Laurence Goossens

Synthesis and activity of a new methoxytetrahydropyran derivative as dual cyclooxygenase-2/5-lipoxygenase inhibitor.

Dual COX-2/5-LO inhibitors are described as potential new therapeutic agents for inflammatory diseases. A surprisingly potent effect of a 5-LO pharmacophoric group on the COX-2 inhibition is presented as well as pharmacological in vitro and in vivo results.

New selective carbonic anhydrase IX inhibitors: Synthesis and pharmacological evaluation of diarylpyrazole-benzenesulfonamides

Carbonic anhydrase (CA) IX expression is increased upon hypoxia and has been proposed as a therapeutic target since it has been associated with poor prognosis, tumor progression and pH regulation. We report the synthesis and the pharmacological evaluation of a new class of human carbonic anhydrase (hCA) inhibitors, 4-(5-aryl-2-hydroxymethyl-pyrazol-1-yl)-benzenesulfonamides. A molecular modeling study was conducted in order to simulate the binding mode of this new family of enzyme inhibitors within the active site of hCA IX. Pharmacological studies revealed high hCA IX inhibitory potency in the parameters nanomolar range. This study showed that the position of sulfonamide group in meta of the 1-phenylpyrazole increase a selectivity hCA IX versus hCA II of our compounds. An in vitro antiproliferative screening has been performed on the breast cancer MDA-MB-231 cell using doxorubicin as cytotoxic agent and in presence of selected CA IX inhibitor. The results shown that the cytotoxic efficiency of doxorubicin in an hypoxic environment, expressed in IC50 value, is restored at 20% level with 1μM CA IX inhibitor.

Design, Synthesis, and DNA-Binding of N-Alkyl(anilino)quinazoline Derivatives

New N-alkylanilinoquinazoline derivatives 5, 12, 20, and 22 have been prepared from 4-chloro-6,7-dimethoxyquinazoline 3, 4-chloro-6,7-methylenedioxyquinazoline 19, and commercially available anilines. Differents classes of compounds substituted by an aryloxygroup (6a-c, 16a,b, and 17a,b), (aminophenyl)ureas (12a,b and 13a-f), anilines (4a-m, 20a,b), N-alkyl(aniline) (5a-m, 21a,b, 22a,d), and N-aminoalkyl(aniline) (22e-g) have been synthesized. These molecules were evaluated for their cytotoxic activities and as potential DNA intercalating agents. We studied the strength and mode of binding to DNA of these molecules by DNA melting temperature measurements, fluorescence emission, and circular dichroism. The results of various spectral and gel electrophoresis techniques obtained with the different compounds, in particular compounds 5g and 22f, revealed significant DNA interaction. These experiments confirm that the N-aminoalkyl(anilino)-6,7-dimethoxyquinazoline nucleus is an efficient pharmacophore to trigger binding to DNA, via an intercalative binding process.

COX-2/5-LOX Dual Acting Anti-Inflammatory Drugs in Cancer Chemotherapy

Emerging reports now indicate alterations of arachidonic acid metabolism with carcinogenesis and many COX and LOX inhibitors (used for the treatment of inflammatory diseases) are being investigated as potential anticancer drugs. Results from clinical trials seem to be encouraging but a better knowledge of the dynamic balance that shifts toward lipoxygenases (and different isoforms of LOXs) and cyclooxygenase-2 are essential to progress in the design of new drugs more specially directed on chemoprevention or chemotherapy of human cancers. So, on the basis of these results, it seemed useful to study the advantages of combination of COX inhibitor with LOX inhibitor and a next step will be the conception of dual inhibitors able to induce the anticarcinogenic and/or to inhibit the procarcinogenic enzymes responsible for polyunsaturated fatty acid metabolism. After a rapid summary of some recent reviews published on the involvement of different COX and LOX isoforms present in human cells, we will discuss on cross-talk reported between the downstream pathways which contribute to the development and progression of human cancers. This will lead us to evoke and to justify alternative strategies to develop agents that modulate multiple targets simultaneously with the aim of enhancing efficacy or improving safety relative to drugs that address only a single enzyme.

[4-(6,7-Disubstituted quinazolin-4-ylamino)phenyl] carbamic acid esters: a novel series of dual EGFR/VEGFR-2 tyrosine kinase inhibitors

Investigating a series of anilinoquinazoline derivatives substituted by carbamic acid esters, we have established the importance of the carbamate functional group and the substitution on the arylamino ring by a donor/acceptor group such as halide or methyl. All the newly-synthesized compounds described were evaluated for both their in vitroEGFR and VEGFR-2 kinase inhibition and antiproliferative activities against various cancer cells. These novel compounds were effective tyrosine kinase inhibitors (TKIs) for these two enzymes with in vitro IC50 values in the submicromolar range, but showed a moderated inhibitory activity on cancer cells. Modification of the ether linkage at the 6- or 7- position of the quinazoline core with a basic or aliphatic side chain (70–80) was investigated and it was demonstrated that introduction of aminoalkyl substituents such as morpholinoethoxy is a key modification that increases antiproliferative activity.

Quinazoline derivatives as anticancer drugs: a patent review (2011 -- present)

Introduction: Quinazoline is one of the most studied moieties in medicinal chemistry due to the wide range of biological properties such as the anticancer, antibacterial, anti-inflammatory, antimalarial and antihypertensive activities. During the past decades, several patents and articles have been published in international peer-reviewed literature regarding the discovery and development of original and promising quinazoline derivatives for cancer treatment. Although quinazolines are well known to inhibit EGFR, there is also a large panel of other therapeutic protein targets. Areas covered: This review summarized the new patents and articles published about quinazoline derivatives as anticancer drugs since 2011. Expert opinion: Since 2011, a lot of quinazoline compounds have shown EGFR inhibition. Unlike the first-generation EGFR inhibitors, they inhibit both wild-type and mutated EGFR. In recent years, a number of studies on quinazoline synthesis have been reported and used by several medicinal chemistry groups for better and easier development of new derivatives. Therefore, several patents have been approved for the use of quinazoline compounds as inhibitors of other kinases, histone deacetylase, Nox and some metabolic pathways. Because of the large number of proteins targeted, some high structural diversity is observed in patented quinazoline compounds. Due to the vast applications of quinazoline derivatives, development of novel quinazoline compounds as anticancer drugs remains a promising field.

Impact of aryloxy-linked quinazolines: a novel series of selective VEGFR-2 receptor tyrosine kinase inhibitors.

Three series of 6,7-dimethoxyquinazoline derivatives substituted in the 4-position by aniline, N-methylaniline and aryloxy entities, targeting EGFR and VEGFR-2 tyrosine kinases, were designed and synthesized. Pharmacological activities of these compounds have been evaluated for their enzymatic inhibition of VEGFR-2 and EGFR and for their antiproliferative activities on various cancer cell lines. We have studied the impact of the variation in the 4-position substitution of the quinazoline core. Substitution by aryloxy groups led to new compounds which are selective inhibitors of VEGFR-2 enzyme with IC(50) values in the nanomolar range in vitro.

DNA Methylation Targeting: The DNMT/HMT Crosstalk Challenge

Chromatin can adopt a decondensed state linked to gene transcription (euchromatin) and a condensed state linked to transcriptional repression (heterochromatin). These states are controlled by epigenetic modulators that are active on either the DNA or the histones and are tightly associated to each other. Methylation of both DNA and histones is involved in either the activation or silencing of genes and their crosstalk. Since DNA/histone methylation patterns are altered in cancers, molecules that target these modifications are interesting therapeutic tools. We present herein a vast panel of DNA methyltransferase inhibitors classified according to their mechanism, as well as selected histone methyltransferase inhibitors sharing a common mode of action.

Label‐free characterization of carbonic anhydrase—novel inhibitor interactions using surface plasmon resonance, isothermal titration calorimetry and fluorescence‐based thermal shift assays

This work describes the development of biophysical unbiased methods to study the interactions between new designed compounds and carbonic anhydrase II (CAII) enzyme. These methods have to permit both a screening of a series of sulfonamide derivatives and the identification of a lead compound after a thorough study of the most promising molecules. Interactions data were collected using surface plasmon resonance (SPR) and thermal shift assay (TSA). In the first step, experiments were performed with bovine CAII isoform and were extended to human CAII. Isothermal titration calorimetry (ITC) experiments were also conducted to obtain thermodynamics parameters necessary for the processing of the TSA data. Results obtained with this reference methodology demonstrate the effectiveness of SPR and TSA. KD values obtained from SPR data were in perfect accordance with ITC. For TSA, despite the fact that the absolute values of KD were quite different, the same affinity scale was obtained for all compounds. The binding affinities of the analytes studied vary by more than 50 orders of magnitude; for example, the KD value determined by SPR were 6 ± 4 and 299 ± 25 nM for compounds 1 and 3, respectively. This paper discusses some of the theoretical and experimental aspects of the affinity‐based methods and evaluates the protein consumption to develop methods for the screening of further new compounds. The double interest of SPR, that is, for screening and for the quick thorough study of the interactions parameters (ka, kd, and KD), leads us to choose this methodology for the study of new potential inhibitors. Copyright

Novel potent substance P and neurokinin A receptor antagonists. Conception, synthesis and biological evaluation of indolizine derivatives.

Exploration of SAR around dual NK(1)/NK(2) antagonist Cbz-Gly-Leu-Trp-OBzl(CF(3))(2) and its derivatives disclosed the essential requirements for more potent dual NK(1)/NK(2) binding. We report here the synthesis and the biological properties of a novel series of indolizine including pharmacophoric elements.