Discovery of novel 3-hydroxyandrosta-5,7-Diene-17-Carboxylic acid derivatives as anti-inflammatory bowel diseases (IBD) agents.

A series of steroidal compounds based on 3-hydroxyandrosta-5,7-diene-17-carboxylic acid core structure were designed, synthesized and bio-evaluated for their anti-inflammatory potency. Among them, compound 5c, 6f, and 6q effectively inhibited the production of nitric oxide (NO) in lipopolysaccharide (LPS) stimulated RAW 264.7 macrophages. They inhibited the expression of inducible NO synthase (iNOS) and prostaglandin synthase-2 (COX-2) at mRNA level. Compound 6q displayed inhibitory effects on both iNOS and COX-2 expression in a concentration-dependent manner. Furthermore, 6q was found to effectively decrease the mRNA and protein levels of interleukin 6 (IL-6). Mechanically, 6q could potently downregulate NF-κB signaling via suppression of the Akt/PI3K pathway. Moreover, 6q demonstrated high in vivo anti-inflammatory activities in a mouse colitis model induced by dextran sulfate sodium (DSS). Taken together, these data indicate that 6q represents a novel and promising anti-inflammatory bowel diseases (IBD) agent worthy of further investigation.

New steroidal oxazolines, benzoxazoles and benzimidazoles related to abiraterone and galeterone.

Seven new oxazoline, benzoxazole and benzimidazole derivatives were synthesized from 3ß-acetoxyandrosta-5,16-dien-17-carboxylic, 3ß-acetoxyandrost-5-en-17ß-carboxylic and 3ß-acetoxypregn-5-en-21-oic acids. Docking to active site of human 17α-hydroxylase/17,20-lyase revealed that all oxazolines, as well as benzoxazoles and benzimidazoles comprising Δ16 could form stable complexes with enzyme, in which steroid moiety is positioned similarly to that of abiraterone and galeterone, and nitrogen atom coordinates heme iron, while 16,17-saturated benzoxazoles and benzimidazoles could only bind in a position where heterocycle is located nearly parallel to heme plane. Modeling of the interaction of new benzoxazole and benzimidazole derivatives with androgen receptor revealed the destabilization of helix 12, constituting activation function 2 (AF2) site, by mentioned compounds, similar to one induced by known antagonist galeterone. The synthesized compounds inhibited growth of prostate carcinoma LNCaP and PC-3 cells at 96 h incubation; the potency of 2'-(3ß-hydroxyandrosta-5,16-dien-17-yl)-4',5'-dihydro-1',3'-oxazole and 2'-(3ß-hydroxyandrosta-5,16-dien-17-yl)-benzimidazole was superior and could inspire further investigations of these compounds as potential anti-cancer agents.

Novel steroidal 1,3,4-thiadiazines: Synthesis and biological evaluation in androgen receptor-positive prostate cancer 22Rv1 cells.

A flexible approach to previously unknown spirofused and linked 1,3,4-thiadiazine derivatives of steroids with selective control of heterocyclization patterns is disclosed. (N-Arylcarbamoyl)spiroandrostene-17,6' [1,3,4]thiadiazines and (N-arylcarbamoyl)17-[1',3',4']thiadiazine-substituted androstenes, novel types of heterosteroids, were prepared from 16ß,17ß-epoxypregnenolone and 21-bromopregna-5,16-dien-20-one in good to high yields by the treatment with oxamic acid thiohydrazides. The synthesized compounds were screened for antiproliferative activity against the human androgen receptor-positive prostate cancer cell line 22Rv1. Most of (N-arylcarbamoyl)17-[1',3',4']thiadiazine-substituted androstenes exhibit better antiproliferative potency (IC50 = 2.1-6.6 µM) than the antiandrogen bicalutamide. Compounds 7d with IC50 = 3.0 µM and 7j with IC50 = 2.1 µM proved to be the most active in the series under study. Lead synthesized compound 7j downregulates AR expression and activity in 22Rv1 cells. NF-κB activity is also blocked in 7j-treated 22Rv1 cells. Apoptosis is considered as a possible mechanism of 7j-induced cell death.

Synthesis of novel galeterone derivatives and evaluation of their in vitro activity against prostate cancer cell lines.

Prostate cancer is one of the main causes of male cancer-related deaths worldwide and the suppression of androgen receptor signalling is established as an effective strategy for the treatment. A series of galeterone analogues including several steroid-fused azacycles, as well as 17-(benzimidazol-1-ylimino), 16α-(benzimidazol-2-ylamino), and 16α-(benzothiazol-2-ylamino) steroid derivatives, were synthesized and tested against prostate cancer cell lines. Candidate compound 3f was shown to reduce AR-regulated transcription in a dose-dependent manner in nanomolar ranges and suppress expression of AR-regulated proteins Nkx3.1 and PSA in 22Rv1-ARE14 and VCaP cancer cell lines. Flexible docking study revealed similar position of 3f within AR binding site in comparison of galeterone even with stronger binding energy.

Synthetic study of andrastins: stereoselective construction of the BCD-ring system.

Andrastins are meroterpenes isolated from Penicillium sp. FO-3929 that display highly potent inhibitory activities toward protein farnesyltransferase. Structurally, they possess a unique steroidal tetracyclic skeleton (the ABCD-ring) with three contiguous quaternary stereocenters on the C-ring. Herein, we describe our nitrile cyclization-based approach to the stereoselective construction of the BCD-ring system of andrastins, which contains three contiguous quaternary stereocenters on the C-ring and the correct oxidation states of the D-ring.

Chloro-formyl steroids as precursors for hybrid heterosteroids: synthesis, spectroscopic characterization, and molecular and supramolecular structures.

Two new functionalized steroids containing both chloro and formyl substituents in ring A, and intended as precursors for the synthesis of hybrid systems, have been synthesized from ketosteroid precursors. 3-Chloro-2-formyl-17,17-dimethyl-18-nor-5α-androstane-2,13-diene, (I), and methyl 3-chloro-4-formyl-12-oxo-5ß-cholan-3-ene-24-oate, C26H37ClO4, (IV), have been synthesized using Vilsmeier reactions with 17ß-hydroxy-17α-methyl-5α-androstan-3-one and methyl 3,13-dioxo-5ß-cholan-24-oate, respectively. These products have been fully characterized using IR spectroscopy, 1H and 13C NMR spectroscopy, and high-resolution mass spectrometry, and in the case of (IV), a single-crystal X-ray diffraction study. Crystal structures have also been determined for the known analogues 3-chloro-2-formyl-17-oxo-5α-androst-2-ene, C20H27ClO2, (II), 3-chloro-2-formyl-5α-cholest-2-ene, C28H45ClO, (III), and the absolute and relative configurations are assigned for all four compounds (I)-(IV): when the fusion between rings A and B is trans, 3-chloro-2-formyl products are formed, but when this ring fusion is cis, a 3-chloro-4-formyl product results. The formation of (I) involves not only chloroformylation at ring A, but also dehydration and the 1,2 migration of a methyl group at ring D. In each of (II), (III) and (IV), rings B and C adopt almost perfect chair conformations, while ring A adopts a half-chair conformation. Ring D adopts an envelope conformation in each of (II) and (III), albeit differently folded in the two compounds, while in (IV), it adopts a half-chair conformation. A single C-H...O hydrogen bond links the molecules of (II) into C(6) chains which are linked into sheets by means of carbonyl-carbonyl interactions. The molecules of (IV) are linked into simple C(7) chains, again by a single C-H...O hydrogen bond, but there are no direction-specific interactions in (III) that are structurally significant.

Synthesis and PI3 Kinase Inhibition Activity of a Wortmannin-Leucine Derivative.

Wortmannin is a potent covalent inhibitor of PI3K that shows substantial in vivo toxicity and thus is unsuitable for systemic therapeutic applications. One possible approach to minimize systemic toxicity is to generate a latent wortmannin pro-drug that will be selectively activated in target tissues. To test this approach, a wortmannin derivative with a leucine linker attached to C20 has been synthesized and tested for inhibition of PI3K activity in prostate cancer cells. Analysis of PI3K pathway inhibition by Wormannin-Leu (Wn-L) and intact Wortmannin (Wn) showed that attachment of Leu at C-20 decreased potency of PI3K pathway inhibition 10-fold compared to intact wortmannin, yet exceeded the potency of a competitive PI3K inhibitor LY294002.

Enantioselective Total Synthesis of (+)-Wortmannin.

A concise and enantioselective total synthesis of the potent PI3K inhibitor (+)-wortmannin is described. A Pd-catalyzed cascade reaction was first developed to connect a synthon derived from Hajos-Parrish ketone to a furan moiety. The subsequent Friedel-Crafts alkylation of the ß-position of a furan ring to an epoxide was optimized to establish the C10 quaternary center. (+)-Wortmannin was eventually accomplished by transformations following a late-stage oxidation of the furan allylic position. Kinome profiling and in vitro enzymatic assays were performed on 17-ß-hydroxy-wortmannin and an epoxide analogue.

Synthesis of novel 17-(4'-formyl)pyrazolylandrosta-5,16-dienes and their derivatives as potent 17α-hydroxylase/C17,20-lyase inhibitors or antiproliferative agents depending on the substitution pattern of the heteroring.

A series of novel 17-(4'-formyl)pyrazolylandrosta-5,16-dienes were efficiently synthesized in two steps from pregnadienolone acetate with monosubstituted hydrazines via the cyclization/formylation sequence of the primarily formed hydrazones on treatment with the Vilsmeier-Haack reagent. The products were further transformed by deacetylation and subsequent reduction in order to enlarge the compound library available for pharmacological studies. Moreover, 4'-formylpyrazoles containing H or Me on the heteroring-N were subjected to oxime formation and Ac2O-induced dehydration to furnish the corresponding 4'-cyano derivatives in good yields. The antiproliferative activities of the structurally related steroidal 17-exo-pyrazole derivatives were tested in vitro on four human adherent breast cancer cell lines (MCF7, T47D, MDA-MB-231 and MDA-MB-361): the microculture tetrazolium assay revealed that seven compounds exerted better cell growth-inhibitory effects on some or all these cell lines than those of the reference cisplatin. With regard to the well-known structural features that a potent C17,20-lyase inhibitor should possess, some relevant derivatives were tested in vitro from the aspects of their inhibitory effects on rat testicular enzyme, and one of them proved to exert noteworthy enzyme-inhibitory action, with an IC50 (26 nM) of the same order of magnitude as that of abiraterone.

Cytochrome P450 for Citreohybridonol Synthesis: Oxidative Derivatization of the Andrastin Scaffold.

A biosynthetic gene cluster similar to that for andrastin A (1) was discovered in Emericella variecolor NBRC 32302. Ctr-P450, a cytochrome P450 uniquely present in the cluster, was coexpressed with the andrastin A biosynthetic genes, leading to the production of the antifeedant agent citreohybridonol (4), along with four new andrastin derivatives. The results revealed the unusual multifunctionality of Ctr-P450 and indicated that this approach can be applied for further natural product diversification.

Exemestane metabolites: Synthesis, stereochemical elucidation, biochemical activity and anti-proliferative effects in a hormone-dependent breast cancer cell line.

Exemestane is a third-generation steroidal aromatase inhibitor that has been used in clinic for hormone-dependent breast cancer treatment in post-menopausal women. It is known that exemestane undergoes a complex metabolization, giving rise to some already identified metabolites, the 17ß-hydroxy-6-methylenandrosta-1,4-dien-3-one (17-ßHE) and the 6-(hydroxymethyl)androsta-1,4,6-triene-3,17-dione (6-HME). In this study, four metabolites of exemestane have been analyzed, three of them were synthesized (6ß-spirooxiranandrosta-1,4-diene-3,17-dione (2), 1α,2α-epoxy-6-methylenandrost-4-ene-3,17-dione (3) and 17-ßHE (4)) while one was acquired, the 6-HME (6). The stereochemistry of the epoxide group of 2 and 3 has been unequivocally elucidated for the first time on the basis of NOESY experiments. New structure-activity relationships (SAR) have been established through the observation that the substitution of the double bonds by epoxide groups led to less potent derivatives in microsomes. However, the reduction of the C-17 carbonyl group to a hydroxyl group originating 17-ßHE (4) resulted in a significant increase in activity in MCF-7aro cells when compared to exemestane (IC50 0.25 µM vs 0.90 µM, respectively). All the studied metabolites reduced MCF-7aro cells viability in a dose and time-dependent manner, and metabolite 3 was the most potent one. Altogether our results showed that not only exemestane but also its main metabolites are potent aromatase inhibitors and reduce breast cancer cells viability. This suggests that exemestane efficacy may also be due to the active metabolites that result from its metabolic transformation. Our results emphasize the importance of performing further studies to expand our understanding of exemestane actions in breast cancer cells.

Improved synthesis of 17ß-hydroxy-16α-iodo-wortmannin, 17ß-hydroxy-16α-iodoPX866, and the [(131)I] analogue as useful PET tracers for PI3-kinase.

An improved method for the synthesis of 17ß-hydroxy-16α-iodo-wortmannin along with the first synthesis of 17ß-hydroxy-16α-iodoPX866 and [(131)I] radiolabeled 17ß-hydroxy-16α-[(131)I]iodo-wortmannin, as potential PET tracers for PI3K was also described. The differences between wortmannin and its iodo analogue were compared by covalently docking each structure to L833 in PI3K.

Toward the total synthesis of (±)-andrastin C.

An efficient approach to generate a fully functionalized cyclopenta[a]phenanthrene 34, the basic carbon framework of andrastin C (1c), is described. The present synthetic route features a stereoselective intramolecular Diels-Alder reaction of triene 12 and an intramolecular carbonyl ene reaction of 3-phenanthrenyl-2-(methoxymethoxy)propanal 31.

Refined preparation of 1alpha,3-dipyrrolidino-androsta-3,5-diene-17-one, a key intermediate in the exemestane synthesis.

A significant improvement of the patent route for exemestane synthesis has been achieved. The key intermediate 1alpha,3-dipyrrolidino-androsta-3,5-diene-17-one (7) was obtained in a good yield and effectively used without further isolation in the next reaction step. The original analytical method for the identification and quantification of the substrate androsta-1,4-diene-3,17-dione (ADD, 6), intermediate 7 and 1-pyrrolidinoandrosta-1,3,5-triene-17-one (9) impurity in the reaction mixture was applied. Due to the newly developed process, the economical synthesis of the final pharmaceutical product in a large scale was possible. In addition, the complete NMR characteristics of 7 was described for the first time. The experiments were also analyzed with the theoretical quantum mechanical density functional B3LYP calculations for the energy outputs in model reactions. Based on these studies hypothetical routes of key intermediate (7) formation have been suggested. These predictions were consistent with the solutions of kinetic equations fitted to the experimental curves for time-dependence of three components of the reaction mixture.

The chemical biology of phosphoinositide 3-kinases.

Since its discovery in the late 1980s, phosphoinositide 3-kinase (PI3K), and its isoforms have arguably reached the forefront of signal transduction research. Regulation of this lipid kinase, its functions, its effectors, in short its entire signaling network, has been extensively studied. PI3K inhibitors are frequently used in biochemistry and cell biology. In addition, many pharmaceutical companies have launched drug-discovery programs to identify modulators of PI3Ks. Despite these efforts and a fairly good knowledge of the PI3K signaling network, we still have only a rudimentary picture of the signaling dynamics of PI3K and its lipid products in space and time. It is therefore essential to create and use novel biological and chemical tools to manipulate the phosphoinositide signaling network with spatial and temporal resolution. In this review, we discuss the current and potential future tools that are available and necessary to unravel the various functions of PI3K and its isoforms.

Novel aromatase inhibitors by structure-guided design.

Human cytochrome P450 aromatase catalyzes with high specificity the synthesis of estrogens from androgens. Aromatase inhibitors (AIs) such as exemestane, 6-methylideneandrosta-1,4-diene-3,17-dione, are preeminent drugs for the treatment of estrogen-dependent breast cancer. The crystal structure of human placental aromatase has shown an androgen-specific active site. By utilization of the structural data, novel C6-substituted androsta-1,4-diene-3,17-dione inhibitors have been designed. Several of the C6-substituted 2-alkynyloxy compounds inhibit purified placental aromatase with IC(50) values in the nanomolar range. Antiproliferation studies in a MCF-7 breast cancer cell line demonstrate that some of these compounds have EC(50) values better than 1 nM, exceeding that for exemestane. X-ray structures of aromatase complexes of two potent compounds reveal that, per their design, the novel side groups protrude into the opening to the access channel unoccupied in the enzyme-substrate/exemestane complexes. The observed structure-activity relationship is borne out by the X-ray data. Structure-guided design permits utilization of the aromatase-specific interactions for the development of next generation AIs.

Novel series of 17ß-pyrazolylandrosta-5,16-diene derivatives and their inhibitory effect on 17α-hydroxylase/C(17,20)-lyase.

The Claisen condensation of 3ß-acetoxypregna-5,16-dien-20-one (1) with ethyl formate in the presence of sodium methylate in pyridine is known to lead to 3ß-hydroxy-21-hydroxymethylidenepregna-5,16-dien-20-one (2) in good yield. With the methods described for the preparation of the saturated D-ring pyrazolyl series, the reactions of 2 with phenylhydrazine and its p-substituted derivatives in acetic acid resulted in mixtures of two steroidal regioisomers, the 1'-aryl-3'-pyrazolyl-(4a-e) and 1'-aryl-5'-pyrazolyl (5a-e) steroids. Compounds 4a-e are unknown in the literature. The arylpyrazoles produced were tested against 17α-hydroxylase/C(17,20)-lyase (P450(17α)) in vitro and neither of the regioisomers exerted efficient inhibition.

A convenient synthesis of the side chain of loteprednol etabonate--an ocular soft corticosteroid from 20-oxopregnanes using metal-mediated halogenation as a key reaction.

A facile synthesis of the side chain of loteprednol etabonate, namely, chloromethyl-17α-[(ethoxycarbonyl))oxy]-11ß-hydro of loteprednol etabonate, viz., chloromethyl-17α-[(ethoxycarbonyl))oxy]-11xy-3-oxoandrosta-1,4-diene-17ß-carboxylate--an ocular soft corticosteroid, has been described starting from a 20-oxopregnane, namely, 3ß-acetoxy-pregn-5(6),16(17)-diene-20-one (16-dehydropregnenolone acetate, i.e., 16-DPA) using our recently developed metal-mediated halogenation as a key reaction.

A streamlined synthesis of androstadiene C-17 ester derivatives.

The development of a fully telescoped synthesis of a derivative of androstadiene C-17 esters made from epoxyparamethasone was demonstrated. This streamlining allowed for the elimination of isolation and solvent change after each synthetic step. Thus it not only drastically reduced the solvent waste, but also minimized the potential exposure to highly active intermediates thereby increasing the overall yield. The intuitively obvious advantage inherent to lowering the number of solvents was illustrated by applying standard green metrics.

A new steroidal 5,7-diene derivative, 3beta-hydroxyandrosta-5,7-diene-17beta-carboxylic acid, shows potent anti-proliferative activity.

The new steroidal 5,7-diene, 3beta-hydroxyandrosta-5,7-diene-17beta-carboxylic acid (17-COOH-7DA), was synthesized from 21-acetoxypregnenolone, with the oxidative cleavage of the side chain being dependent on the presence of oxygen. In human epidermal (HaCaT) keratinocytes, 17-COOH-7DA inhibited proliferation in a dose-dependent manner, starting at a dose as low as 10(-11) M. This inhibition was accompanied by decreased expression of epidermal growth factor receptor, bcl2 and cyclin E2 mRNAs and by increased expression of involucrin mRNA. Inhibition of proliferation was associated with slowing of the cell cycle in G1/G0 phases but not with cell death. 17-COOH-7DA was significantly more potent than pregnenolone, 17-COOH-pregnenolone, 17-COOCH(3)-7DA and calcitriol. 17-COOH-7DA also inhibited proliferation of normal human epidermal melanocytes and human and hamster melanoma lines, however, with lower potency than for keratinocytes. In normal human dermal fibroblasts 17-COOH-7DA stimulated proliferation in serum-free media but inhibited it in the presence of 5% serum. 17-COOH-7DA inhibited cell colony formation of human and hamster melanoma cells, and induced monocyte-like differentiation of human HL60 leukemia cells. Thus, the new steroidal 5,7-diene, 17-COOH-7DA, can serve as an inhibitor of proliferation of normal keratinocytes and normal and malignant melanocytes, as a condition-dependent regulator of fibroblast proliferation and a stimulator of leukemia cell differentiation.