A chemical inhibitor of PPM1D that selectively kills cells overexpressing PPM1D

The PPM1D gene is aberrantly amplified in a range of common cancers and encodes a protein phosphatase that is a potential therapeutic target. However, the issue of whether inhibition of PPM1D in human tumour cells that overexpress this protein compromises their viability has not yet been fully addressed. We show here, using an RNA interference (RNAi) approach, that inhibition of PPM1D can indeed reduce the viability of human tumour cells and that this effect is selective; tumour cell lines that overexpress PPM1D are sensitive to PPM1D inhibition whereas cell lines with normal levels are not. Loss of viability associated with PPM1D RNAi in human tumour cells occurs via the activation of the kinase P38. To identify chemical inhibitors of PPM1D, a high-throughput screening of a library of small molecules was performed. This strategy successfully identified a compound that selectively reduces viability of human tumour cell lines that overexpress PPM1D. As expected of a specific inhibitor, the toxicity to PPM1D overexpressing cell lines after inhibitor treatment is P38 dependent. These results further validate PPM1D as a therapeutic target and identify a proof-of-principle small molecule inhibitor.

Inhibition of protein prenylation by metabolites of limonene

The monoterpenes limonene and perillyl alcohol are undergoing clinical evaluation in cancer patients. In this paper, we report the chemical synthesis, characterisation, and quantitation in patients' plasma of a novel human metabolite of limonene, which is identified as an isomer of perillic acid. The synthesis of R-perillic acid is also described, because previous reports on the activity of perillic acid against isoprenylation enzymes refer to the S-enantiomer, although it is the R-enantiomer which is the metabolite of R-limonene. The above monoterpenes, with several related compounds, were assayed for inhibitory activity towards the isoprenylation enzymes in rat brain cytosol. Although R- and S-limonene are only weak inhibitors of the isoprenylation enzymes, their major metabolites, perillic acid and perillyl alcohol, are more potent inhibitors, with IC50 values in the low mM range. The metabolites possess greater activity towards the geranylgeranyltransferase type I enzyme than farnesyltransferase, while the novel metabolite displays IC50 values similar to those of perillic acid suggesting that it may contribute to the in vivo activity of limonene.

Solid-phase synthesis of novel inhibitors of farnesyl transferase

A novel diphosphate mimic, the 2,3,6-trifluoro-5-hydroxy-4-nitrophenoxy group (1), has been employed as the template in the solid-phase synthesis of novel farnesyl transferase inhibitors using the Mitsunobu reaction. The most potent inhibitor (farnesyloxy-5-hydroxy-2,3,6-trifluoro-4-nitrobenzene) displayed an IC50 of 6.3 microM versus farnesyl transferase.

Comparison of biochemical aromatase activity with aromatase immunohistochemistry in human breast carcinomas

The role of intratumoural aromatase in human breast cancer growth remains controversial. At the same time as the use of aromatase inhibitors in the clinical setting continues to increase, so does the need for a tool to predict the likely response to this treatment. Intratumoural aromatase is a candidate predictive marker. The presently accepted 'gold standard' methods of assessment of aromatase activity are biochemical assays. However, these are time-consuming and require relatively large amounts of fresh or frozen tissue which are frequently not available. The development of a reliable immunohistochemical technique for the assessment of intratumoural aromatase which could be applied rapidly to more readily available paraffin-embedded material is therefore highly desirable. Unfortunately aromatase immunohistochemistry is also an area of controversy; some authors describe localisation to the stromal compartment but others to the malignant epithelial cells themselves. The aim of this study was therefore to compare immunohistochemical scores using two different antibodies with biochemical aromatase activity. Taking a group of 29 human breast carcinomas we demonstrated a strong correlation between immunoreactivity with a monoclonal antibody (p = 0.01) but not with a polyclonal (p = 0.16). The monoclonal produced reactivity in both epithelial and stromal cells but the polyclonal in only stromal cells. The implications of these results are discussed together with the need for further studies.

Antagonism of estrogen receptor and calmodulin association by antiestrogens is not dependent on an interaction with calmodulin

Previously, two antiestrogens estradiol derivatives (3 and 4) bearing the basic side chain of tamoxifen were shown to impede the binding of the estrogen receptor (ER) to calmodulin (CaM)-Sepharose. In this study, the interaction of these and related compounds with calmodulin was examined using the cyclic AMP phosphodiesterase (cAMP-PDE) assay. Neither of the steroids gave any significant inhibition of the calmodulin dependent cAMP-PDE activity up to a final concentration of 20 microM. For comparison, tamoxifen and nafoxidine produced IC50 values of 6.7 microM +/- 1.0 and 7.4 microM +/- 1.1, respectively. In addition, a comparison was made of the activity of some triphenylethylene derivatives against CaM dependent cAMP-PDE and the ER-CaM Sepharose assays, but no relationship was observed. Overall, these results demonstrate that inhibition of the ER-CaM association by various steroidal and triphenylethylene antiestrogens does not relate to antagonism of calmodulin function or their binding affinity for the estrogen receptor.

3- and 4-pyridylalkyl adamantanecarboxylates: inhibitors of human cytochrome P450(17 alpha) (17 alpha-hydroxylase/C17,20-lyase). Potential nonsteroidal agents for the treatment of prostatic cancer

Various 3- and 4-pyridylalkyl 1-adamantanecarboxylates have been synthesized and tested for inhibitory activity toward the 17 alpha-hydroxylase and C17,20-lyase activities of human testicular cytochrome P450(17 alpha). The 4-pyridylalkyl esters were much more inhibitory than their 3-pyridylalkyl counterparts. The most potent was (S)-1-(4-pyridyl)ethyl 1-adamantanecarboxylate (3b; IC50 for lyase, 1.8 nM), whereas the (R)-enantiomer 3a was much less inhibitory (IC50 74 nM). Nearly as potent as 3b was the dimethylated counterpart, the 2-(4-pyridylpropan-2-yl) ester 5 (IC50 2.7 nM), which was also more resistant to degradation by esterases. In contrast to their 4-pyridyl analogs, the enantiomers of the 1-(3-pyridyl)ethyl ester were similarly inhibitory (IC50 for lyase; (R)-isomer 8a 150 nM, (S)-isomer 8b 230 nM). Amides corresponding to the 4-pyridylmethyl ester 1 and the (S)-1-(4-pyridyl)ethyl ester 3b, respectively 11 and 15b, were much less inhibitory than their ester counterparts. On the basis of a combination of inhibitory potency and resistance to esterases, the ester 5 was the best candidate for further development as a potential nonsteroidal inhibitor of cytochrome P450(17 alpha) for the treatment of prostate cancer.

Identification and characterization of limonene metabolites in patients with advanced cancer by liquid chromatography/mass spectrometry

Limonene is a farnesyl transferase inhibitor that has shown antitumor properties. The drug had been given orally to cancer patients. Plasma and urine samples collected from the patients were examined by reversed-phase HPLC-atmospheric pressure chemical ionization and electrospray ionization MS. The drug underwent rapid conversion to hydroxylated and carboxylated derivatives. Characterization and structural elucidation of the metabolites were achieved by LC/MS and NMR. Five major metabolites were detected in the plasma extracts, namely limonene-1,2-diol, limonene-8,9-diol, perillic acid, an isomer of perillic acid, and dihydroperillic acid. Urinary metabolites comprised the glucuronides of the two isomers of perillic acid, dihydroperillic acid, limonene-8,9-diol, and a monohydroxylated limonene.

Homologs of idoxifene: variation of estrogen receptor binding and calmodulin antagonism with chain length

A series of homologs of idoxifene [1a, (E)-1-[4-(N-pyrrolidinoethoxy)phenyl]-1-(4-iodophenyl)-2-phenyl-1-butene ] and selected homologs of 4-iodotamoxifen [2a,(E)-1-[4-(N-dimethylamino)-ethoxy]phenyl]-1-(4-iodophenyl)-2-phenyl -1-butene] with the side chain (CH(2))(n) varying in length from n=3 (1b,2b) to n=10(1i,2i) have been synthesized and tested for antagonism of of the calmodulin-dependent activity of cAMP phosphodiesterase and for binding affinity to rat uterine estrogen receptor. Compared with 1a (IC(50) =1.5 microM), the homologs showed a progressive increase in calmodulin antagonism with a maximum inhibition at n=7-9 (1f-h)(IC(50)=0.2 microM), declining at n=10 (1i) to IC(50) =1.6 microM. In the pyrrolidino series, estrogen receptor binding affinity peaked at n=3 (1b, RBA= 23; estradiol = 100), declining by n=10 (1i) to RBA = 0.4, but the homolog n=8 (1g, RBA = 3.5) was still comparable to tamoxifen (RBA = 3.9). A similar pattern of activity was seen for the dimethylamino counterparts. These compounds represent a new class of antiestrogens with potent calmodulin antagonism.

Esters of 3-pyridylacetic acid that combine potent inhibition of 17 alpha-hydroxylase/C17,20-lyase (cytochrome P45017 alpha) with resistance to esterase hydrolysis

Esters of 3- and 4-pyridylacetic acid have been prepared and tested for inhibitory activity toward the human testicular 17 alpha-hydroxylase/C17,20-lyase and human placental aromatase enzymes. The structural features required for optimal inhibition of the hydroxylase/lyase enzyme were a 3-pyridine ring, methyl substitution alpha to the carbonyl group, and a bulky alkoxycarbonyl substituent. The compounds with the greatest selectivity were isopinocampheyl 2-methyl-2-(3-pyridyl)propanoate, 9, 1-adamantyl 2-methyl-2-(3-pyridyl)propanoate, 12, and 2-methyl-2-adamantyl 2-methyl-2-(3-pyridyl)propanoate, 14, which, while inhibiting the aromatase activity with IC50 values of 30, 35, and 40 microM, respectively, exhibited IC50 values toward hydroxylase/lyase of between 13 and 90 nM. For comparison, ketoconazole gave an IC50 value of 15 microM against aromatase and values of 65 and 26 nM for inhibition of the hydroxylase and lyase activities, respectively. Some of the structural features required for enzyme inhibition also conferred resistance to esterase hydrolysis, in vitro using rat liver microsomes as a source of the esterase activity. Therefore these esters are lead compounds in the development of inhibitors of androgen biosynthesis for the treatment of hormone-dependent prostatic cancer.

Inhibition of aromatase expression by a psoralen-linked triplex-forming oligonucleotide targeted to a coding sequence

The cytochrome P450 enzyme aromatase (P450arom) is an important target in breast cancer treatment. We have designed a 20-base pyrimidine oligodeoxynucleotide (ODN) which forms a sequence-specific triple helix (triplex) with a purine-rich tract in the P450arom coding sequence. The psoralen-linked ODN (Pso20T) formed photo-induced cross-linked products with target double-stranded DNA. Cross-linked adducts formed in vitro between ODNs and P450arom expression constructs were used to transfect COS and human MCF-7 breast cancer cells. Levels of aromatase transcripts and enzyme activity were significantly lower in cultures transfected with Pso20T-treated cDNA relative to controls. Pso20T had a lesser inhibitory effect on aromatase expression from a mutant P450arom construct, consistent with predicted effects of the mutations on triplex formation. These results are compatible with triplex-mediated interruption of transcription within intact cells.

Comparison between inhibition of protein kinase C and antagonism of calmodulin by tamoxifen analogues

A variety of analogues of tamoxifen were tested for inhibition of protein kinase C (PKC) activity in MCF-7 breast cancer cells. These results were compared with the calmodulin antagonism exhibited by the analogues as measured by inhibition of calmodulin-dependent cyclic AMP phosphodiesterase. The same structural features that enhanced PKC inhibition also led to an increase in calmodulin antagonism, namely 4-iodination and elongation of the basic side-chain. The most potent analogue has a 4-iodine substituent and eight carbon atoms in its basic side-chain with IC50 values of 38 microM for PKC inhibition and 0.3 microM for calmodulin antagonism, which compares with 92 and 6.8 microM, respectively, for tamoxifen. Some selectivity was achieved with a ring-fused analogue that retained the potency of tamoxifen as a PKC inhibitor, but lacked calmodulin antagonism.

Novel steroidal inhibitors of human cytochrome P45017 alpha (17 alpha-hydroxylase-C17,20-lyase): potential agents for the treatment of prostatic cancer

Steroidal compounds having a 17-(3-pyridyl) substituent together with a 16,17-double bond have been synthesized, using a palladium-catalyzed cross-coupling reaction of a 17-enol triflate with diethyl(3-pyridyl)borane, which are potent inhibitors of human testicular 17 alpha-hydroxylase-C17,20-lyase. The requirement for these structural features is stringent: compounds having 2-pyridyl (9), 4-pyridyl (10), or 2-pyridylmethyl (11) substituents instead of the 3-pyridyl substituent were either poor inhibitors or noninhibitory. Reduction of the 16,17-double bond to give 17 beta-pyridyl derivatives diminished potency with 3-pyridyl substitution (3-->27; IC50 for lyase, 2.9-->23 nM) but increased it with a 4-pyridyl substituent present (10-->28; IC50 1 microM-->53 nM). In contrast, a variety of substitution patterns in rings A-C of the steroid skeleton afforded inhibitors having potencies similar to those most closely related structurally to the natural substrates pregnenolone and progesterone, respectively 17-(3-pyridyl)androsta-5,16-dien-3 beta-ol (3, Kiapp < 1 nM; IC50 for lyase, 2.9 nM) and 17-(3-pyridyl)androsta-4,16-dien-3-one (15; IC50 for lyase, 2.1 nM). Thus compounds having variously aromatic ring A (18), saturated rings A/B (21, 22), and oxygenated ring C (26) exhibited IC50 values for lyase (1.8-3.0 nM) falling within a 2-fold range. The most potent compounds are candidates for development as drugs for the treatment of hormone-dependent prostatic carcinoma.

The deuterium isotope effect for the alpha-hydroxylation of tamoxifen by rat liver microsomes accounts for the reduced genotoxicity of [D5-ethyl]tamoxifen

This study describes the application of on line HPLC-electrospray ionization MS in the structural determination of the metabolites formed following incubation with rat liver microsomes of an equimolar mixture of the anticancer drug tamoxifen and its [D5-ethyl]-analogue. The ratio of ca 3:1 between unlabelled and D4-labelled alpha-hydroxytamoxifen, indicating a large isotope effect for this metabolic process, accounted for the previously observed lower yield of DNA adducts formed in the livers of rats treated with D5-tamoxifen compared with unlabelled drug. The loss of one deuterium atom on metabolism discriminated hydroxyethylated metabolites from others and enabled two further such metabolites to be detected, namely alpha-hydroxytamoxifen N-oxide and alpha-hydroxy-N-desmethyltamoxifen of which the latter is novel. Furthermore, the use of [alpha-D2-ethyl]- and [beta-D3-ethyl] tamoxifens discriminated alpha- from beta-hydroxylated metabolites and proved that the metabolites described here were alpha-hydroxylated. In contrast to the alpha-hydroxylated metabolites, the other metabolites identified, namely tamoxifen N-oxide, N-desmethyltamoxifen, 4-hydroxytamoxifen and their deuterated counterparts were not depleted in the deuterated components. The use of on line HPLC-electrospray ionization MS combined with isotopic labelling is a powerful technique for probing the structures of metabolites, and, applied to tamoxifen, has provided further evidence that alpha-hydroxylation is an important pathway for the conversion of the drug into a DNA-reactive metabolite.

Rationally designed analogues of tamoxifen with improved calmodulin antagonism

Computerized molecular modeling studies on the interactions of the antiestrogen tamoxifen (1) and its analogues bound to the calcium-binding protein calmodulin have guided the rational design of more potent antagonists. Compounds with either three or four methylene units in the basic side chain or slim lipophilic 4-substituents were expected to be more potent. All compounds were tested for antagonism of the calmodulin-dependent activity of cAMP phosphodiesterase and for binding affinity to the estrogen receptor from rat uteri. Some compounds were assayed for cytotoxicity against MCF-7 breast tumor cells in vitro. Introduction of lipophilic 4-substituents was accomplished by using palladium(0)-catalyzed coupling reactions with a 4-iodinated precursor. Both the 4-ethynyl (16 and 17) and 4-butyl (18 and 19) compounds were more potent calmodulin antagonists than tamoxifen. Extension of the basic aminoethoxy side chain of 4-iodotamoxifen (3) and idoxifene (2) ((E)-1-[4-[2-(N-pyrrolidino)ethoxy]phenyl]-1-(4-iodophenyl)-2-phen yl-1- butene) by one or two methylene units resulted in modest gains in calmodulin antagonism (10-13). All the compounds assayed retained estrogen receptor binding characteristics. The compound possessing the optimal combination of calmodulin antagonism and estrogen receptor binding was 12 ((E)-1-[4-[3-(N-pyrrolidino)propoxy]phenyl]-1-(4-iodophenyl)-2-phe nyl-1 - butene) (IC50 = 1.1 microM, RBA = 23). Correlation between calmodulin antagonism and cytotoxicity was demonstrated for selected compounds.

Evidence that tamoxifen binds to calmodulin in a conformation different to that when binding to estrogen receptors, through structure-activity study on ring-fused analogues

A ring-fused analogue of tamoxifen, which had previously been shown to have practically identical estrogen receptor (ER) affinity and antitumour potency against estrogen responsive cells as tamoxifen, failed to inhibit calmodulin-dependent cyclic AMP phosphodiesterase. The substitution of an extra methyl group into the ring-fused analogue, at a position which the ethyl group of tamoxifen can occupy in one of its conformations, restored the calmodulin inhibition. Also, the replacement of the tamoxifen ethyl group by methyl diminishes calmodulin inhibition. Direct interaction of these tamoxifen analogues with calmodulin was demonstrated through the use of the fluorescent probe, 2-p-toluidinyl-naphthalene-6-sulfonic acid (TNS). These findings lead to the conclusion that tamoxifen binds to calmodulin in a conformation not accessible to the fused analogue and therefore likely to be different to that which binds to the ER. Also, the results on the ring-fused analogues indicate that the calmodulin binding cannot be essential for antitumour activity.

Effects of a new antioestrogen, idoxifene, on cisplatin- and doxorubicin-sensitive and -resistant human ovarian carcinoma cell lines

Pyrrolidino-4-iodotamoxifen (idoxifene) is a new non-steroidal antioestrogen currently undergoing phase I clinical evaluation. Using idoxifene and tamoxifen and two additional analogues of tamoxifen (3-hydroxytamoxifen and 4-iodotamoxifen) and the imidazole-based calmodulin inhibitor, calmidazolium, a strong positive correlation (r2 > 0.95) was observed between cytotoxicity and inhibition of calmodulin-dependent cyclic AMP phosphodiesterase (e.g. mean IC50 across four human ovarian carcinoma cell lines of 4.5 microM for idoxifene and 6.3 microM for tamoxifen). Using two parent human ovarian carcinoma cell lines (41M and CH1; both oestrogen receptor negative) in which acquired resistance to doxorubicin or cisplatin has been generated, we have determined the ability of idoxifene to overcome resistance in these lines. At a non-toxic concentration of 2 microM, idoxifene appeared at least as effective as the clinically used multidrug resistance modifiers verapamil and tamoxifen in overcoming doxorubicin resistance in two acquired resistant cell lines shown to overexpress the P-170 efflux glycoprotein. Non-cross-resistance between cisplatin and idoxifene was observed in two acquired resistant cell lines possessing contrasting mechanisms of resistance to cisplatin (41McisR6 reduced drug transport and CH1cisR6 resistance mediated at the level of DNA). In one of four cell lines (CH1), synergism between idoxifene and cisplatin was observed by median effect analysis. However, with the 41M and its 6-fold cisplatin-resistant variant, antagonism was observed. These observations made by median effect analysis appeared to be unrelated to platinum uptake or removal of platinum-induced DNA interstrand cross-links. These in vitro data suggest that idoxifene may be usefully combined with doxorubicin in the clinical setting, but caution should be exercised in combining it with cisplatin in the treatment of certain tumours.

Lack of inhibition of placental estrone sulfatase and aromatase enzymes by vitamin D3 and its analogs

The aromatase and estrone sulfatase enzymes are important sources of biologically active estrogens in postmenopausal women with breast cancer. Promising initial results in the treatment of endocrine-responsive breast cancer have been exhibited by 1 alpha 25-dihydroxyvitamin D3 and the synthetic vitamin D analogues MC903 and EB1089. However, these compounds together with vitamin D3 and vitamin D3 sulfate did not inhibit the human placental aromatase enzyme when assayed up to 20 microns. Only vitamin D3 sulfate and 1 alpha 25-dihydroxyvitamin D inhibited the estrone sulfatase activity in human placental microsomes, albeit at high concentration (32 and 37% inhibition, respectively with 50 microns each inhibitor). It is unlikely that inhibition of aromatase or estrone sulfatase enzymes contribute to the inhibitory effect of this group of compounds on breast cancer cells in vivo.

Intratumoral oestrone sulphatase activity as a prognostic marker in human breast carcinoma

Oestrone sulphatase is an important source of local synthesis of biologically active oestrogens in human breast cancer. The oestrone sulphatase enzyme in the particulate fraction of human breast carcinoma was characterised. The Km was 8.91 microM, and the Vmax was 0.022 nmol min-1 mg-1. Oestrone sulphatase activity was detected in 93 of 104 human breast carcinoma samples (89%), and mean activity was 0.041 nmol min-1 mg-1 (range 0-0.399 nmol min-1 mg-1). There was no significant correlation between intratumoral oestrone sulphatase activity and oestrogen receptor status, or with any other prognostic factors. Intratumoral enzyme levels were not associated with time to recurrence or with overall survival time. It thus appears that, although a useful source of intratumoral oestrogens, oestrone sulphatase activity is not of prognostic significance in breast carcinoma.

Evaluation of some 4-fluoro- and 4-cyano derivatives of delta 4,3-ketosteroids as inhibitors of testosterone 5 alpha-reductase

Some 4-fluorinated analogues of 3-oxo-delta 4 steroids and 4-cyano derivatives of progesterone and androstenedione were evaluated as inhibitors of steroid 5 alpha-reductase activity. Inhibitors of this enzyme may be useful in treating prostatic cancer. 4-Fluoroandrostenedione was a modest inhibitor of the rat enzyme (IC50 = 4.08 microM), while 4-cyanoprogesterone was a potent inhibitor of both the rat and human enzymes (IC50 values = 0.045 microM and 0.050 microM respectively). These two steroids were tested in vivo for activity against androgen sensitive organs in WHT mice. 4-Fluoroandrostenedione caused increases in organ weights, suggesting it is an androgen agonist, while the 4-cyano compound displayed modest androgen ablation. Therefore substitutions at the 4-position may produce compounds of therapeutic use in treating prostate cancer.

Biological effects of stable overexpression of aromatase in human hormone-dependent breast cancer cells

Aromatase is a key enzyme in the conversion of androstenedione and testosterone to oestrone and oestradiol. Intratumoral aromatase activity is expressed by around 70% of breast carcinomas, but it is not clear what effect this has on the tumour phenotype. To address this question we expressed human aromatase in hormone-dependent MCF-7 breast cancer cells. Clone Arom. 1 expressed aromatase at 1,000 times the endogenous level in wild-type (WT) cells. Clone Arom. 2 incorporated the expression construct but did not express aromatase at levels above WT. There was no morphological difference between the two clones and WT, all three cell lines expressed oestrogen receptor at equivalent levels, and all manifested a mitogenic response to oestradiol. In steroid-depleted medium Arom. 1 cells showed significant growth enhancement over WT and Arom. 2, and this growth advantage was increased by exogenous androstenedione or testosterone. Both the enzyme activity and androgen-stimulated growth of Arom. 1 cells were completely reversible by aromatase inhibitor CGS 16949A. The Arom. 1 cell line may contribute to the development of an in vivo model of intratumoral aromatase, to study the biological significance of this phenomenon.

Analysis of phase I and phase II metabolites of tamoxifen in breast cancer patients

This study describes the application of LC/MS/MS to the determination of phase I and phase II metabolites of tamoxifen in urine and plasma samples of breast cancer patients. In the plasma extracts, in addition to the parent drug and N-desmethyltamoxifen, a minor metabolite tamoxifen N-oxide was identified for the first time in human. Four intact glucuronides of tamoxifen metabolites were isolated in the 24-hr posttreatment urine sample. They were the glucuronides of 4-hydroxytamoxifen, 4-hydroxy-N-desmethyltamoxifen, dihydroxytamoxifen, and a monohydroxy-N-desmethyltamoxifen. Hydroxylation followed by glucuronidation is a well-established metabolic route of tamoxifen, and this study describes for the first time direct analyses of these metabolites in human urine samples using on-line LC tandem MS.

Detection of breast cancer-associated estrone sulfatase in breast cancer biopsies and cell lines using polymerase chain reaction

Steroid sulfatase (STS) is a single enzyme with a range of substrate specificities, including estrone sulfate. Using a 2.4 kb cDNA clone, expression of human STS was undetectable by Northern hybridization, but STS RNA was detected in human placenta, human breast cancer samples, and in breast carcinoma cell lines following reverse transcriptase-PCR amplification, using specific primers to yield a product of 472 bp. In preliminary studies, stimulation of MCF-7 cell lines with estradiol (10(-8) M) resulted in an increased level of amplifiable STS RNA, and this upregulation of STS RNA could be abolished by tamoxifen. The estrone sulfatase activity in mammary tumors derived from N-nitrosomethylurea (NMU) treated rats was significantly decreased in animals treated with tamoxifen compared to control animals, regardless of the response of the tumors to the antiestrogen (P < 0.05). Although tamoxifen does not inhibit the estrone sulfatase enzyme in vitro, it may modulate the expression of STS RNA and the enzyme activity in vivo.

Prognostic significance of aromatase and estrone sulfatase enzymes in human breast cancer

The aromatase and estrone sulfatase enzymes are important sources of local synthesis of biologically active estrogens in human breast cancer. Significant intratumoral aromatase activity was detected in 91/145 (63%) of tumors and estrone sulfatase was detected in 93/104 (89%) of tumors. There was no relationship between aromatase activity and tumor size, site, nodal status, menopausal status or estrogen receptor status. There was a significant correlation between the aromatase activity and histological grade, with an excess of aromatase-positive in the high grade tumors (P = 0.03). There was a marginally inverse correlation between the aromatase activity and time to relapse (P < 0.1), a significant correlation between aromatase activity and survival after relapse (P < 0.05) but not with overall survival (P > 0.1). Intratumoral estrone sulfatase activity was not significantly correlated to any putative prognostic factors, nor with time to relapse nor overall survival time.

Investigation of conjugated metabolites of 4-hydroxyandrost-4-ene-3,17-dione in patient urine by liquid chromatography-atmospheric pressure ionization mass spectrometry

Metabolism of the anticancer drug 4-hydroxyandrost-4-ene,3,17-dione (4OHA) was studied in cancer patients by HPLC-MS-MS. 40HA was administered orally to a breast cancer patient. The drug was extensively metabolized and was excreted in the urine as the 4OHA-glucuronide, 3 alpha-hydroxy-5 beta-androstan-4,17-dione (3 alpha OHA)-sulfate (or 4-hydroxytestosterone-sulfate) and 3 alpha,17-dihydroxy-5 beta-androstan-4-one (3,17-OHA)-sulfate conjugates in the 4 hr posttreatment sample. Other metabolites include 4OHA-sulfate, 3 alpha OHA-glucuronide, and 3,17-OHA-monoglucuronide. When 4OHA was given to the prostatic cancer patients intramuscularly, different metabolites were observed as compared with the female studies. The most noticeable difference is the absence of 4OHA-sulfate in both 24 and 48 hr posttreatment urine samples. The drug was eliminated mainly as 4OHA-glucuronide, 3 alpha OHA-sulfate, and 3,17-OHA-monosulfate. Other metabolites that have been detected include 3 alpha OHA-glucuronide, 3,17-OHA-glucuronide, 3,17-OHA-disulfate, and an unknown metabolite. The variation observed in metabolism could be attributed to a different route of drug administration (oral and intramuscular) and sex difference among the patients. This study describes the utilization of HPLC-MS-MS for monitoring the 4OHA conjugates and provides the first evidence of the presence of 4OHA-sulfate and its analogs in patient urinary extracts.

Conformational analysis of the aromatase inhibitor 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione (rogletimide) and discovery of potent 5-alkyl derivatives

Analysis of the proton NMR spectra of 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione (rogletimide, 1) shows that it exists in solution with the aromatic ring in an axial position; the same conformation was found for aminoglutethimide. Excess lithium diisopropylamide treatment of 1 formed a dianion which methylated at C-5. The major product with the methyl group trans to the pyridyl ring retained this ring in an axial position and had higher aromatase inhibitory potency than 1. The minor diastereoisomer with an equatorial pyridyl ring had low potency. Upon elongating the alkyl chain, particularly high inhibitory activity was found for the major product isomer having a C-5 octyl, coinciding with the high activity in C-3 and N-1 octyl derivatives of 1, but there was only a small difference in the activity between the enantiomers of 5-octyl-1 and activity was reduced rather than increased when octyl also replaced ethyl at C-3. The results partially support a previously described model comparing binding of androstenedione to aromatase in as much as an axial pyridyl ring is needed to mimic the axial C-19 methyl group of the steroid and bind to the heme component of the enzyme, but for the derivatives bearing a C-5 octyl, the function of the glutarimide ring seems to be simply as a spacer between the hydrophobic chain and the pyridyl ring.

Oestrone sulphatase activity in mammary tumours and the liver of N-nitrosomethylurea treated rats

Oestrone sulphatase may be an important means of production of intra-tumoural oestrogens in breast cancer cells. The N-nitrosomethylurea induced rat mammary tumours, which is a good model of human breast carcinoma, was utilised to examine the significance of intra-tumoural oestrone sulphatase levels. The particular fraction (100,000 g pellet) was prepared from both the liver and the tumour of NMU treated rats and assayed for sulphatase activity. The tumour enzyme had an optimum pH of 7.2, Km value of 14.8 microM and Vmax of 0.90 nmoles min-1 mg-1, while the hepatic enzyme was optimal at pH 7.4, Km of 10.8 microM and Vmax of 3.71 nmoles min-1 mg-1. The relationship of intra-tumoural sulphatase levels with tumour regression and progression in endocrine responsive tumours was investigated. Tumour regression as a result of oophorectomy was associated with a significantly decreased intra-tumoural sulphatase level (mean level = 0.165 nmoles min-1 mg-1) in comparison to a control group (mean level = 0.319 nmoles min-1 mg-1, P less than 0.05) in which the tumours remained stable. This significant difference was not observed in the corresponding hepatic samples suggesting that it is the intra-tumoural rather than the peripheral production of oestrogens by oestrone sulphatase that is important in supporting growth of endocrine responsive tumours.

Effects of 4-hydroxyandrost-4-ene-3,17-dione and its metabolites on 5 alpha-reductase activity and the androgen receptor

The steroidal aromatase inhibitor, 4-hydroxyandrost-4-ene-3,17-dione (4OHA) and its metabolites, 4-hydroxytestosterone (4OHT), 3 beta,17-dihydroxy-5 alpha-androstan-4-one (metabolite A) and 3 alpha, 17-dihydroxy-5 beta-androstan-4-one (metabolite B) were evaluated as inhibitors of the human prostatic 5 alpha-reductase enzyme and for binding to the rat prostatic androgen receptor. 4OHA and 4OHT were weak inhibitors of 5 alpha-reductase with IC50 values of 15-29 microM. Metabolites A and B had no significant inhibitory activity. 4OHA and metabolites A and B bound weakly to the androgen receptor. The binding affinities (RBA) relative to mibolerone (RBA = 100) were 0.085, 0.485 and 0.016, respectively. However, 4OHT (RBA = 75) was a more potent binder than the endogenous androgen 5 alpha-dihydrotestosterone (RBA = 66). The ability of these metabolites, in particular 4OHT, to bind to the androgen receptor may explain the in vivo androgenic activity of 4OHA.

Inhibition of estrone sulfatase enzyme in human placenta and human breast carcinoma

Estrone sulfatase is an important mechanism of local synthesis of biologically active estrogens in human breast cancer. The human placental microsome and breast carcinoma mitochondrial/microsomal estrone sulfatase activity were characterized and inhibition studies performed. The Km of the placental tissue enzyme was 6.83 microM, Vmax 0.015 nmol/min/mg, and for the breast carcinoma tissue Km was 8.91 microM and Vmax 0.022 nmol/min/mg. Danazol produced a significant inhibition of estrone sulfatase (20% with 50 microM danazol). No significant inhibition was seen in the presence of aminoglutethimide, rogletimide, tamoxifen, 4-hydroxyandrostenedione, stilboestrol, or any metabolites of danazol or tamoxifen. Studies with synthetic and naturally occurring steroids demonstrated that the presence of a sulfate group at the 3 position to be the most important factor in determining inhibition, and the most potent inhibitor was 5 alpha-androstene-3 beta,17 beta-diol-3-sulfate (Ki of 2.0 microM). The naturally occurring 3-sulfated steroids all demonstrated competitive inhibition. These studies could form the basis for the design of a potent estrone sulfatase inhibitor which would have potential therapeutic activity in the management of breast cancer.

Determination of 4-hydroxyandrost-4-ene-3,17-dione metabolism in breast cancer patients using high-performance liquid chromatography-mass spectrometry

A sensitive procedure for studying the metabolism of the steroidal aromatase inhibitor 4-hydroxy-androst-4-ene-3,17-dione (4OHA) was developed based on enzyme hydrolysis, liquid-liquid extraction and reversed-phase liquid chromatography coupled with a mass spectrometer (LC-MS) using a thermospray interface. Seven metabolites were identified from the hydrolysed urine samples together with the parent drug. The major routes of metabolism were via dehydrogenation, reduction of the ketone functional groups, reduction at the C-4-C-5 double bond and hydroxylation at the C-5 position. Confirmation of the identity of 4OHA and its metabolites isolated from female patients' urine samples was accomplished by comparison of the retention times of their corresponding synthetic standards on LC-MS. We have demonstrated that this technique is particularly suitable for studying the metabolism of steroidal drugs.

Comparison of aromatase activity in human prostatic, testicular and placental tissues

The aromatase enzyme was quantified by the release of tritiated water from [1 beta-3H] androstenedione. Tritiated water was released by the crude homogenates in 4 of 18 samples of benign prostatic hyperplasia tissue and one of 5 samples of prostate carcinoma tissue. However, this apparent aromatase activity was not inhibited by 4-hydroxyandrostenedione (0.5 and 5.0 microM), and none of the particulate fractions (100,000 g pellet) prepared from each of the prostatic tissues exhibited aromatase activity. Particulate fractions from rat ovary (n = 3) and human testes (n = 6) displayed significant aromatase activity (mean values of 9.9 and 0.033 nmol estrone formed/g protein/h, respectively). The testicular aromatase was inhibited by aminoglutethimide, 4-hydroxyandrostenedione and CGS 16949A with IC50 values of 6.4, 0.17 and 0.0017 microM, respectively. These are of a similar order to values obtained with the aromatase enzyme from human placental microsomes (14, 0.43 and 0.0075 microM, respectively).

Inhibition of enzymes of estrogen and androgen biosynthesis by esters of 4-pyridylacetic acid

A variety of esters of 4-pyridylacetic acid have been prepared by base mediated exchange from the methyl ester. Several of the esters of alcohols that contained a cyclohexyl ring were potent inhibitors of human placental aromatase and of the rat testicular 17 alpha-hydroxylase/C17-20lyase complex. The most potent agents found against both enzyme complexes were the borneyl, isopinocampheyl, and 1-adamantyl esters. These were over 100 times more potent than aminoglutethimide against aromatase and of greater potency than ketoconazole against hydroxylase/lyase. Potency against either enzyme complex was reduced if the ester function was borne on the cyclohexyl ring in an axial rather than an equatorial position. Some differential selectivity could be introduced since whereas methyl substitution adjacent to the carbonyl group reduced the inhibition of aromatase, it increased that against hydroxylase/lyase.

Crystallographic and molecular modeling studies on 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione and its butyl analogue, inhibitors of mammalian aromatase. Comparison with natural substrates: prediction of enantioselectivity for N-alkyl derivatives

Inhibitors of the cytochrome P450 enzyme aromatase, which is involved in the biosynthesis of estrogens from androgens, are of proven utility in the treatment of hormone-dependent breast cancer. The determination of the crystal structure of one such inhibitor, 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione (2) and its 3-butyl analogue (3) is described. In the absence of three-dimensional structural information for the enzyme, conformational analysis and comparison with natural substrates has been performed in order to define possible "active" conformations. The enhanced inhibitory activity of 3 may be linked to hydrophobic interactions between the side chain and that portion of the enzyme that normally interacts with the B and C rings of a steroid substrate. Information gained from this study and previous studies by other workers has been combined in order to produce a hypothesis to explain the pattern of activity of N(1)-alkyl derivatives of 2. The successful application of this hypothesis to the prediction of the relative aromatase inhibitory activities of the two enantiomers of the N-octyl derivative (4) is described.

Hydroxyperfluoroazobenzenes: novel inhibitors of enzymes of androgen biosynthesis

In a search for inhibitors of 17 alpha-hydroxylase-C17,20-lyase and testosterone-5 alpha-reductase, target enzymes in the development of drugs to treat hormone-dependent prostatic cancer, we have identified certain compounds chemically derived by the hydrolysis of decafluoroazobenzene (4) as novel inhibitors for these two enzymes. Hydrolysis of 4 gave the known 4-hydroxynonafluoroazobenzene (1) and the novel 2-hydroxynonafluoroazobenzene (2). By AlI3 demethylation of 4,4'-dimethoxyoctafluoroazobenzene (5) or by hydrolysis of 4 under phase-transfer conditions 4,4'-dihydroxyoctafluoroazobenzene (3) was obtained. Compounds 1 and 2 were inhibitors of the hydroxylase (IC50 values, respectively, 30 and 63 microM) and of the lyase (IC50 values 33 and 16 microM) steps on the pathway of androgen biosynthesis. The 2-hydroxy compound 2 underwent spontaneous conversion into octafluorodibenz[b,f][1,4,5]oxadiazepine (6) which had IC50 values, respectively, of 50 and 15 microM for the hydroxylase and lyase steps and which contributed to the observed activity of 2. Effective inhibitors of the 5 alpha-reductase were 1 (Ki 10 microM) and 3 (Ki4 microM): the activities of 1 and 3 were markedly pH dependent, with respective IC50 values of 14 and 5 microM at pH 7.4 and of 2 and 0.8 microM at pH 6.6.

Variation of the inhibition of calmodulin dependent cyclic AMP phosphodiesterase amongst analogues of tamoxifen; correlations with cytotoxicity

The ability of a variety of analogues of tamoxifen to inhibit calmodulin dependent cyclic AMP phosphodiesterase has been determined. Effective inhibition requires that the aminoethoxy side chain bears a positive charge at physiological pH and is not too bulky. Amongst 4-substituents, inhibitory potency increases with lipophilicity. The stereochemistry about the olefinic linkage is not important. The most potent agent found (IC50 1.4 microM, compare tamoxifen = 6.75 microM) has a 4-iodine substituent and pyrrolidino in place of dimethylamino. This analogue is also more cytotoxic than tamoxifen against MCF-7 human breast cancer cells as determined in a 24-hr assay, but there was no correlation found between calmodulin inhibition and cytotoxicity against the L1210 murine leukaemia or Walker rat carcinosarcoma cells in culture. The results are consistent with the possibility that calmodulin is important to the functioning of oestrogen receptor mediated growth in MCF-7 cells.

Inhibition of 17 alpha-hydroxylase/C17-C20 lyase by bifluranol and its analogues

A simple assay for the measurement of the activities of both 17 alpha-hydroxylase and C17-C20 lyase is described. No extraction procedures are required. The separation of substrate and products is achieved using HPLC which allows the collection of the components of interest and the monitoring of the recovery of various steroids. Using this assay, bifluranol (known to show anti-prostatic activity in vivo) and some analogues were tested for inhibitory activity towards these enzyme activities. Each compound was active, although less potent than ketoconazole, and this activity may contribute towards the in vivo action.

Intratumoral aromatase as a prognostic factor in human breast carcinoma

Intratumoral aromatase activity (AA) was measured in 145 samples of human primary breast carcinoma using the tritiated water release assay which quantifies the tritium lost to water during the aromatization of 1 beta-[3H]androstenedione to estrone. Significant AA was detected in 91/145 (63%) tumors. The possibility of a relationship between AA and a variety of clinical prognostic factors such as estrogen receptors, menopausal status, site, size, and histological grade of tumor was investigated. Possible relationship with time to relapse, overall survival, and survival of patients after relapse were also studied to determine whether intratumoral AA itself was of any prognostic value. There was no relationship between AA and tumor size, site, nodal status, menopausal status or estrogen receptors. However there was a significant correlation between AA and histological grade with an excess of AA-positive tumors having high grade (P = 0.03). There was no significant relationship between AA and overall survival (P greater than 0.1), but there was a marginal inverse correlation between AA and time to relapse (P less than 0.1). A statistically significant correlation was found between AA and survival of patients after relapse (P less than 0.05).

Selective inhibition of cholesterol side-chain cleavage by potential pro-drug forms of aminoglutethimide

Potential pro-drugs for aminoglutethimide (1) an agent used for the treatment of hormone-dependent breast cancer have been synthesized, namely the azo-(2), azoxy-(3) and hydrazo-(4) derivatives. These compounds have been tested for inhibitory action towards the two main target enzymes for 1, aromatase and the cholesterol side-chain cleavage enzyme complex, P-450scc. None inhibited aromatase but 3 and 4 inhibited P-450scc, the respective IC50 values being about twice and one-half that for 1. Compounds 1 and 3 were also tested as inhibitors of the 17 alpha-hydroxylase-C17,20 lyase complex in comparison with ketoconazole which acts against prostatic cancer by this mechanism. The azoxy-derivative 3 was a weak inhibitor but 1 was inactive.

1-Alkyl analogues of aminoglutethimide. Comparative inhibition of cholesterol side chain cleavage and aromatase and metabolism of the 1-propyl derivative, a highly selective inhibitor of aromatase

A homologous series of 1-n-alkyl-derivatives of aminoglutethimide (AG) has been synthesised and tested for inhibitory activity towards the cholesterol side chain cleavage enzyme (desmolase) from bovine adrenals and human placental aromatase in an attempt to find a selective aromatase inhibitor. Activity against desmolase declined from an IC50 value of 30 microM for the parent drug to 220 microM for the n-propyl derivative but increased again thereafter. Against aromatase, activity was least for the methyl and ethyl derivatives and highest (IC50 = 1.6 microM) for the hexyl and octyl analogues. The optimal ratio IC50 (desmolase):IC50 aromatase of 44 was found for the n-propyl derivative, which was therefore selected for preliminary metabolism studies using rat and mouse liver microsomes and hepatocytes and in these species in vivo. There were parallels with AG, most notably in the analogous formation from the n-propyl derivative of an arylhydroxylamine in the mouse.

Analogues of aminoglutethimide based on 1-phenyl-3-azabicyclo[3.1.0]hexane-2,4-dione: selective inhibition of aromatase activity

In exploring the structural features responsible for the inhibitory activity of aminoglutethimide [3-(4-aminophenyl)-3-ethylpiperidine-2,6-dione] (1) toward the cholesterol side chain cleavage (CSCC) enzyme from bovine adrenals and the human placental aromatase enzyme, analogues have been synthesized in which the piperidine-2,6-dione ring is replaced by substituted or unsubstituted azabicyclo[3.1.0]hexane-2,4-dione rings. The unsubstituted analogue 1-(4-aminophenyl)-3-azabicyclo[3.1.0]hexane-2,4-dione (9a) is a slightly more potent inhibitor of aromatase than 1 (Ki = 1.2 microM, cf. 1.8 microM for 1) but is noninhibitory toward the CSCC enzyme. The substituted analogues 1-(4-aminophenyl)-3-butyl-3-azabicyclo[3.1.0]hexane-2,4-dione (9e) and 1-(4-aminophenyl)-3-pentyl-3-azabicyclo[3.1.0]hexane-2,4-dione (9f) are approximately 100 times more potent than 1 (Ki values of 1, 9e, and 9f are 1.8, 0.015, and 0.02 microM, respectively) in inhibiting aromatase, with no significant activity toward the CSCC enzyme. Type II difference spectra were exhibited by 1, 9a, and 9f in their interaction with the aromatase enzyme (respective Ks values of 1, 9a, and 9f are 0.13, 0.08, and 0.01 microM). Modification of the para amino function by alkylation, its relocation, replacement by H, or replacement by a methyl, aldehyde, or secondary alcohol group produced analogues that were inactive toward both enzyme systems.

Structure-activity relationships for non-steroidal inhibitors of aromatase

A model is described for the binding of non-steroidal inhibitors of aromatase to the enzyme with interaction of a ligand with the Fe3+-haem of the cytochrome. The model suggests that the inhibitors utilise a common binding site with ring A of the steroidal substrates.

Analogues of 3-ethyl-3-(4-pyridyl)piperidine-2,6-dione as selective inhibitors of aromatase: derivatives with variable 1-alkyl and 3-alkyl substituents

3-Ethyl-3-(4-pyridyl)piperidine-2,6-dione (1) is a strong competitive inhibitor of human placental aromatase (Ki = 1.1 microM; testosterone as substrate) that, unlike the structurally related aromatase inhibitor aminoglutethimide (2), is not also an inhibitor of the cholesterol side-chain cleavage enzyme desmolase. An improved synthesis of 1 is described, which was readily adapted to the preparation of homologues in a series of 3-alkyl-3-(4-pyridyl)-piperidine-2,6-diones (6-13). Alkylation of 1 afforded a second series, comprising 1-alkyl-3-ethyl-3-(4-pyridyl)-piperidine-2,6-diones (14-23). Inhibitory activity toward aromatase was maximal in both series for the octyl derivatives. Respective Ki values for the competitive inhibition exerted by the 3-octyl (12) and the 1-octyl (21) analogues with testosterone as substrate were 0.09 and 0.12 microM. The compounds 1, 2, 12, and 21 differed in their relative potencies as inhibitors of the aromatization of testosterone and androstenedione. Respective Ki values were as follows: for 1, 1.1 and 14 microM (ratio 12.7); for 2, 0.6 and 1.8 microM (3); for 12, 0.09 and 0.20 microM (2.2); and for 21, 0.12 and 0.48 microM (4).

Synthesis and evaluation of analogues of 4-androstene-3,17-dione as aromatase inhibitors

Twenty-three synthetic analogues of 4-androstene-3,17-dione (androstenedione) have been evaluated as inhibitors of human placental microsomal aromatase enzyme. Among the most potent of these compounds were the 4-hydroxy, 6 alpha-fluoro, 6 beta-fluoro, and 4-fluoroandrostenediones and 4-fluoro-19-nor-4-androstene-3,17-dione. 4-Hydroxy-4-androstene-3,17-dione (4HAD) is an irreversible inhibitor of aromatase in vitro, whereas the four fluoro analogues are reversible inhibitors. 4HAD and 4-fluoro-4-androstene-3,17-dione caused significant regression of the nitrosomethylurea-induced mammary tumor in rats, but the other fluoro derivatives were inactive.

Synthesis and biochemical evaluation of analogues of aminoglutethimide based on phenylpyrrolidine-2,5-dione

A series of (aminophenyl)pyrrolidine-2,5-diones has been prepared that bear structural similarities to aminoglutethimide (1, 3-(4-aminophenyl)-3-ethylpiperidine-2,6-dione). The inhibitory activity of these compounds was evaluated toward human placental aromatase and bovine adrenal cholesterol side chain cleavage (CSCC) enzyme assay systems. Selective, competitive inhibition of the aromatase enzyme system was demonstrated by 5 (3-(4-aminophenyl)-1-methyl-pyrrolidine-2,5-dione, Ki = 1.75 microM), 6 (3-(4-aminophenyl)-1,3-dimethylpyrrolidine-2,5-dione, Ki = 1.75 microM), 7 (3-(4-aminophenyl)-3-methylpyrrolidine-2,5-dione, Ki = 0.8 microM), and 8 (3-(4-aminophenyl)-3-ethylpyrrolidine-2,5-dione, Ki = 1.0 microM). Compound 15 (3-(4-aminophenyl)pyrrolidine-2,5-dione) proved unexpectedly difficult to prepare following standard methods and was only moderately inhibitory toward aromatase (IC50 = 20 microM). Compound 16 (3-(4-aminophenyl)-3-ethyl-1-methylpyrrolidine-2,5-dione) was weakly inhibitory toward testosterone aromatization and totally inactive toward androstenedione aromatization. These compounds were either weak or ineffective inhibitors of the CSCC enzyme systems, while 1 gave Ki values toward aromatase and CSCC enzymes of 0.68 and 14 microM, respectively. The unsubstituted phenylpyrrolidinediones were inactive in either system, and the 4-nitrophenyl derivatives exhibited weak, nonselective inhibition, indicating the importance of the primary amine moiety for potent inhibition of aromatase activity.

Effect of omega-trifluorination on the microsomal metabolism of ethyl and pent-1-yl p-nitrophenyl ether

p-Nitrophenyl pent-1-yl ether was metabolized (65-70%) in the presence of liver microsomes from phenobarbital-treated rats to give the 4-(major), 3-(minor), and 2-hydroxypent-1-yl (minor) derivatives which were characterized by g.l.c.-mass spectrometry; O-dealkylation (reflecting 1-hydroxylation) and 5-hydroxylation did not occur to a significant extent. 5,5,5-Trifluorination of the pent-1-yl group markedly reduced the extent of metabolism (to approximately 10%). p-Nitrophenyl 2,2,2-trifluoroethyl ether was virtually completely resistant to microsomal metabolism under conditions where the ethyl analogue was extensively O-dealkylated.

Analogues of aminoglutethimide: selective inhibition of aromatase

In exploring further the structural features that influence the relative efficacy of analogues of aminoglutethimide [1, 3-(4-aminophenyl)-3-ethylpiperidine-2,6-dione] as inhibitors of the cholesterol side-chain cleavage enzyme system desmolase and the estrogen forming system aromatase, analogues have been synthesized in which the aminophenyl substituent is replaced by pyridyl or substituted pyridyl. The 4-pyridyl analogue 5 [3-ethyl-3-(4-pyridyl)-piperidine-2,6-dione] is a strong competitive inhibitor of aromatase (Ki = 1.1 microM; value for 1, 0.60 microM), which exhibits a type II difference spectrum (Ks = 0.28 microM; value for 1, 0.13 microM) but is noninhibitory toward desmolase. The 2- and 3-pyridyl analogues (3 and 4) inhibit neither enzyme system. 1-Amino-3-ethyl-3-phenylpiperidine-2,6-dione (2) is a strong and selective inhibitor of desmolase but the 4-pyridyl analogue 10 [1-amino-3-ethyl-3-(4-pyridyl)-piperidine-2,6-dione] is a weak inhibitor of desmolase and aromatase. Analogues of 5 having a less basic aromatic substituent, namely, the N-oxide 11 and the 2,3,5,6-tetrafluoro derivative 13, were also prepared. The latter is a weak inhibitor of aromatase and the former inhibits neither enzyme system.

Metabolism of 1,1,1,2,2-pentafluorohexane and 1,1-difluorocyclohexane by rat liver microsomes in vitro

Metabolism of 1,1,1,2,2-pentafluorohexane with liver microsomes from phenobarbital-treated rats gave only one metabolite, namely, the 5-hydroxy derivative. Under similar conditions 1,1-difluorocyclohexane was metabolized to give mainly the 3- and 4-hydroxy derivatives in the ratio 1: approximately 5.5. The structures of these metabolites were established by chemical ionization (CI) and/or electron impact (EI) mass spectrometry and confirmed by synthesis in the case of 1,1-difluorocyclohexan-4-ol. Oxidation of 1,1-difluorocyclohexane with lead tetrakis(trifluoroacetate) also gave, inter alia, the 3- and 4-hydroxy derivatives. In saturated hydrocarbons complete replacement of hydrogen by fluorine at one particular carbon will not only block microsomal hydroxylation thereat but will also inhibit hydroxylation at neighbouring hydrogen-bearing carbons, (alpha almost completely, beta markedly, gamma slightly).