Antiproliferative effects of isopentenylated coumarins isolated from Phellolophium madagascariense Baker.

From the leaves of Phellolophium madagascariense Baker (Apiaceae), an endemic herb to Madagascar, three known coumarins (osthol, murraol and meranzin hydrate) have been isolated and identified. This is the first report of these compounds in this species. The structural elucidations were based on the analysis of physical and spectroscopic data. The anticancer activity of the three isolated compounds and of a synthetic sample of osthol was evaluated on L1210 mouse leukemia and on human prostatic cancer hormonosensitive LNCaP and hormonoindependent PC3 and DU145 cell lines.

Solid-phase synthesis and pharmacological evaluation of a library of peptidomimetics as potential farnesyltransferase inhibitors: an approach to new lead compounds.

Oncogenic Ras proteins whose activation is farnesylation by farnesyltransferase have been seen as important targets for novel anticancer drugs. Inhibitors of this enzyme have already been developed as potential anti-cancer drugs, particularly by rational design based on the structure of the CA(1)A(2)X carboxyl terminus of Ras. Synthesis of a peptidomimetics library via solid-phase synthesis using the Multipin method is described here. The most active hits on cellular assays were resynthesized and enzymatic activity was measured. Compounds A1, A5 and A7 present significant activity on the isolated enzyme (IC(50)=117, 57.3 and 28.5 nM) and their molecular docking in the active site of the enzyme provides details on key interactions with the protein.

Modification of eicosanoid profile in human blood treated by dual COX/LOX inhibitors.

The arachidonic acid metabolizing enzymes, the cyclooxygenases (COXs) and lipoxygenases (LOXs), have been implicated in the development of a variety of cancers and numerous new therapeutic inhibitors are currently under investigation. However, given the interdependence of the two pathways, the effect of inhibiting one pathway with relatively selective agents can only be appreciated in the in vivo situation. Clearly then, because of their potential beneficial or deleterious effects, it is important to understand the nature and levels of the resulting arachidonic acid metabolites when treating patients with relatively selective inhibitor drugs. In this study, using reference COX-2, 5-LOX and dual COX-2/5-LOX inhibitors, we devised a protocol which permitted the simultaneous quantification of eicosanoid metabolites formed during stimulation of human peripheral venous blood samples with the calcium ionophore, A23187, in the absence and presence of lipopolysaccharide (LPS). Not surprisingly, the end products of both COX and LOX pathways were affected depending on the inhibitor, or combination of inhibitors, used and the concentrations of drug tested. In conclusion, the method described permits the rapid screening of novel compounds for potentially positive and/or negative effects upon the products of arachidonic acid metabolism.

[Involvement of PI3K/Akt pathway in prostate cancer. Potential strategies for developing targeted therapies]. / Implication de la voie PI3K/Akt dans le cancer de la prostate. Nouvelles stratégies pour concevoir des thérapies ciblées.

Because of the unavailability of effective therapies to block or reverse the progression of androgen-independent prostate cancer, it seems obvious to target growth signaling pathways for which frequently recurring mutations have been identified. Acquired mutations of the PTEN gene have been reported in several tumor types, including up to 30% - 60% of prostate cancer tumors. This results in constitutive activation of the PI3K/Akt pathway which then represents a major target to prevent dysfunctions in cell growth, survival and motility. Our experience and, therefore, our own tools allow us to design new inhibitors of growth factor receptor tyrosine kinase, PDK-1 and farnesyltransferase activities. These original compounds could selectively switch off one or several steps of the multifunctional pathway and constitute lead compounds in the design of new classes of potent drugs.

New analogues of the anticancer E7070: synthesis and pharmacology.

Cell cycle control in the G1 phase has attracted considerable attention in recent cancer research, because many of the important proteins involved in G1 progression or G1/S transition have been found to play a crucial role in proliferation, differentiation, transformation, and programmed cell death (apoptosis). E7070 is a novel antitumor sulfonamide, with a unique mode of action that affects G1 progression of the cell cycle. A series of compounds containing an N-[1-(3,4,5-trimethoxybenzyl)-1H-indol-5-yl]benzene sulfonamide, analogues of E7070, was synthesized and evaluated as potential antitumor agents. Cell cycle analysis with PC3 human prostate cancer cells revealed a cellular accumulation in the G1 phase.

Phosphodiesterase 4 inhibitors as airways smooth muscle relaxant agents: synthesis and biological activities of triazine derivatives.

A series of triazine derivatives was synthesized. The compounds were evaluated for tracheal smooth muscle relaxant and type 4 phosphodiesterase inhibitory activities. A highly significant correlation was observed between the two effects. Two compounds exhibited potent relaxant activity (EC50: 17 and 24 nM) and might be useful for the treatment of asthma.

Synthesis and antiproliferative properties of 4-aminoquinazoline derivatives as inhibitors of EGF receptor-associated tyrosine kinase activity.

The mitogenic action of EGF is mediated by ligand-induced autophosphorylation of the EGF receptor (EGF-R), which is commonly overexpressed in numerous human cancers. Inhibitors of receptor tyrosine kinase (RTK) activity could therefore be considered as effective potential antitumor agents. For this purpose, 4-aminoquinazoline derivatives were prepared and evaluated for their ability to inhibit RTK activity and the autophosphorylation of EGF-R. In addition, these compounds were tested on A431 cell growth to estimate their antiproliferative effect. The results showed that the substituent at the 4-position of the quinazoline ring must be an aromatic amine carrying small lipophilic electron-withdrawing groups on the 3- (or 2-) position of the phenyl ring. This aromatic moiety might be far from the quinazoline provided that the linking group is conformationally restricted, such as with piperazine. Hydrophilic and non-aromatic substituents such as morpholine gave completely inactive compounds. Introduction of a bulk at the 2-position of the quinazoline ring in 2,4-diaminoquinazolines or tricyclic compounds led to inactive products. This study reports additional structure-activity relationships of a well-characterized series to develop new inhibitors of EGF-R-associated tyrosine kinase activity.

Synthesis, DNA-binding and cytotoxic properties of a bis(netropsin)-anthracenedione conjugate.

A combilexin molecule containing two netropsin moieties attached to the aminoalkyl side chains of mitoxantrone has been synthesized and evaluated for cytotoxic activity towards murine L1210 leukaemia and human MCF7 carcinoma cells in vitro. It is marginally less cytotoxic than mitoxantrone but much more growth-inhibitory than netropsin. Various spectroscopic and biochemical techniques have been employed to characterize the interaction of the drug, NetMitox, with DNA. Circular dichroism (CD) and electric linear dichroism (ELD) data indicate that binding of the netropsin moiety or moieties within the minor groove of the double helix impedes the intercalation of the adjacent anthracenedione ring. ELD and footprinting experiments reveal a certain amount of mutual interference between the two functionalities of the conjugate molecule but the selective recognition of AT-rich sequences by netropsin largely dominates the recognition pattern. The lack of interaction with GC-rich sequences is attributable to steric hindrance occasioned by the 2-amino group of guanine which impedes access of the netropsin moiety into the minor groove, as is evident by the good binding of the hybrid to poly(dI-dC) x poly(dI-dC) as well as by the redistribution of its binding sites on DNA molecules substituted with inosine and/or 2,6-diaminopurine. The difficulty of the anthracenedione system in intercalating correlates with the lack of effect of the drug on cleavable complex formation with topoisomerase II as well as its diminished cytotoxicity compared to mitoxantrone. However, the finding that the drug retains significant toxicity towards leukaemia cells may suggest that DNA is perhaps not the unique molecular target.

Antioxidant defence capacity modulation of two human cell lines by amiodarone and desethylamiodarone.

Although the role of oxidative stress has recently been the subject of increased discussion in relation to the pathogenesis of amiodarone (AMIO) toxicity, the cellular mechanisms underlying the hepatic and pulmonary disorders remain unknown. In order to investigate the effects of AMIO and its active metabolite desethylamiodarone (DEA) on the cellular antioxidant status, defence capacities of liver and lung cell lines have been first compared with published data on normal corresponding cells. Glutathione content, superoxide dismutase (SOD) and glutathione-related enzymes were then determined in Hep 3B and L132 cells, after AMIO and DEA treatment. Although no glutathione peroxidase could be detected in either cell line, Hep 3B and L132 cells were able to express normal glutathione S-transferase (GSH-S-T) and glutathione reductase (GSSG-Rd) activities. The principal targets of AMIO and DEA were, respectively, GSH-S-T and GSSG-Rd in Hep 3B cells, while SOD was significantly decreased by both drugs in L132 cells. Concomitantly, glutathione status (defined as the ratio of oxidized to total glutathione) was altered in Hep 3B but not in L132 cells. These findings suggest that the first step of amiodarone-induced Hep 3B and L132 cell lesions may result from the overwhelming of their antioxidant defence system.

A new vasoactive intestinal peptide antagonist discriminates VIP receptors on guinea pig trachea and human neuroblastoma cells.

VIP is a widely distributed neuropeptide of 28 amino acids, whose central part is proposed to be an amphiphilic alpha-helix. In order to gain an understanding of the effect of this alpha helix on receptor binding and stimulation, a human VIP analog has been designed in which the residues 12 to 19 were replaced by a spacer of the same length, (gamma-aminobutyryl)2. This peptide altered neither the basal guinea pig tracheal smooth muscle tonus nor the VIP-induced relaxation. Conversely, the VIP analog was found to displace VIP from its binding sites on LA-N-2 human neuroblastoma cells (VIP IC50: 5.4 nM; VIP analog IC50: 52.2 nM) and to inhibit the VIP-induced cyclic AMP production of 58 +/- 15% at 1 microM and 95 +/- 2% at 10 microM. It seems that the alpha helix structure might only play the role of a spacer holding the important residues, at the N- and C-ends, respectively, at an appropriate distance. In the VIP analog structure, the (gamma-aminobutyryl)2 chain introduced in place of the alpha helix plays the role of adequate spacer to bind the LA-N-2 receptors but probably does not induce the active conformation for receptor stimulation. The lack of VIP analog effects on the tracheal receptors related to relaxation argues for a possible heterogeneity of VIP receptors on a pharmacological basis.

High-performance liquid chromatographic determination of cyclic 3',5'-AMP with fluorescence detection. Vasoactive intestinal peptide-induced modification of its concentration in neuroblastoma cells.

The efficiency of ion-pair reversed-phase HPLC on a Vydac C18 column with 50 mM ammonium acetate (pH 4.75)-methanol-acetonitrile (88:9:3, v/v/v) as the mobile phase with isocratic separation and fluorescence detection for the determination of cAMP in cellular extracts was evaluated. This method was compared with a radioimmunoassay technique in terms of linearity, reproducibility and sensitivity. No interactions with other nucleotides such as AMP, ADP, ATP and cGMP were observed. Application to the measurement of cAMP modifications was studied in a neuroblastoma cell line: LA-N-2 cells stimulated by a neuropeptide, vasoactive intestinal peptide.

Chemoresistance to doxorubicin and cisplatin in a murine cell line. Analysis of P-glycoprotein, topoisomerase II activity, glutathione and related enzymes.

Resistance to antineoplastic drugs has often been associated with P-glycoprotein overexpression, this certainly being not the sole mechanism. In order to characterize resistance to doxorubicin and cisplatin, we have analysed P-glycoprotein expression, topoisomerase II activity, glutathione and related enzymes in murine leukemic cells (doxorubicin or cisplatin-resistant). The doxorubicin-resistant cells contained P-glycoprotein, showed lower activities of glutathione S-transferase well as of glutathione reductase and topoisomerase II. The modifications observed in the most cisplatin-resistant cell line were a higher activity of glutathione S-transferase isoenzyme pi and topoisomerase II. These results suggest that drug uptake, glutathione metabolism as well as topoisomerase II activity are all characteristic of multidrug resistance.

Synthesis and antitumor properties of an anthraquinone bisubstituted by the copper chelating peptide Gly-Gly-L-His.

A new molecule 4 [(GGH-DAE)2DHQ] associating the 1,4,5,8-tetrahydroxyanthraquinone ring (DHQ) of the antitumor drug mitoxantrone (2), two diaminoethylene chains (DAE), and the metal-chelating peptide Gly-Gly-His (GGH) has been synthesized. Such a molecule presents characteristics able to induce antitumor activity: compound 4 intercalates into DNA as measured by delta Tm, fluorescence quenching, and viscometry; ESR studies demonstrate that several types of Cu complexes are formed depending on pH; and the production of free radicals, as evidenced by spin-trapping, is enhanced by 4. In vitro, in leukemia cells L1210 and mammary cells MCF7, 4 is slightly less cytostatic than mitoxantrone, but substantially less toxic. In vivo, in leukemia P388 on mice, a T/C value of 230 is obtained at 25 mg/kg, higher than the one of mitoxantrone, which is toxic at the same dose.

Binding to DNA, cellular uptake and biological activity of a distamycin-ellipticine hybrid molecule.

A hybrid molecule which conjugates the minor groove binding agent distamycin and an ellipticine derivative was synthesized and evaluated for cytostatic and cytotoxic activities against L1210 leukaemia cells in vitro. The binding of the hybrid molecule, named 'Distel', to a range of natural DNAs and synthetic polynucleotides with different base pair arrangements was studied by electric linear dichroism. The interaction with DNA simultaneously implicates binding of the distamycin part in the minor groove and intercalation of the ellipticine chromophore. The drug binds to DNA without any apparent preference for AT or GC polynucleotides, and can accommodate both homopolymeric and co-polymeric sequences as a binding site. However, the geometry of the drug-DNA complex varies depending on the targeted sequence. The lower activity of the hybrid as compared to the ellipticine derivative cannot be explained in terms of DNA binding. Taking advantage of the fluorescence of the pyridocarbazole chromophore, fluorescence microscopy was used to map cellular uptake of the hybrid molecule compared to the ellipticine derivative. Both the conjugate and the ellipticine derivative preferentially accumulate in the nuclei of HeLa cells rather than in the cytoplasm. Nuclei of ellipticine derivative-treated cells appear markedly more fluorescent than those of cells treated with the hybrid, which seems to be preferentially located in the nucleoli. Therefore, we consider the possibility that the difference in cytotoxicity between the two ellipticine-containing drugs is due to different intranuclear concentrations of these two compounds.

VIP potentiates retinoic-acid effect on tissue transglutaminase activity in human neuroblastoma, the SK-N-SH cells.

Tissue transglutaminase (tTG) activity was used to test the potent regulatory role of vasoactive intestinal peptide (VIP) on Retinoic Acid-induced effect in human neuroblastoma cell line. The comparison between both differentiation and cell death related to tissue transglutaminase was discussed in this model. VIP alone was a potent differentiating agent in SK-N-SH cells but in the presence of retinoic acid (RA), this peptide rather potentiates RA-induced tTG activity which is now considered as an apoptosis marker in neuroblastoma cell line. This paper demonstrated an additional neuromodulator role for VIP.

Relationship between DNA-binding and biological activity of anilinoacridine derivatives containing the nucleic acid-binding unit SPKK.

The synthesis of two peptidic derivatives, including an anilinoacridine chromophore (related to the antileukemic drug amsacrine) and either the tetrapeptide SPKK (a nucleic acid-binding unit) (1) or the octapeptide SPKKSPKK (2), has been carried out. The interaction of both drugs with DNA has been studied. Binding data are consistent with a model in which the acridine nucleus occupies an intercalation site and the tetrapeptidic or octapeptidic portion is located in the DNA minor groove. Compound 1 fully intercalates into DNA. In contrast, minor groove binding of the octapeptide SPKKSPKK seems to partially modify the intercalative properties of the acridine moiety of 2. In vitro cytostatic and cytotoxic activities against a murine leukemia cell line (L1210), as well as inhibition of [3H]thymidine incorporation, are reported. Compound 1, which is a better inhibitor of DNA synthesis than 2, is also 2.8-fold more potent in terms of growth inhibition. Both drugs are efficient cytostatic agents, but are weakly cytotoxic. The DNA-binding abilities of the two molecules are well correlated to their biological properties. Thus, DNA can be considered as the primary target for these new ligands.

Antagonistic effect of a vasoactive intestinal peptide fragment, vasoactive intestinal peptide(1-11), on guinea pig trachea smooth muscle relaxation.

The conformation of various regions of vasoactive intestinal peptide (VIP) has been analyzed by semiempirical methods, CD, and NMR spectroscopy, indicating that residues 11-21 are most likely to be helical, whereas the amino-terminal portion VIP(1-11) could exhibit two beta-turn structures. VIP(1-11) inhibits 125I-VIP binding to intact guinea pig tracheal epithelial cells and the VIP-induced smooth muscle response. However, the endecapeptide exhibits no effect on the muscle tone. All these data suggest that VIP(1-11) may be a useful tool in studying VIP receptor recognition, its regulation, and cellular functions.

High-performance liquid chromatography assay of bleomycin in human plasma and rat hepatocytes in culture.

A sensitive and rapid linear-gradient, ion-paired, reversed-phase high-performance liquid chromatography technique using fluorescence detection was developed to quantify bleomycin (BLM) metabolites in the plasma of patients undergoing BLM therapy and in rat hepatocytes that had previously been incubated with 5 x 10(-5) M BLM. We could detect about 70 ng/ml using this procedure. BLM metabolites were assayed in the supernatant fractions of precipitated human plasma and in pellets of rat hepatocytes. Metabolite concentrations were below the level of detection in human plasma samples. In hepatocyte pellets, metabolites such as deamido-BLM A2 and deamido-BLM B2 were detected, indicating that isolated rat hepatocytes in culture can metabolize BLM analogues to the corresponding deamido-BLMs. The high-performance liquid chromatography procedure developed during this work can be used to study the metabolism of BLM in cell culture systems.

Design, synthesis, DNA binding, and biological activity of a series of DNA minor-groove-binding intercalating drugs.

A group of pseudopeptides, molecular combination of the natural antitumor agents distamycin or netropsin and the anilinoacridine chromophore (which is related to the synthetic antileukemic drug amsacrine) has been synthesized. Their DNA binding properties were determined and discussed in terms of their structural differences and in relation to their observed base-dependent binding. Binding data are consistent with a model in which the acridine nucleus occupies an intercalation site and the netropsin or distamycin residue resides in the DNA minor groove. Cytostatic and cytotoxic activities against a murine cell line are reported, as well as significant differences in the inhibition of DNA synthesis.

DNA-synthesis and tumor growth inhibitions by AGGA, a bleomycin-amsacrine hybrid derivative.

AGGA, [[(amino-2-ethyl)-2-aminomethyl]-2-pyridine-6-carboxylhistidyl-ami no-4- butyrylglycylamino]-4-phenyl-1-amino-9-acridine is a synthetic model gathering the simplified metal-chelating part of bleomycin and the intercalating moiety of amsacrine. This molecule was found to possess the metal-complexing and intercalative properties of both antitumor parent drugs. On the basis of results obtained on L1210 and HeLa S3 cells growth inhibition studies and labeled thymidine assay, AGGA clearly indicates a cytostatic activity. On the other hand, the oxygenated free radicals produced in the presence of iron and oxygen do not seem to be able to cleave DNA as BLM does. This lack of cytotoxicity is analyzed in terms of fundamental differences between BLM and AGGA-DNA complexes.