosteroids (budesonide, dexamethasone, triamcinolone acetonide, and dexamethasone acetate) ranged from 0.2 to 1 pg/mL in plasma, and linearity was good for all drugs in the range of 5-5000 pg/mL. Accuracy was 88-107% and the variation (CV%) was 2.3-11.1%. A limit of quantification (LOQ) of 5 pg/mL was validated for all four compounds. We applied this method to quantify the low levels of triamcinolone acetonide (TACA) in porcine plasma following suprachoroidal administration, which is necessary to estimate systemic drug exposure resulting from this novel clinical approach for treating inflammatory diseases of the eye. TACA in plasma could be quantified at low pg/mL levels for up to 90 days posttreatment. To our knowledge, this is the first practical analytical approach that can monitor plasma corticosteroids after intraocular administration, given the ultralow plasma concentrations achieved. In summary, this strategy enables PK analysis of corticosteroids in treatment regimens that result in extremely low systemic concentrations, and the approach can be extended for the sensitive quantification of other drugs.

Melanocortins and opioids modulate early postnatal growth in rats

This study was undertaken to investigate the effects of melanocortins and opioids on rat early postnatal body and organ growth. Among melanocortins tested desacetyl-alpha-melanocyte-stimulating hormone (alpha-MSH) at dosages of 0.3 and 3 micrograms/g/day was effective in stimulating neonatal growth with a weight gain of 7 and 5.6%, respectively, after 2 weeks of treatment. Likewise, a weight rise of 4.2 and 3% was obtained with 3 micrograms/g/day of both alpha-MSH and Nle4-D-Phe7 alpha-MSH. As far as opioids were concerned, while N-acetyl-beta-endorphin (beta-End) was ineffective, the activity of beta-End was dependent on dosage. Indeed, newborns treated with 0.03 microgram/g/day showed a slight, but significant, increase in weight, whereas a marked decrease in growth followed treatment with 0.3 and, mainly, 3 micrograms/g/day, with a final weight loss of 3.4 and 5.5%, respectively. All melanocortins exerted a positive action on muscular and brain trophism and, in addition, desacetyl-alpha-MSH also induced a rise of fat deposits. On the contrary, while the 0.03 microgram/g/day beta-End dose caused an increase in muscular and brain weight, the higher dosages of the opioid were detrimental, not only for muscle and brain, but also for both liver and spleen weight. A slight, although significant (P < 0.05), enhancement of serum dehydroepiandrosterone sulfate (DHEAS) level was found after the injection of 0.3 microgram/g desacetyl-alpha-MSH, whereas both the 0.3 and 3 micrograms/g doses of desacetyl-alpha-MSH and the 3 micrograms/g dose of alpha-MSH determined the rise of plasma androstenedione (P < 0.05). All tested melanocortins and opioids failed to modify the concentrations of corticosterone. Our results suggest that melanocortins and opioids can modulate early postnatal growth in rats either by direct or indirect mechanisms.

Aldosterone synthase activity in the Y-1 adrenal cell line

The Y-1 adrenal cell line was shown to produce 20 alpha-dihydroaldosterone from deoxycorticosterone. This compound was identified by GC-MS by comparison with the previously synthesized reference compound. Two other 18-hydroxylated metabolites were identified as 11 beta,18-dihydroxy-20 alpha-dihydroprogesterone from endogenous cholesterol and 18-hydroxy-20 alpha-dihydro-11-dehydrocorticosterone from DOC. The conditions necessary for the synthesis of these compounds are culturing in 20% serum-supplemented medium and repeated incubations with the substrate. The production of 11 beta-hydroxylated steroids and that of 18-oxygenated steroids is stimulated differently by ACTH and angiotensin II suggesting the expression of two different enzymes, cytochrome P-450(11)beta and cytochrome P-450aldo. The Y-1 cell line can secrete either 11 beta-hydroxylated steroids characteristic of the glucocorticoid pathway or 18-oxygenated steroids characteristic of the mineralocorticoid pathway, which in vivo are generally produced in two different zones of the adrenal cortex. This cell line should be an interesting model for the study of the molecular mechanisms regulating the expression of these two enzymes involved in the final steps of the steroidogenic pathways.

18-hydroxylation in the Y-1 adrenal cell line: response to ACTH and to culture conditions

The 18-hydroxylation of deoxycorticosterone in the Y-1 adrenal cell line was studied under various incubation and cell culture conditions and compared to 11 beta-hydroxylation. Repeated incubation of the substrate increased both 18- and 11 beta-hydroxylation in the Y-1 cells. Furthermore, both 18- and 11 beta-hydroxylation were increased with increased serum concentration and prolonged incubation time. While the increase in 11 beta-hydroxylation seemed to be independent of the type of serum, 18-hydroxylation was much more important in cells cultured in fetal or newborn calf serum supplemented medium than in those cultured in horse serum supplemented medium. As expected, ACTH treatment increased 11 beta-hydroxylation; however, it decreased 18-hydroxylation. The different regulation of these two hydroxylating pathways by ACTH, point to a heterogeneity of the cytochrome P-450(11) beta of the Y-1 cell line.

Effect of rat plasma high density lipoprotein with or without apolipoprotein E on the cholesterol uptake and on the induction of the corticosteroid biosynthetic pathway in newborn rat adrenocortical cell cultures

High density lipoprotein (HDL) has been shown to induce the cellular accumulation of cholesterol esters and the biosynthetis of 21-hydroxysteroids (corticosteroids) newborn rat adrenocortical cells cultivated in serum-free medium. In order to identify the component(s) of HDL responsible for these effects, we investigated the ability of rat HDL subfractions and HDL with or without apolipoprotein E to deliver cholesterol to cells and to stimulate the steroid biosynthetic pathways in adrenal cultured cells. The total cholesterol uptake from HDL2 was greater than that observed with HDL rich in apolipoprotein E (HDL1 and HDLc). Furthermore, the increase of the ratio between 21-hydroxysteroids and reductive metabolites of progesterone was higher with HDL2 than with HDL1 or HDLc. The results of competitive studies between LDL and HDL subfractions indicate that adrenal cells take up cholesterol from HDL2 and LDL by separate mechanisms but that LDL and HDL containing apolipoprotein E share the same uptake processes. In experiments with various concentrations of HDLc or HDL without apolipoprotein E, the adrenal cells displayed a higher affinity for rat HDLc than for rat HDL without apolipoprotein E. However, HDL without apolipoprotein E produced a higher enhancement of the cholesterol cell content and was 3-fold more effective in stimulating 21-hydroxylated steroid production than rat HDLc. Although these findings suggest a participation of HDL with apolipoprotein E in the HDL interaction with rat adrenal cells, the predominant effect on these cells is devoluted to HDL containing mainly apolipoprotein A.

19-Hydroxylated steroids, new metabolites produced by the Y1 adrenal cell line

The expression of 19-hydroxylase activity in the Y1 adrenal cell line is reported here for the first time. Two new metabolites from the incubation of deoxycorticosterone (DOC) with these cells, 19-hydroxy-20 alpha-dihydroDOC and 19-hydroxy-20 alpha-dihydrocorticosterone, have been identified. The most important of the two is the 11 beta,19-dihydroxylated metabolite, which is produced in smaller amounts than 18-hydroxy-20 alpha-dihydrocorticosterone. A third 19-hydroxylated metabolite was identified as 19-hydroxy-20 alpha-dihydroprogesterone, produced from the cholesterol in the serum supplemented medium. These results show that the cytochrome P-450(11)beta of this cell line expresses 19-hydroxylase activity in addition to 11 beta- and 18-hydroxylase activities, as do those of other species.

Aldosterone biosynthesis induced by ACTH and angiotensin II in newborn rat adrenocortical cells transfected by c-EJ-Ha-ras oncogene

Adrenocortical cells were obtained by fractionated trypsination of newborn rat adrenal glands and transfected with a plasmid containing the EJ/T24-Ha-ras oncogene. Isolation of adhesive cells led to a proliferative cell line with an overexpression of 21 kDa ras protein. These cells incubated with corticosterone or deoxycorticosterone as the precursor produced a high level of 18-hydroxycorticosterone and aldosterone as identified by gas chromatography- mass spectrometry. ACTH and angiotensin II increased the basal production of aldosterone nineteen-fold and six-fold respectively. Under ACTH stimulation the ratio between aldosterone and 18-hydroxycorticosterone production was 1:3. The transformation of corticosterone under angiotensin II stimulation yielded up to 41% of 18-hydroxycorticosterone (4.7 micrograms/mg of cell protein per 24h) and 4.4% of aldosterone (0.5 microgram/mg of cell protein per 24h) in a low potassium concentration medium (6 mmol/l). To our knowledge this is the first report of continuous proliferative adrenocortical cells producing aldosterone.

Liquid chromatographic analysis of prednisolone, prednisone and their 20-reduced metabolites in perfusion media

A reversed-phase liquid chromatographic assay was developed to quantitate prednisolone, prednisone and the 20 alpha-dihydro and 20 beta-dihydro reduced metabolites of both parent compounds in tissue culture media from in vitro perfusions of the human placental lobule. Steroids were extracted from perfusate, using reversed-phase cartridges, with average recoveries of 95.2% or greater. The internal standard for the analyses was 6 alpha-methylprednisolone. In this assay cortisol coelutes with prednisolone, however, no other significant interferences were found. Assay of each steroid was linear in the range 0-1 microgram/ml. Intra-assay coefficients of variation were measured at 10 and 750 ng/ml with ranges of 3.4% (20 alpha-dihydroprednisone) to 8.8% (20 beta-dihydroprednisolone) and 4.1% (20 beta-dihydroprednisone) to 8.8% (prednisone). The corresponding inter-assay coefficients of variation were 3.3% (20 alpha-dihydroprednisone) to 9.1% (20 beta-dihydroprednisolone) and 1.9% (prednisolone) to 3.5% (prednisone). The analyses utilized two C18 columns which were linked together and maintained at 40 degrees C.

Evidence of formation of isomeric methoximes from 20-oxosteroids

The formation and gas chromatographic behavior of syn- and anti-isomers in position 20 of the methoxime-trimethylsilyl (MO-TMS) derivatives of many 20-oxo and 3,20-dioxo-21-hydroxysteroids is reported. The existence of such isomers was established from the gas chromatographic (GC) and mass spectrometric analysis of the MO-TMS derivatives of 3 alpha,21-dihydroxy-5 beta-pregnan-20-one and its 17 alpha-epimer. The degree of separation during GC analysis of the syn- and anti-isomers in position 20, as well as those in position 3, is associated to the position of additional hydroxyl groups on the steroid ring. These data are very important for the location of oxygenated substituents such as 2 alpha/2 beta, 6 alpha/6 beta, 11 beta, 16 alpha, 17 alpha, 18, 19 or 21-hydroxyl groups during structural studies of 20-oxo and 3,20-dioxosteroids.

18-Hydroxylase activity in the Y1 adrenal cell line

18-Hydroxylase activity, reported here for the first time in the mouse adrenal tumor cell line (Y1), was expressed in the metabolism of 11-deoxycorticosterone (DOC) and corticosterone (B). Detected after 24 h of incubation, it was more evident after 48 h and produced mostly 18-hydroxy-20 alpha-DHB from these exogenous substrates. However, 18-hydroxylation was quantitatively less significant than the metabolism of 20 alpha-reduction and 11 beta-hydroxylation (of DOC). The latter is also the predominant metabolism of progesterone in this cell line, during the conversion of cholesterol from the serum-supplemented culture media. The cytochrome P-450 11 beta activity of the Y1 cells is similar to that of the mouse in vivo which catalyzes the production of an 11 beta 18-dihydroxylated metabolite as the principal 18-hydroxylated steroid. It is different from that of other species, such as the rat and the bovine, both in terms of the ratio of 11 beta- to 18-hydroxylated metabolites and of the structure of these metabolites.

A convenient, unified scheme for the differential extraction of conjugated and unconjugated serum C19 steroids on Sep-Pak C18-cartridges

In order to conveniently and rapidly isolate by group both conjugated and unconjugated serum androgens, a scheme has been devised for their differential extraction from commercially available, disposable octadecylsilane cartridges (Sep-Pak C18). Using added radioactive steroid standards and detection of endogenous serum steroids by group-specific enzymatic assays, the quantitative recovery of steroid glucuronides and sulfates in the 47% methanol fraction and of unconjugated steroids in the 100% methanol fraction was observed. Maximum recovery of serum protein-bound steroids (e.g. testosterone) was achieved with serum denatured by urea and heat. In order to separate glucuronides from sulfates, sequential hydrolysis of the conjugated fraction (47% methanol) by enzymatic hydrolysis and then organic solvolysis as well as an additional Sep-Pak cartridge extraction step was required. Groups of extracted steroids may be further separated and assayed by any appropriate method(s). An application is given which employs HPLC and an enzymatic assay for 17 beta-hydroxy- and 17-oxo-steroids to provide separate profiles of unconjugated, glucuronidated, and sulfated androgens in human, male serum.

Alternate hydroxylating activities in newborn rat adrenal cells in primary culture

During the course of a study to produce reference compounds, the metabolism of tetrahydrogenated derivatives (ring A reduced) of progesterone, 6 alpha-hydroxyprogesterone, 11-deoxycorticosterone and corticosterone in newborn rat adrenal cells in primary culture was studied. Analysis of the metabolites was made by gas chromatography-mass spectrometry. Most products resulted from the enzymatic reactions of 11 beta-, 18- and 21-hydroxylation, reduction of the 20-oxo group and oxidoreduction of the 3-hydroxyl group. However, unexpected metabolites were produced from the incubation of 3 beta, 5 alpha-tetrahydroprogesterone and 6 alpha-hydroxy-3 alpha, 5 beta-tetrahydroprogesterone. They resulted from the 16 alpha-hydroxylation of the precursors and probably from the 15 alpha-, 16 beta- and 17 alpha-hydroxylation of 6 alpha-hydroxy-3 alpha, 5 beta-tetrahydroprogesterone. These hydroxylating activities are weak and were not detected from the endogenous steroidogenesis. They were not detected either from the incubation of exogenous steroids with a 3-oxo-4-ene structure or from steroids with a 21-hydroxyl substituent. They result only from substrates showing diminished or no affinity towards the 11 beta/18- and 21-steroid hydroxylase systems. These unusual hydroxylations could be catalyzed by monooxygenase systems in the endoplasmic reticulum similar to those present in the liver or by the monooxygenase systems specific to steroidogenesis. In particular, the reaction specificity of cytochrome P-450(11) beta could be altered by the presence of a 6 alpha-hydroxyl group in a tetrahydrogenated steroid.

Use of tandem mass spectrometry (MS-MS) for aldosterone assay at the nanogram level in complex biological mixtures

Aldosterone in biological samples was measured comparatively by two methods: radioimmunoassay (RIA) and tandem mass spectrometry. The last method is described in this paper. Aldosterone was derivatized as butane boronate cyclic ester. This derivative gives an intense molecular ion under 70-eV electron impact conditions. This ion exhibits an abundant metastable decomposition in the second field free region by loss of formic acid, which can be used for the assay. A linear relationship was observed between the ionic current and the amount of aldosterone from 10 to 200 ng. A good correlation between this new method and the radioimmunological assay is observed. Aldosterone can be readily detected at the nanogram level.

High-performance liquid chromatography of steroid hormones

Although a considerable amount of work has been carried out in the last ten years in developing methods for the separation of steroids by HPLC, it is still not widespread for the reasons discussed above. There is however no doubt that further developments in HPLC technology, in increasing sensitivity and/or specificity of detection systems, perhaps with microbore columns, may lead to an increase in the use of this powerful analytical procedure as an additional separation method to improve specificity of assay. Solution of the problem of simple interfacing of HPLC systems with mass spectrometers (discussed in another chapter by Games) should further increase the application of HPLC. HPLC is of particular value in providing a means of separating unstable compounds prior to assay by relatively nonspecific quantitation methods. Most steroids do not fall into this category, but the steroid vitamin D and its metabolites do and HPLC has proved in this area to be invaluable (see chapter by Jones & DeLuca). There are a multiplicity of different HPLC systems for the separation of steroids, varying in column type (and manufacturer), solvent composition and method of elution, temperature of elution, etc., and only a few attempts have been made to rationalise these data. It would therefore seem that a fruitful area of future study would be the investigation of computerised systems for the selection and optimisation of HPLC systems for particular steroid separations.

Biosynthesis of (20S)-20 alpha-reduced steroids simultaneously with corticosteroids in primary cultures of newborn rat adrenocortical cells stimulated by ACTH

Newborn rat adrenal cells in primary culture produce corticosteroid hormones and (20S)-20 alpha-reduced progesterone metabolites in amounts which depend on ACTH concentrations and stimulation time. Eight (20S)-20 alpha-reduced progesterone metabolites, including 18-hydroxy-(20S)-20 alpha-dihydroprogesterone, were identified by comparison of their data in high performance liquid chromatography and in gas chromatography-mass spectrometry to those of existing or newly synthesized reference steroids. Quantitative studies of individual steroid biosynthesis were also performed using high performance liquid chromatography and gas chromatography. Several experiments were made without ACTH and with different concentrations of ACTH for periods of more than 3 weeks. The importance of the two main steroidogenic pathways, corticosteroid biosynthesis and progesterone reductive metabolism was modified by ACTH stimulation of the cultured cells. The progesterone reductive metabolism, important without ACTH and in the first days of ACTH stimulation, was decreased by 6.6 mU of ACTH/ml or higher concentrations but remained active throughout the life span of the stimulated cell cultures.

Induction of corticosteroid biosynthetic pathway by ACTH and high-density lipoprotein in newborn rat adrenocortical cells cultured in serum-free medium

In order to investigate the role of rat high-density lipoprotein (HDL) on adrenal cholesterol accumulation and steroidogenic pathways (corticosteroid, i.e., 21-hydroxysteroid biosynthesis and reductive metabolism of progesterone), newborn rat adrenal cells cultured in serum-free medium were used. Incubation of [4-14C]cholesterol-HDL in serum-free medium compared to those in medium with lipoprotein-deficient serum, in serum-free medium with ACTH compared to those without ACTH, both showed an increase of labelled cholesterol in cells and of labelled 21-hydroxysteroids excreted in medium. Substitution of serum-supplemented medium by serum-free and cholesterol-free medium led to a deep decrease of ACTH-induced steroid biosynthesis with a predominance of 20 alpha-reduced steroids; addition of HDL restored the corticosteroid biosynthesis and decreased the reductive metabolism. Addition of increased concentrations of HDL (7-150 micrograms cholesterol/ml) enhanced, in a saturable fashion, the total cholesterol uptake and the corticosteroid biosynthesis. The total cholesterol accumulation in cells exceeded by 4-fold the steroid production at saturation. The ratio between the two steroidogenic pathways increased up to 40 at saturation in favor of corticosteroids. These results suggest that HDL is at least partly internalized and that probably its constituents contribute greatly to the control of the two different steroidogenic pathways.

Bioconversion of 16 alpha-hydroxyprogesterone to 16 alpha-hydroxylated corticosteroids by newborn rat adrenal cells in primary culture

Using newborn rat adrenal cells in primary culture, 16 alpha-hydroxyprogesterone was bioconverted into numerous 16 alpha-hydroxylated steroids. The method of analysis of these steroids comprised the association of column and thin-layer chromatography to gas chromatography-mass spectrometry in order to obtain the mass spectra of pure compounds. The identified compounds resulted principally from the enzymatic reactions of 21-hydroxylation 11 beta-hydroxylation and reduction of the 20-oxo and 3-oxo-4-ene groups. Minor metabolites resulted from 18-hydroxylation and 6 beta-hydroxylation of the substrate. The metabolism of 16 alpha-hydroxyprogesterone is similar to that of progesterone in the same cell-culture system; however, there are two exceptions. The 21-hydroxylation of 16 alpha-hydroxyprogesterone occurs at a rate similar to that of its 11 beta-hydroxylation, whereas the 21-hydroxylation of progesterone is faster than its 11 beta-hydroxylation. The ratio of 11 beta- to 18-hydroxylation of 16 alpha-hydroxyprogesterone is about 3, whereas the ratio of 11 beta- to 18-hydroxylation of progesterone, 20 alpha-dihydroxyprogesterone and DOC is between 1./ and 2. It is most likely the rate of 18-hydroxylation which is decreased by the hydroxyl group at C-16. The use of adrenal cell cultures is a practical, simple method for the preparation of a variety of 16 alpha-hydroxylated steroids from a single substrate. Its adaptation to the production of important amounts of 16 alpha-hydroxylated corticosteroids will permit the study of their biological activity.

Expression of ACTH-induced corticosteroid biosynthesis in newborn rat adrenocortical cells cultured in serum-free and carrier protein-free medium containing a cholesterol-alpha-cyclodextrin complex

Newborn rat adrenocortical cells were successfully cultured in a serum-free carrier protein-free medium (SPFM) by using alpha-cyclodextrin as a cholesterol carrier and have expressed corticosteroid biosynthesis in this medium. A stable inclusion complex of cholesterol-alpha-cyclodextrin with a molar ratio of almost 1 was obtained for a 5 X 10(-5) mol/1 alpha-cyclodextrin concentration. Cell cultures incubated with [4-14C] cholesterol-alpha-cyclodextrin in SPFM produced, under ACTH stimulation, various 14C labeled steroids with a predominance of corticosterone and 18-hydroxy-11-deoxycorticosterone. As measured by gas chromatography and mass spectrometry, the ratio between corticosteroids (21-hydroxylated steroids) and 20 alpha-reduced steroids produced in SPFM with cholesterol-alpha-cyclodextrin was equal to 1.8. This corresponds to a value of 3.6 times higher than that found in the serum-free medium with cholesterol-albumin. Consequently, the chemically defined SPFM with cholesterol-alpha-cyclodextrin used in this study is more suitable for corticosteroidogenesis by adrenal cells in culture than a serum-free medium with cholesterol-albumin.

Bioconversion of 2 alpha-hydroxyprogesterone to 2-hydroxylated corticosteroids by newborn rat adrenal cells in primary culture

The bioconversion of 2 alpha-hydroxyprogesterone into 2-hydroxylated steroids was accomplished using newborn rat adrenal cells in primary culture. The products were purified using column and thin-layer chromatography, and identified by GC-MS. They resulted principally from the enzymatic reactions of 21-hydroxylation, 11 beta-hydroxylation, reduction of 20-oxo and 3-oxo groups, and epimerization of the substrate. In addition, minor metabolites resulted from 18-hydroxylation, 6 beta-hydroxylation and reduction of the 3-oxo-4-ene group. The identification of these compounds allowed us to conclude that the metabolism of 2 alpha-hydroxyprogesterone is similar to that of progesterone in this cellular system. Assuming that the 2 beta-epimers of the different metabolites arose principally from the transformation of 2 beta-hydroxyprogesterone, the specificity of the various enzyme systems seems to be similar for both epimers except in the case of the 11 beta-hydroxylation where the reaction appears stereospecific for the 2 beta-epimer. The 2 alpha-hydroxyl group on ring A seems to favor the reduction of the 3-oxo group and it does this stereospecifically to the 3 beta-structure. The epimerization of the substrate, which is most likely enzymatically induced, is the first example of steroid epimerization reported in the adrenal. This is a practical preparative method for synthesizing a variety of steroids hydroxylated at C-2 from a single substrate and could be adjusted to the production of important quantities of 2-hydroxylated metabolites of corticosteroids.

In vitro steroid biosynthesis by the adrenal gland of the female Lacerta vivipara Jacquin: the metabolism of exogenous precursors

The synthesis of steroids in vitro by adrenal glands from female Lacerta vivipara J., using various labeled steroids as substrates, was studied. Effects of two enzymatic inhibitors (cyanoketone and elipten) on steroid synthesis was analyzed. As in other reptilian species, no 17-hydroxycorticosteroids were detected and the major biosynthetic pathway operating in vitro proved to be that of 17-deoxycorticosteroids. An important synthesis of an unidentified compound (X) was observed only from pregnenolone. Incubations of L. vivipara adrenal glands have been performed using [3H]pregnenolone plus [14C]progesterone at different phases of the annual cycle. Changes in adrenal steroid activity, related to season and physiological state of female, are quantitative rather than qualitative. High production in vitro of progesterone and 18-hydroxycorticosterone is associated with gestation whereas high production of deoxycorticosterone and corticosterone is observed during hibernation.

Biosynthesis of sterols and bile acids in rat liver epithelial cell lines

A rat liver epithelial cell line growing in a serum-supplemented medium expressed biosynthetic pathways of bile sterols and of free and conjugated chenodeoxycholic and cholic acids, the main primary bile acids of the liver. They were identified and measured by gas chromatography-mass spectrometry. The bile steroid secretion in the serum-supplemented cell line was established upon incubation in a serum-free medium which was demonstrated to sustain cell growth, allowing elimination of the interference of exogenous bile steroids and effectors. The free bile acid secretion was also expressed in a subline adapted to proliferate in this serum-free medium, i.e., a basal medium supplemented with 4 g/l albumin carrying 7.6 muequiv./l of a mixture of six long-chain free fatty acids but without any addition of hormones and growth factors. In addition, the rat liver epithelial cell line growing in the serum-supplemented medium maintained, with time, a steady-state of bile acid secretion over a lifespan of 500 days. In the two types of liver epithelial cell lines, dexamethasone and chenodeoxycholic acid supplementation exerted, individually, either a stimulating or an inhibiting effect on the bile acid secretion concurrently with the hydroxylation of chenodeoxycholic acid into alpha-muricholic acid.

The role of ACTH in determining the metabolic pathways of deoxycorticosterone by newborn rat adrenal cells in primary culture

The metabolism of deoxycorticosterone (DOC) by newborn rat adrenal cells in primary culture at various times after culture, with and without ACTH, was studied. After 5 days in culture before addition of ACTH, the main products of the metabolism of DOC were corticosterone and 18-hydroxy-11-deoxycorticosterone in a 2:1 ratio. Smaller amounts of 20 alpha-dihydrocorticosterone and 18-hydroxycorticosterone were also found. No reduced metabolites of DOC were detected. Without ACTH the conversion of DOC to corticosterone and 18-hydroxyDOC declined rapidly. After 13 days in culture, this conversion accounted for only half the metabolites. The reductive metabolism of DOC which yields products reduced at 20 alpha and/or 3 alpha/beta and 5 alpha accounted for the other half. When ACTH (22 mU/ml) was added to the culture daily for several weeks, the primary metabolism of DOC remained that of 11 beta- and 18-hydroxylation yielding corticosterone and 18-hydroxyDOC. A minor reductive metabolism was found. Both cultures produced 6 beta-hydroxyDOC. These results demonstrate that ACTH is needed to maintain the efficiency of the 11 beta/18-hydroxylating system. They also show that ACTH controls the type of metabolism predominant in the rat adrenal cell and may be responsible for the balance between the biosynthesis of glucocorticoids and their reductive catabolism in the fasciculata zone of the adrenal gland.

Rat liver epithelial cell cultures in a serum-free medium: primary cultures and derived cell lines expressing differentiated functions

Rat liver epithelial cells explanted in a serum-free medium (SFM) composed of Ham's F10 basal medium plus free fatty acids adsorbed on bovine albumin gave successful rise to primary cultures and then to long-term cell lines that expressed liver functions; induction of L-tyrosine aminotransferase by glucocorticoids, hepatic pattern of progesterone metabolism, and biosynthesis of murine primary bile acids; chenodeoxycholic and cholic acid common to higher vertebrates and alpha-muricholic acid specific of the rat bile.

Quantitative determination of dexamethasone in human plasma by stable isotope dilution mass spectrometry

An analytical method for the quantitation of nanogram to subnanogram amounts of dexamethasone is described. Dexamethasone was isolated from human plasma using a C18-bonded reverse-phase cartridge, purified by subsequent normal-phase HPLC, and the corresponding trimethylsilyl derivative analyzed by gas chromatography-mass spectrometry (GC-MS). The quantitation by isotope-dilution MS was carried out by selected-ion monitoring on the (M + 1)+ ion of the trimethylsilyl derivative of dexamethasone and its stable isotopically labeled diluent, [ 13C6 ,2H3]dexamethasone (681 and 690 m/z, respectively). Methane was used as the GC carrier gas and as the chemical-ionization reagent gas. The sensitivity of the method, judged from the lower limit of detection of the mass spectrometer, was at approximately 100 pg. The inter- and intraassay coefficients of variation (CV) determined at two different concentrations were 3.83 and 3.78% for 2 ng/mL and 2.64 and 1.29% for 5 ng/mL, respectively. Plasma concentration profiles for dexamethasone following a single 1-mg iv and a 2-mg oral dose of dexamethasone administered 24 h apart to two healthy volunteers are presented. The mass fragmentographic method described here is useful for bioavailability and pharmacokinetic studies of the synthetic glucocorticoid.