Your search keyword '"Cariou K"' showing total 46 results

1. PIFA-mediated ethoxyiodination of enamides with potassium iodide.

Author

Beltran, R., Nocquet-Thibault, S., Blanchard, F., Dodd, R. H., and Cariou, K.

Published

2016

2. Two in one: merging photoactivated chemotherapy and photodynamic therapy to fight cancer.

Author

Kuznetsov KM, Cariou K, and Gasser G

Abstract

The growing number of cancer cases requires the development of new approaches for treatment. A therapy that has attracted the special attention of scientists is photodynamic therapy (PDT) due to its spatial and temporal resolution. However, it is accepted that this treatment methodology has limited application in cases of low cellular oxygenation, which is typical of cancerous tissues. Therefore, a strategy to overcome this drawback has been to combine this therapy with photoactivated chemotherapy (PACT), which works independently of the presence of oxygen. In this perspective, we examine compounds that act as both PDT and PACT agents and summarize their photophysical and biological characteristics., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2024

3. Antifungal and Antiparasitic Activities of Metallocene-Containing Fluconazole Derivatives.

Author

Lin Y, Scalese G, Bulman CA, Vinck R, Blacque O, Paulino M, Ballesteros-Casallas A, Pérez Díaz L, Salinas G, Mitreva M, Weil T, Cariou K, Sakanari JA, Gambino D, and Gasser G

Subjects

Animals, Antifungal Agents pharmacology, Antifungal Agents therapeutic use, Metallocenes, Antiparasitic Agents pharmacology, Caenorhabditis elegans, 14-alpha Demethylase Inhibitors chemistry, Fluconazole, Trypanosoma cruzi chemistry

Abstract

The search for new anti-infectives based on metal complexes is gaining momentum. Among the different options taken by researchers, the one involving the use of organometallic complexes is probably the most successful one with a compound, namely, ferroquine, already in clinical trials against malaria. In this study, we describe the preparation and in-depth characterization of 10 new (organometallic) derivatives of the approved antifungal drug fluconazole. Our rationale is that the sterol 14α-demethylase is an enzyme part of the ergosterol biosynthesis route in Trypanosoma and is similar to the one in pathogenic fungi. To demonstrate our postulate, docking experiments to assess the binding of our compounds with the enzyme were also performed. Our compounds were then tested on a range of fungal strains and parasitic organisms, including the protozoan parasite Trypanosoma cruzi ( T. cruzi ) responsible for Chagas disease, an endemic disease in Latin America that ranks among some of the most prevalent parasitic diseases worldwide. Of high interest, the two most potent compounds of the study on T. cruzi that contain a ferrocene or cobaltocenium were found to be harmless for an invertebrate animal model, namely, Caenorhabditis elegans ( C. elegans ), without affecting motility, viability, or development.

Published

2024

4. EGCG-like non-competitive inhibitor of DYRK1A rescues cognitive defect in a down syndrome model.

Author

Delabar JM, Gomes MAGB, Fructuoso M, Sarrazin N, George N, Fleary-Roberts N, Sun H, Bui LC, Rodrigues-Lima F, Janel N, Dairou J, Maria EJ, Dodd RH, Cariou K, and Potier MC

Subjects

Humans, Female, Pregnancy, Mice, Animals, Protein Serine-Threonine Kinases, Protein-Tyrosine Kinases, Mice, Transgenic, Cognition, Down Syndrome drug therapy, Catechin analogs & derivatives

Abstract

Overexpression of the chromosome 21 DYRK1A gene induces morphological defects and cognitive impairments in individuals with Down syndrome (DS) and in DS mice models. Aging neurons of specific brain regions of patients with Alzheimer's disease, DS and Pick's disease have increased DYRK1A immunoreactivity suggesting a possible association of DYRK1A with neurofibrillary tangle pathology. Epigallocatechin-3-gallate (EGCG) displays appreciable inhibition of DYRK1A activity and, contrary to all other published inhibitors, EGCG is a non-competitive inhibitor of DYRK1A. Prenatal exposure to green tea polyphenols containing EGCG protects from brain defects induced by overexpression of DYRK1A. In order to produce more robust and possibly more active analogues of the natural compound EGCG, here we synthetized new EGCG-like molecules with several structural modifications to the EGCG skeleton. We replaced the ester boun of EGCG with a more resistant amide bond. We also replaced the oxygen ring by a methylene group. And finally, we positioned a nitrogen atom within this ring. The selected compound was shown to maintain the non-competitive property of EGCG and to correct biochemical and behavioral defects present in a DS mouse model. In addition it showed high stability and specificity., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Paris Brain Institute. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2024

5. BASHY Dyes Are Highly Efficient Lipid Droplet-Targeting Photosensitizers that Induce Ferroptosis through Lipid Peroxidation.

Author

Silva MJSA, Zhang Y, Vinck R, Santos FMF, António JPM, Gourdon-Grünewaldt L, Zaouter C, Castonguay A, Patten SA, Cariou K, Boscá F, Nájera F, Arteaga JF, Gasser G, Pischel U, and Gois PMP

Subjects

Animals, Humans, Coloring Agents, Lipid Peroxidation, Lipid Droplets, Zebrafish, Photosensitizing Agents pharmacology, Ferroptosis

Abstract

Ferroptosis is an iron-dependent lipid-peroxidation-driven mechanism of cell death and a promising therapeutic target to eradicate cancer cells. In this study, we discovered that boronic acid-derived salicylidenehydrazone (BASHY) dyes are highly efficient singlet-oxygen photosensitizers (PSs; Φ Δ up to 0.8) that induce ferroptosis triggered by photodynamic therapy. The best-performing BASHY dye displayed a high phototoxicity against the human glioblastoma multiform U87 cell line, with an IC 50 value in the low nanomolar range (4.40 nM) and a remarkable phototoxicity index (PI > 22,700). Importantly, BASHY dyes were shown to accumulate in lipid droplets (LDs) and this intracellular partition was found to be essential for the enhanced phototoxicity and the induction of ferroptosis through lipid peroxidation. The safety and phototoxicity of this platform were validated using an in vivo zebrafish model ( Danio rerio ).

Published

2023

6. Discovery of New Broad-Spectrum Anti-Infectives for Eukaryotic Pathogens Using Bioorganometallic Chemistry.

Author

Lin Y, Jung H, Bulman CA, Ng J, Vinck R, O'Beirne C, Zhong S, Moser MS, Tricoche N, Peguero R, Li RW, Urban JF Jr, Le Pape P, Pagniez F, Moretto M, Weil T, Lustigman S, Cariou K, Mitreva M, Sakanari JA, and Gasser G

Subjects

Humans, Neglected Diseases drug therapy, Fluconazole, Antifungal Agents pharmacology, Antifungal Agents therapeutic use, Mycoses drug therapy

Abstract

Drug resistance observed with many anti-infectives clearly highlights the need for new broad-spectrum agents to treat especially neglected tropical diseases (NTDs) caused by eukaryotic parasitic pathogens, including fungal infections. Herein, we show that the simple modification of one of the most well-known antifungal drugs, fluconazole, with organometallic moieties not only improves the activity of the parent drug but also broadens the scope of application of the new derivatives. These compounds were highly effective in vivo against pathogenic fungal infections and potent against parasitic worms such as Brugia , which causes lymphatic filariasis and Trichuris , one of the soil-transmitted helminths that infects millions of people globally. Notably, the identified molecular targets indicate a mechanism of action that differs greatly from that of the parental antifungal drug, including targets involved in biosynthetic pathways that are absent in humans, offering great potential to expand our armamentarium against drug-resistant fungal infections and neglected tropical diseases (NTDs) targeted for elimination by 2030.

Published

2023

7. Towards Copper(I) Clusters for Photo-Induced Oxidation of Biological Thiols in Living Cells.

Author

Gourdon-Grünewaldt L, Blacque O, Gasser G, and Cariou K

Subjects

Humans, Animals, Mice, Copper chemistry, Oxidation-Reduction, Cysteine chemistry, Sulfhydryl Compounds chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry

Abstract

The cell redox balance can be disrupted by the oxidation of biological peptides, eventually leading to cell death, which provides opportunities to develop cytotoxic drugs. With the aim of developing compounds capable of specifically inducing fatal redox reactions upon light irradiation, we have developed a library of copper compounds. This metal is abundant and considered essential for human health, making it particularly attractive for the development of new anticancer drugs. Copper(I) clusters with thiol ligands (including 5 novel ones) have been synthesized and characterized. Structures were elucidated by X-ray diffraction and showed that the compounds are oligomeric clusters. The clusters display high photooxidation capacity towards cysteine - an essential amino acid - upon light irradiation in the visible range (450 nm), while remaining completely inactive in the dark. This photoredox activity against a biological thiol is very encouraging for the development of anticancer photoredox drugs.The in vitro assay on murine colorectal cancer cells (CT26) did not show any toxicity - whether in the dark or when exposed to 450 nm light, likely because of the poor solubility of the complexes in biological medium., (© 2023 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2023

8. Towards Ruthenium(II)-Rhenium(I) Binuclear Complexes as Photosensitizers for Photodynamic Therapy.

Author

Wang Y, Felder PS, Mesdom P, Blacque O, Mindt TL, Cariou K, and Gasser G

Subjects

Humans, Photosensitizing Agents pharmacology, Photochemotherapy, Ruthenium pharmacology, Rhenium, Coordination Complexes pharmacology

Abstract

The search for new metal-based photosensitizers (PSs) for anticancer photodynamic therapy (PDT) is a fast-developing field of research. Knowing that polymetallic complexes bear a high potential as PDT PSs, in this study, we aimed at combining the known photophysical properties of a rhenium(I) tricarbonyl complex and a ruthenium(II) polypyridyl complex to prepare a ruthenium-rhenium binuclear complex that could act as a PS for anticancer PDT. Herein, we present the synthesis and characterization of such a system and discuss its stability in aqueous solution. In addition, one of our complexes prepared, which localized in mitochondria, was found to have some degree of selectivity towards two types of cancerous cells: human lung carcinoma A549 and human colon colorectal adenocarcinoma HT29, with interesting photo-index (PI) values of 135.1 and 256.4, respectively, compared to noncancerous retinal pigment epithelium RPE1 cells (22.4)., (© 2023 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2023

9. In Situ Bioconjugation of a Maleimide-Functionalized Ruthenium-Based Photosensitizer to Albumin for Photodynamic Therapy.

Author

Vinck R, Dömötör O, Karges J, Jakubaszek M, Seguin J, Tharaud M, Guérineau V, Cariou K, Mignet N, Enyedy ÉA, and Gasser G

Subjects

Animals, Mice, Photosensitizing Agents pharmacology, Photosensitizing Agents chemistry, Ligands, Serum Albumin, Maleimides pharmacology, Ruthenium pharmacology, Ruthenium chemistry, Photochemotherapy, Neoplasms, Coordination Complexes pharmacology, Coordination Complexes chemistry, Antineoplastic Agents chemistry

Abstract

Maleimide-containing prodrugs can quickly and selectively react with circulating serum albumin following their injection in the bloodstream. The drug-albumin complex then benefits from longer blood circulation times and better tumor accumulation. Herein, we have applied this strategy to a previously reported highly phototoxic Ru polypyridyl complex-based photosensitizer to increase its accumulation at the tumor, reduce off-target cytotoxicity, and therefore improve its pharmacological profile. Specifically, two complexes were synthesized bearing a maleimide group: one complex with the maleimide directly incorporated into the bipyridyl ligand, and the other has a hydrophilic linker between the ligand and the maleimide group. Their interaction with albumin was studied in-depth, revealing their ability to efficiently bind both covalently and noncovalently to the plasma protein. A crucial finding is that the maleimide-functionalized complexes exhibited significantly lower cytotoxicity in noncancerous cells under dark conditions compared to the nonfunctionalized complex, which is a highly desirable property for a photosensitizer. The binding to albumin also led to a decrease in the phototoxicity of the Ru bioconjugates in comparison to the nonfunctionalized complex, probably due to a decreased cellular uptake. Unfortunately, this decrease in phototoxicity was not compensated by a dramatic increase in tumor accumulation, as was demonstrated in a tumor-bearing mouse model using inductively coupled plasma mass spectrometry (ICP-MS) studies. Consequently, this study provides valuable insight into the future design of in situ albumin-binding complexes for photodynamic therapy in order to maximize their effectiveness and realize their full potential.

Published

2023

10. Ru(ii)/Os(ii)-based carbonic anhydrase inhibitors as photodynamic therapy photosensitizers for the treatment of hypoxic tumours.

Author

Wang Y, Mesdom P, Purkait K, Saubaméa B, Burckel P, Arnoux P, Frochot C, Cariou K, Rossel T, and Gasser G

Abstract

Photodynamic therapy (PDT) is a medical technique for the treatment of cancer. It is based on the use of non-toxic molecules, called photosensitizers (PSs), that become toxic when irradiated with light and produce reactive oxygen specious (ROS) such as singlet oxygen ( 1 O 2 ). This light-induced toxicity is rather selective since the physician only targets a specific area of the body, leading to minimal side effects. Yet, a strategy to improve further the selectivity of this medical technique is to confine the delivery of the PS to cancer cells only instead of spreading it randomly throughout the body prior to light irradiation. To address this problem, we present here novel sulfonamide-based monopodal and dipodal ruthenium and osmium polypyridyl complexes capable of targeting carbonic anhydrases (CAs) that are a major target in cancer therapy. CAs are overexpressed in the membrane or cytoplasm of various cancer cells. We therefore anticipated that the accumulation of our complexes in or outside the cell prior to irradiation would improve the selectivity of the PDT treatment. We show that our complexes have a high affinity for CAs, accumulate in cancer cells overexpressing CA cells and importantly kill cancer cells under both normoxic and hypoxic conditions upon irradiation at 540 nm. More importantly, Os(ii) compounds still exhibit some phototoxicity under 740 nm irradiation under normoxic conditions. To our knowledge, this is the first description of ruthenium/osmium-based PDT PSs that are CA inhibitors for the selective treatment of cancers., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2023

11. Synthesis, characterisation and biological evaluation of monometallic Re(I) and heterobimetallic Re(I)/Fe(II) complexes with a 1,2,3-triazolyl pyridine chelating moiety.

Author

Jakopec S, Gourdon-Grünewaldt L, Čipor I, Meščić Macan A, Perić B, Piantanida I, Cariou K, Gasser G, Kirin SI, and Raić-Malić S

Subjects

Humans, Metallocenes, Ligands, Chelating Agents, DNA chemistry, Pyridines pharmacology, Pyridines chemistry, Triazoles pharmacology, Triazoles chemistry, RNA, Fluoresceins, Quinolones chemistry, Coordination Complexes chemistry, Antineoplastic Agents chemistry

Abstract

Bioorganometallic complexes have attracted considerable interest and have shown promise for potential application in the treatment and diagnosis of cancer, as well as bioimaging agents, some acting as theranostic agents. The series of novel ferrocene, benzimidazo[1,2- a ]quinoline and fluorescein derivatives with bidentate pyridyl-1,2,3-triazole and 2,2'-dipyridylamine and their tricarbonylrhenium(I) complexes was prepared and fully characterised by NMR, single-crystal X-ray diffraction, UV-Vis and fluorescence spectroscopy in biorelevant conditions. The fluorescein and benzimidazo[1,2- a ]quinoline ligands and their complexes with Re(I) showed interactions with ds-DNA/RNA and HSA, characterised by thermal denaturation measurements, fluorimetric and circular dichroism titrations. The binding constants revealed that addition of Re(I) increases the affinity of fluorescein but decreases the affinity of benzimidazo[1,2- a ]quinoline. The complexation of Re(I) had the opposite effect on fluorescein and benzimidazo[1,2- a ]quinoline ligands' fluorimetric sensitivity upon biomacromolecule binding, Re(I) fluorescein complex emission being strongly quenched by DNA/RNA or HSA, while emission of Re(I) benzimidazo[1,2- a ]quinolone complex was enhanced, particularly for HSA, making it a promising fluorescent probe. Some mono- and heterobimetallic complexes showed considerable antiproliferative activity on colon cancer cells (CT26 and HT29), with ferrocene dipyridylamine complexes exhibiting the best inhibitory activity, comparable to cisplatin. The correlation of the cytotoxicity data with the linker type between the ferrocene and the 1,2,3-triazole ring suggests that direct binding of the metallocene to the 1,2,3-triazole is favourable for antitumor activity. The Re(I) benzimidazo[1,2- a ]quinolone complex showed moderate antiproliferative activity, in contrast to the Re(I) fluorescein complex, which exhibited weak activity on CT26 cells and no activity on HT29 cells. The accumulation of the Re(I) benzimidazo[1,2- a ]quinolone complex in the lysosomes of CT26 cells indicates the site of its bioactivity, thus making this complex a potential theranostic agent.

Published

2023

12. Structurally Simple Osmium(II) Polypyridyl Complexes as Photosensitizers for Photodynamic Therapy in the Near Infrared.

Author

Mani A, Feng T, Gandioso A, Vinck R, Notaro A, Gourdon L, Burckel P, Saubaméa B, Blacque O, Cariou K, Belgaied JE, Chao H, and Gasser G

Subjects

Animals, Mice, Photosensitizing Agents pharmacology, Photosensitizing Agents therapeutic use, Photosensitizing Agents chemistry, Osmium chemistry, Coordination Complexes pharmacology, Coordination Complexes therapeutic use, Coordination Complexes chemistry, Photochemotherapy, Neoplasms drug therapy, Ruthenium pharmacology, Ruthenium chemistry

Abstract

Five osmium(II) polypyridyl complexes of the general formula [Os(4,7-diphenyl-1,10-phenanthroline) 2 L] 2+ were synthesized as photosensitizers for photodynamic therapy by varying the nature of the ligand L. Thanks to the pronounced π-extended structure of the ligands and the heavy atom effect provided by the osmium center, these complexes exhibit a high absorption in the near-infrared (NIR) region (up to 740 nm), unlike related ruthenium complexes. This led to a promising phototoxicity in vitro against cancer cells cultured as 2D cell layers but also in multicellular tumor spheroids upon irradiation at 740 nm. The complex [Os(4,7-diphenyl-1,10-phenanthroline) 2 (2,2'-bipyridine)] 2+ was found to be the most efficient against various cancer cell lines, with high phototoxicity indexes. Experiments on CT26 tumor-bearing BALB/c mice also indicate that the Os II complexes could significantly reduce tumor growth following 740 nm laser irradiation. The high phototoxicity in the biological window of this structurally simple complex makes it a promising photosensitizer for cancer treatment., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

13. PSL Chemical Biology Symposia Third Edition: A Branch of Science in its Explosive Phase.

Author

Baron L, Hadjerci J, Thoidingjam L, Plays M, Bucci R, Morris N, Müller S, Sindikubwabo F, Solier S, Cañeque T, Colombeau L, Blouin CM, Lamaze C, Puisieux A, Bono Y, Gaillet C, Laraia L, Vauzeilles B, Taran F, Papot S, Karoyan P, Duval R, Mahuteau-Betzer F, Arimondo P, Cariou K, Guichard G, Micouin L, Ethève-Quelquejeu M, Verga D, Versini A, Gasser G, Tang C, Belmont P, Linkermann A, Bonfio C, Gillingham D, Poulsen T, Di Antonio M, Lopez M, Guianvarc'h D, Thomas C, Masson G, Gautier A, Johannes L, and Rodriguez R

Subjects

Humans, Paris, Biology

Abstract

This symposium is the third PSL (Paris Sciences & Lettres) Chemical Biology meeting (2016, 2019, 2023) held at Institut Curie. This initiative originally started at Institut de Chimie des Substances Naturelles (ICSN) in Gif-sur-Yvette (2013, 2014), under the directorship of Professor Max Malacria, with a strong focus on chemistry. It was then continued at the Institut Curie (2015) covering a larger scope, before becoming the official PSL Chemical Biology meeting. This latest edition was postponed twice for the reasons that we know. This has given us the opportunity to invite additional speakers of great standing. This year, Institut Curie hosted around 300 participants, including 220 on site and over 80 online. The pandemic has had, at least, the virtue of promoting online meetings, which we came to realize is not perfect but has its own merits. In particular, it enables those with restricted time and resources to take part in events and meetings, which can now accommodate unlimited participants. We apologize to all those who could not attend in person this time due to space limitation at Institut Curie., (© 2023 Wiley-VCH GmbH.)

Published

2023

14. N -Metallocenyl Ynamides: Preparation, Reactivity, and Synthesis of ansa [3]-Ferrocenylamides.

Author

Mahe C, Blacque O, Gasser G, Gandon V, and Cariou K

Abstract

The first synthesis of various N -metallocenyl ynamides has been developed, and two strategies for the oxidative cyclization of N -ferrocenyl ynamide into ansa [3]-ferrocenylamide are also reported. The mechanism for the iodine(III)-triggered transformation has been studied by means of DFT calculations, showing that it proceeds through a concerted iodination deprotonation step.

Published

2023

15. Metal complexes for catalytic and photocatalytic reactions in living cells and organisms.

Author

Madec H, Figueiredo F, Cariou K, Roland S, Sollogoub M, and Gasser G

Abstract

The development of organometallic catalysis has greatly expanded the synthetic chemist toolbox compared to only exploiting "classical" organic chemistry. Although more widely used in organic solvents, metal-based catalysts have also emerged as efficient tools for developing organic transformations in water, thus paving the way for further development of bio-compatible reactions. However, performing metal-catalysed reactions within living cells or organisms induces additional constraints to the design of reactions and catalysts. In particular, metal complexes must exhibit good efficiency in complex aqueous media at low concentrations, good cell specificity, good cellular uptake and low toxicity. In this review, we focus on the presentation of discrete metal complexes that catalyse or photocatalyse reactions within living cells or living organisms. We describe the different reaction designs that have proved to be successful under these conditions, which involve very few metals (Ir, Pd, Ru, Pt, Cu, Au, and Fe) and range from in cellulo deprotection/decaging/activation of fluorophores, drugs, proteins and DNA to in cellulo synthesis of active molecules, and protein and organelle labelling. We also present developments in bio-compatible photo-activatable catalysts, which represent a very recent emerging area of research and some prospects in the field., Competing Interests: There are no conflicts of interest to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

16. Red-Absorbing Ru(II) Polypyridyl Complexes with Biotin Targeting Spontaneously Assemble into Nanoparticles in Biological Media.

Author

Vinck R, Gandioso A, Burckel P, Saubaméa B, Cariou K, and Gasser G

Subjects

Biotin, Photosensitizing Agents, Coordination Complexes, Nanoparticles, Photochemotherapy, Ruthenium

Abstract

Four new ruthenium(II) polypyridyl complexes were synthesized to study the effect of poly(ethylene glycol) and/or biotin conjugation on their physical and biological properties, including their hydrophilicity, their cellular uptake, and their phototoxicity. Unexpectedly, these complexes self-assembled into nanoparticles upon dilution in biological media. This behavior leads to their accumulation in lysosomes following their internalization by cells. While a significant increase in cellular uptake was observed for the biotin-conjugated complexes, it did not result in an increase in their phototoxicity. However, their high phototoxicity upon irradiation at long wavelengths (645-670 nm) and their self-assembling behavior make them a promising backbone for the development of new lysosome-targeted photosensitizers for photodynamic therapy.

Published

2022

17. Phototherapeutic anticancer strategies with first-row transition metal complexes: a critical review.

Author

Gourdon L, Cariou K, and Gasser G

Subjects

Photosensitizing Agents therapeutic use, Coordination Complexes, Metals, Heavy, Photochemotherapy, Transition Elements

Abstract

Photodynamic therapy (PDT) and photoactivated chemotherapy (PACT) are therapeutic techniques based on a photosensitizer (PS) and light. These techniques allow the spatial and temporal control of the activation of drugs with light. Transition metal complexes are attractive compounds as photoactivatable prodrugs since their excited states can be appropriately designed by subtle modifications of the ligands, the metal centre, or the oxidation state. However, most metal-based PSs contain heavy metals such as Ru, Os, Ir, Pt or Au, which are expensive and non-earth-abundant, contrary to first-row transition metals. In this context, the exploration of the photochemical properties of complexes based on first-row transition metals appears to be extremely promising. This did encourage several groups to develop promising PSs based on these metals. This review presents up-to-date state-of-the-art information on first-row-transition metal complexes, from titanium to zinc in regard to their application as PSs for phototherapeutic applications.

Published

2022

18. Metallodrug Profiling against SARS-CoV-2 Target Proteins Identifies Highly Potent Inhibitors of the S/ACE2 interaction and the Papain-like Protease PL pro .

Author

Gil-Moles M, Türck S, Basu U, Pettenuzzo A, Bhattacharya S, Rajan A, Ma X, Büssing R, Wölker J, Burmeister H, Hoffmeister H, Schneeberg P, Prause A, Lippmann P, Kusi-Nimarko J, Hassell-Hart S, McGown A, Guest D, Lin Y, Notaro A, Vinck R, Karges J, Cariou K, Peng K, Qin X, Wang X, Skiba J, Szczupak Ł, Kowalski K, Schatzschneider U, Hemmert C, Gornitzka H, Milaeva ER, Nazarov AA, Gasser G, Spencer J, Ronconi L, Kortz U, Cinatl J, Bojkova D, and Ott I

Subjects

Angiotensin-Converting Enzyme 2, Antiviral Agents pharmacology, Coronavirus Papain-Like Proteases antagonists & inhibitors, SARS-CoV-2 drug effects, Spike Glycoprotein, Coronavirus antagonists & inhibitors

Abstract

The global spread of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has called for an urgent need for dedicated antiviral therapeutics. Metal complexes are commonly underrepresented in compound libraries that are used for screening in drug discovery campaigns, however, there is growing evidence for their role in medicinal chemistry. Based on previous results, we have selected more than 100 structurally diverse metal complexes for profiling as inhibitors of two relevant SARS-CoV-2 replication mechanisms, namely the interaction of the spike (S) protein with the ACE2 receptor and the papain-like protease PL pro . In addition to many well-established types of mononuclear experimental metallodrugs, the pool of compounds tested was extended to approved metal-based therapeutics such as silver sulfadiazine and thiomersal, as well as polyoxometalates (POMs). Among the mononuclear metal complexes, only a small number of active inhibitors of the S/ACE2 interaction was identified, with titanocene dichloride as the only strong inhibitor. However, among the gold and silver containing complexes many turned out to be very potent inhibitors of PL pro activity. Highly promising activity against both targets was noted for many POMs. Selected complexes were evaluated in antiviral SARS-CoV-2 assays confirming activity for gold complexes with N-heterocyclic carbene (NHC) or dithiocarbamato ligands, a silver NHC complex, titanocene dichloride as well as a POM compound. These studies might provide starting points for the design of metal-based SARS-CoV-2 antiviral agents., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2021

19. Physical, spectroscopic, and biological properties of ruthenium and osmium photosensitizers bearing diversely substituted 4,4'-di(styryl)-2,2'-bipyridine ligands.

Author

Vinck R, Karges J, Tharaud M, Cariou K, and Gasser G

Abstract

Capitalising on the previous identification of a distyryl coordinated Ru(II) polypyridine complex as a promising photosensitizer for photodynamic therapy, eight new complexes were synthesized by modifications of the ligands or by changing the metal coordinated. We report in this work the effects of these modifications on the physical, spectroscopic, and biological properties of the synthesized complexes. Subtle structural modifications of the distyryl ligand only had a moderate effect on the corresponding complexes' visible light absorption and singlet oxygen quantum yield. These modifications however had a significant effect on the lipophilicity, the cellular uptake and the phototoxicity of the complexes. Although the lipophilicity of the complexes had a somewhat expected effect on their cellular uptake, this last parameter could not be directly correlated to their phototoxicity, revealing other underlying phenomena. Overall, this work allowed identification of two promising ruthenium complexes as photosensitisers for photodynamic therapy and provides some guidance on how to design better photosensitizers.

Published

2021

20. Recent developments of metal-based compounds against fungal pathogens.

Author

Lin Y, Betts H, Keller S, Cariou K, and Gasser G

Subjects

Antifungal Agents pharmacology, Antifungal Agents therapeutic use, Fungi, Humans, Anti-Infective Agents, Mycoses drug therapy, Pharmaceutical Preparations

Abstract

This review provides insight into the rapidly expanding field of metal-based antifungal agents. In recent decades, the antibacterial resistance crisis has caused reflection on many aspects of public health where weaknesses in our medicinal arsenal may potentially be present - including in the treatment of fungal infections, particularly in the immunocompromised and those with underlying health conditions where mortality rates can exceed 50%. Combination of organic moieties with known antifungal properties and metal ions can lead to increased bioavailability, uptake and efficacy. Development of such organometallic drugs may alleviate pressure on existing antifungal medications. Prodigious antimicrobial moieties such as azoles, Schiff bases, thiosemicarbazones and others reported herein lend themselves easily to the coordination of a host of metal ions, which can vastly improve the biocidal activity of the parent ligand, thereby extending the library of antifungal drugs available to medical professionals for treatment of an increasing incidence of fungal infections. Overall, this review shows the impressive but somewhat unexploited potential of metal-based compounds to treat fungal infections.

Published

2021

21. In vivo active organometallic-containing antimycotic agents.

Author

Rubbiani R, Weil T, Tocci N, Mastrobuoni L, Jeger S, Moretto M, Ng J, Lin Y, Hess J, Ferrari S, Kaech A, Young L, Spencer J, Moore AL, Cariou K, Renga G, Pariano M, Romani L, and Gasser G

Abstract

Fungal infections represent a global problem, notably for immunocompromised patients in hospital, COVID-19 patient wards and care home settings, and the ever-increasing emergence of multidrug resistant fungal strains is a sword of Damocles hanging over many healthcare systems. Azoles represent the mainstay of antifungal drugs, and their mode of action involves the binding mode of these molecules to the fungal lanosterol 14α-demethylase target enzyme. In this study, we have prepared and characterized four novel organometallic derivatives of the frontline antifungal drug fluconazole ( 1a-4a ). Very importantly, enzyme inhibition and chemogenomic profiling demonstrated that lanosterol 14α-demethylase, as for fluconazole, was the main target of the most active compound of the series, ( N -(ferrocenylmethyl)-2-(2,4-difluorophenyl)-2-hydroxy- N -methyl-3-(1 H -1,2,4-triazol-1-yl)propan-1-aminium chloride, 2a ). Transmission electron microscopy (TEM) studies suggested that 2a induced a loss in cell wall integrity as well as intracellular features ascribable to late apoptosis or necrosis. The impressive activity of 2a was further confirmed on clinical isolates, where antimycotic potency up to 400 times higher than fluconazole was observed. Also, 2a showed activity towards azole-resistant strains. This finding is very interesting since the primary target of 2a is the same as that of fluconazole, emphasizing the role played by the organometallic moiety. In vivo experiments in a mice model of Candida infections revealed that 2a reduced the fungal growth and dissemination but also ameliorated immunopathology, a finding suggesting that 2a is active in vivo with added activity on the host innate immune response., Competing Interests: The authors declare no competing financial interests., (This journal is © The Royal Society of Chemistry.)

Published

2021

22. Azetidinimines as a novel series of non-covalent broad-spectrum inhibitors of β-lactamases with submicromolar activities against carbapenemases KPC-2 (class A), NDM-1 (class B) and OXA-48 (class D).

Author

Romero E, Oueslati S, Benchekroun M, D'Hollander ACA, Ventre S, Vijayakumar K, Minard C, Exilie C, Tlili L, Retailleau P, Zavala A, Elisée E, Selwa E, Nguyen LA, Pruvost A, Naas T, Iorga BI, Dodd RH, and Cariou K

Subjects

Anti-Bacterial Agents metabolism, Anti-Bacterial Agents pharmacology, Azetidines metabolism, Binding Sites, Catalytic Domain, Cell Line, Cell Proliferation drug effects, Escherichia coli Proteins antagonists & inhibitors, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Gram-Negative Bacteria drug effects, Humans, Inhibitory Concentration 50, Microbial Sensitivity Tests, Microsomes, Liver drug effects, Microsomes, Liver metabolism, Molecular Docking Simulation, Structure-Activity Relationship, beta-Lactamase Inhibitors metabolism, beta-Lactamase Inhibitors pharmacology, beta-Lactamases genetics, beta-Lactamases metabolism, Anti-Bacterial Agents chemistry, Azetidines chemistry, beta-Lactamase Inhibitors chemistry, beta-Lactamases chemistry

Abstract

The occurrence of resistances in Gram negative bacteria is steadily increasing to reach extremely worrying levels and one of the main causes of resistance is the massive spread of very efficient β-lactamases which render most β-lactam antibiotics useless. Herein, we report the development of a series of imino-analogues of β-lactams (namely azetidinimines) as efficient non-covalent inhibitors of β-lactamases. Despite the structural and mechanistic differences between serine-β-lactamases KPC-2 and OXA-48 and metallo-β-lactamase NDM-1, all three enzymes can be inhibited at a submicromolar level by compound 7dfm, which can also repotentiate imipenem against a resistant strain of Escherichia coli expressing NDM-1. We show that 7dfm can efficiently inhibit not only the three main clinically-relevant carbapenemases of Ambler classes A (KPC-2), B (NDM-1) and D (OXA-48) with Ki's below 0.3 μM, but also the cephalosporinase CMY-2 (class C, 86% inhibition at 10 μM). Our results pave the way for the development of a new structurally original family of non-covalent broad-spectrum inhibitors of β-lactamases., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Masson SAS. All rights reserved.)

Published

2021

23. Photoinduced Aerobic Iodoarene-Catalyzed Spirocyclization of N-Oxy-amides to N-Fused Spirolactams*.

Author

Habert L and Cariou K

Abstract

Iodoarene catalysis is a powerful methodology that usually requires an excess of oxidant, or of redox mediator if the terminal oxidant is dioxygen, to generate the key hypervalent iodine intermediate to proceed efficiently. We report that, using the spiro-cyclization of amides as a benchmark reaction, aerobic iodoarene catalysis can be enabled by relying on a pyrylium photocatalyst under blue light irradiation. This unprecedented dual organocatalytic system allows the use of low catalytic loading of both catalysts under very mild operating conditions., (© 2020 Wiley-VCH GmbH.)

Published

2021

24. Synthesis, characterization and antiparasitic activity of organometallic derivatives of the anthelmintic drug albendazole.

Author

Lin Y, Ong YC, Keller S, Karges J, Bouchene R, Manoury E, Blacque O, Müller J, Anghel N, Hemphill A, Häberli C, Taki AC, Gasser RB, Cariou K, Keiser J, and Gasser G

Subjects

Albendazole chemical synthesis, Albendazole chemistry, Animals, Anthelmintics chemical synthesis, Anthelmintics chemistry, Dose-Response Relationship, Drug, Female, Giardia lamblia drug effects, Haemonchus drug effects, Mice, Mice, Inbred C57BL, Molecular Structure, Nematospiroides dubius drug effects, Parasitic Sensitivity Tests, Schistosoma mansoni drug effects, Structure-Activity Relationship, Toxoplasma drug effects, Trichuris drug effects, Albendazole pharmacology, Anthelmintics pharmacology

Abstract

Helminthiases, a group of neglected tropical diseases, affect more than one billion people mainly in tropical and subtropical regions. Moreover, major intestinal protozoa have a significant impact on global public health. Albendazole (ABZ) is a broad-spectrum anthelmintic recommended by the World Health Organisation (WHO). However, drug resistance is emerging due to its widespread use. In order to tackle this problem, taking into account the spectacular results obtained with ferroquine, an organometallic derivatization of the antimalarial drug chloroquine, we have prepared, in this study, a series of new ferrocenyl and ruthenocenyl derivatives of the organic drug ABZ and assessed their activity against different helminths and protozoans, namely Trichuris muris, Heligmosomoides polygygrus, Schistosoma mansoni, Giardia lamblia, Haemonchus contortus and Toxoplasma gondii. The ferrocene-containing ABZ analogue 2d exhibited over 70% activity against T. muris adults in vitro at 200 μM and no toxicity to mammalian cells (IC50 >100 μM). H. polygyrus adults were not affected by any of the derivatives tested. Against T. gondii, the ferrocene-containing ABZ analogues 1a and 2d showed better in vitro activity than ABZ and low toxicity to the host cells. The activity of the analogous ruthenocenyl compound 2b against S. mansoni and T. gondii in vitro might be attributed to its toxicity towards the host cells rather than a specific antiparasitic activity. These results demonstrate that the derivatives show a species specific in vitro activity and the choice of the organometallic moieties attached to the organic drug is playing a very important role. Two of our organometallic compounds, namely 1b and 2d, were tested in T. muris infected mice. At a 400 mg kg-1 dose, the compounds showed moderate worm burden reductions but low worm expulsion rates. Overall, this work, which is one of the first studies reporting the potential of organometallic compounds on a very broad range of parasitic helminths and protozoan, is a clear confirmation of the potential of organometallic complexes against parasites of medical and veterinary importance.

Published

2020

25. Synthetic approaches towards avibactam and other diazabicyclooctane β-lactamase inhibitors.

Author

Peilleron L and Cariou K

Subjects

Aza Compounds chemistry, Aza Compounds pharmacology, Azabicyclo Compounds chemistry, Azabicyclo Compounds pharmacology, Cyclooctanes chemistry, Cyclooctanes pharmacology, Cyclopropanes chemistry, beta-Lactamase Inhibitors chemistry, beta-Lactamase Inhibitors pharmacology, Aza Compounds chemical synthesis, Azabicyclo Compounds chemical synthesis, Cyclooctanes chemical synthesis, beta-Lactamase Inhibitors chemical synthesis

Abstract

Avibactam is a non β-lactam β-lactamase inhibitor that has recently been approved in association with a β-lactam antibiotic for the treatment of severe infections caused by otherwise resistant bacteria. Its therapeutic success encouraged the development of many congeners based on its particular diazabicyclooctane scaffold. This review presents a detailed overview of the synthetic strategies that have been implemented to acces these complex bicyclic compounds with a particular focus on those that are currently on the market or in clinical trials.

Published

2020

26. Iodine(III)-mediated halogenations of acyclic monoterpenoids.

Author

Peilleron L, Grayfer TD, Dubois J, Dodd RH, and Cariou K

Abstract

Five different halofunctionalizations of acyclic monoterpenoids were performed using a combination of a hypervalent iodine(III) reagent and a halide salt. In this manner, the dibromination, the bromo(trifluoro)acetoxylation, the bromohydroxylation, the iodo(trifluoro)acetoxylation or the ene-type chlorination of the distal trisubstituted double bond occurred with excellent selectivity and moderate to good yields.

Published

2018

27. Ketenimines Generated from Ynamides: Versatile Building Blocks for Nitrogen-Containing Scaffolds.

Author

Dodd RH and Cariou K

Abstract

Using ynamides as readily available starting materials, a single step can generate highly reactive ketenimines, which can then undergo a variety of transformations. The choice of the method for generating the ketenimine dictates the outcome of the reaction that can, moreover, be precisely steered through minor variations of the starting material. This Concept gives an overview of the different existing methodologies for this objective, showcasing the diverse nitrogen-containing frameworks that can be obtained by this highly versatile strategy., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

28. DYRK1A inhibition and cognitive rescue in a Down syndrome mouse model are induced by new fluoro-DANDY derivatives.

Author

Neumann F, Gourdain S, Albac C, Dekker AD, Bui LC, Dairou J, Schmitz-Afonso I, Hue N, Rodrigues-Lima F, Delabar JM, Potier MC, Le Caër JP, Touboul D, Delatour B, Cariou K, and Dodd RH

Subjects

Animals, Cognition drug effects, Disease Models, Animal, Down Syndrome enzymology, Humans, Injections, Intraperitoneal, Learning Disabilities drug therapy, Memory Disorders drug therapy, Mice, Molecular Structure, Protein Kinase Inhibitors administration & dosage, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors pharmacology, Pyridines chemistry, Pyridines pharmacology, Dyrk Kinases, Down Syndrome psychology, Maze Learning drug effects, Protein Serine-Threonine Kinases antagonists & inhibitors, Protein-Tyrosine Kinases antagonists & inhibitors, Pyridines administration & dosage

Abstract

Inhibition of DYRK1A kinase, produced by chromosome 21 and consequently overproduced in trisomy 21 subjects, has been suggested as a therapeutic approach to treating the cognitive deficiencies observed in Down syndrome (DS). We now report the synthesis and potent DYRK1A inhibitory activities of fluoro derivatives of 3,5-di(polyhydroxyaryl)-7-azaindoles (F-DANDYs). One of these compounds (3-(4-fluorophenyl)-5-(3,4-dihydroxyphenyl)-1H-pyrrolo[2,3-b]pyridine, 5a) was selected for in vivo studies of cognitive rescuing effects in a standard mouse model of DS (Ts65Dn line). Using the Morris water maze task, Ts65Dn mice treated i.p. with 20 mg/kg of 5a performed significantly better than Ts65Dn mice treated with placebo, confirming the promnesiant effect of 5a in the trisomic mice. Overall, these results demonstrate for the first time that selective and competitive inhibition of DYRK1A kinase by the F-DANDY derivative 5a may provide a viable treatment strategy for combating the memory and learning deficiencies encountered in DS.

Published

2018

29. Base-Mediated Generation of Ketenimines from Ynamides: Direct Access to Azetidinimines by an Imino-Staudinger Synthesis.

Author

Romero E, Minard C, Benchekroun M, Ventre S, Retailleau P, Dodd RH, and Cariou K

Abstract

Ynamides were used as precursors for the in situ generation of highly reactive ketenimines that could be trapped with imines in a [2+2] cycloaddition. This imino-Staudinger synthesis led to a variety of imino-analogs of β-lactams, namely azetidinimines (20 examples), that could be further functionalized through a broad range of transformations., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

30. Chemodivergent, Tunable, and Selective Iodine(III)-Mediated Bromo-Functionalizations of Polyprenoids.

Author

Grayfer TD, Retailleau P, Dodd RH, Dubois J, and Cariou K

Abstract

Mild oxidation of bromides by iodine(III) reagents generated active electrophilic bromination species that were reacted with polyprenoids. By simple and minor variations of an I(III)/Br combination, the reactivity could be selectively steered toward dibromination, oxybromination, or bromocyclization, giving access to a wide array of brominated motifs.

Published

2017

31. Identification of cancer chemopreventive isothiocyanates as direct inhibitors of the arylamine N-acetyltransferase-dependent acetylation and bioactivation of aromatic amine carcinogens.

Author

Duval R, Xu X, Bui LC, Mathieu C, Petit E, Cariou K, Dodd RH, Dupret JM, and Rodrigues-Lima F

Subjects

Acetylation, Breast Neoplasms enzymology, Breast Neoplasms pathology, Enzyme Inhibitors pharmacology, Female, Humans, Kinetics, Tumor Cells, Cultured, Amines adverse effects, Arylamine N-Acetyltransferase antagonists & inhibitors, Breast Neoplasms prevention & control, Carcinogens toxicity, DNA Adducts drug effects, Isothiocyanates pharmacology

Abstract

Aromatic amines (AAs) are chemicals of industrial, pharmacological and environmental relevance. Certain AAs, such as 4-aminobiphenyl (4-ABP), are human carcinogens that require enzymatic metabolic activation to reactive chemicals to form genotoxic DNA adducts. Arylamine N-acetyltransferases (NAT) are xenobiotic metabolizing enzymes (XME) that play a major role in this carcinogenic bioactivation process. Isothiocyanates (ITCs), including benzyl-ITC (BITC) and phenethyl-ITC (PEITC), are phytochemicals known to have chemopreventive activity against several aromatic carcinogens. In particular, ITCs have been shown to modify the bioactivation and subsequent mutagenicity of carcinogenic AA chemicals such as 4-ABP. However, the molecular and biochemical mechanisms by which these phytochemicals may modulate AA carcinogens bioactivation and AA-DNA damage remains poorly understood. This manuscript provides evidence indicating that ITCs can decrease the metabolic activation of carcinogenic AAs via the irreversible inhibition of NAT enzymes and subsequent alteration of the acetylation of AAs. We demonstrate that BITC and PEITC react with NAT1 and inhibit readily its acetyltransferase activity (k(i) = 200 M(-1).s(-1) and 66 M(-1).s(-1) for BITC and PEITC, respectively). Chemical labeling, docking approaches and substrate protection assays indicated that inhibition of the acetylation of AAs by NAT1 was due to the chemical modification of the enzyme active site cysteine. Moreover, analyses of AAs acetylation and DNA adducts in cells showed that BITC was able to modulate the endogenous acetylation and bioactivation of 4-ABP. In conclusion, we show that direct inhibition of NAT enzymes may be an important mechanism by which ITCs exert their chemopreventive activity towards AA chemicals.

Published

2016

32. Mallotojaponins B and C: Total Synthesis, Antiparasitic Evaluation, and Preliminary SAR Studies.

Author

Grayfer TD, Grellier P, Mouray E, Dodd RH, Dubois J, and Cariou K

Subjects

Antiprotozoal Agents chemistry, Antiprotozoal Agents pharmacology, Molecular Structure, Parasitic Sensitivity Tests, Phloroglucinol analogs & derivatives, Structure-Activity Relationship, Trypanocidal Agents, Antiprotozoal Agents chemical synthesis, Plasmodium falciparum drug effects, Trypanosoma brucei brucei drug effects

Abstract

The first total syntheses of mallotojaponin B and C as well as several analogues have been achieved. Biological evaluation of the synthesized compounds against Plasmodium falciparum and Trypanosoma brucei have also been carried out.

Published

2016

33. Halocyclization of Unsaturated Guanidines Mediated by Koser's Reagent and Lithium Halides.

Author

Daniel M, Blanchard F, Nocquet-Thibault S, Cariou K, and Dodd RH

Abstract

The synthesis of halogenated cyclic guanidines through iodine(III)-mediated umpolung of halide salts is described. Cyclic guanidines of various sizes can be obtained with generally excellent regioselectivities through either a chloro- or a bromocyclization, using Koser's reagent and the corresponding lithium salt.

Published

2015

34. Iodine(III)-Mediated Diazidation and Azido-oxyamination of Enamides.

Author

Nocquet-Thibault S, Rayar A, Retailleau P, Cariou K, and Dodd RH

Abstract

In this study we demonstrate that the combination of bis(tert-butylcarbonyloxy)iodobenzene and lithium azide in acetonitrile allows the diazidation of various enamide substrates. The azido-oxyamination of the same substrates can be carried out in the presence of 2,2,6,6-tetramethylpiperidine N-oxide (TEMPO). Control experiments strongly suggest that this latter process occurs through a shift in nature of the in situ generated electrophilic species from a radical to a cation. Finally, the versatility of the novel compounds synthesized was also assessed by running various selective reactions on them., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

35. Transition-metal-free tunable chemoselective N functionalization of indoles with ynamides.

Author

Hentz A, Retailleau P, Gandon V, Cariou K, and Dodd RH

Abstract

Two unprecedented N functionalizations of indoles with ynamides are described. By varying the electron-withdrawing group on the ynamide nitrogen atom, either Z-indolo-etheneamides or indolo-amidines can be selectively obtained under the same metal-free reaction conditions. The scope and synthetic potential of these reactions, as well as some mechanistic insights provided by DFT calculations, are reported., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

36. Development of DANDYs, new 3,5-diaryl-7-azaindoles demonstrating potent DYRK1A kinase inhibitory activity.

Author

Gourdain S, Dairou J, Denhez C, Bui LC, Rodrigues-Lima F, Janel N, Delabar JM, Cariou K, and Dodd RH

Subjects

Enzyme Inhibitors pharmacology, Humans, Hydrogen Bonding, Indoles pharmacology, KB Cells, Molecular Docking Simulation, Pyridines pharmacology, Dyrk Kinases, Enzyme Inhibitors chemical synthesis, Indoles chemical synthesis, Protein Serine-Threonine Kinases antagonists & inhibitors, Protein-Tyrosine Kinases antagonists & inhibitors, Pyridines chemical synthesis

Abstract

A series of 3,5-diaryl-1H-pyrrolo[2,3-b]pyridines were synthesized and evaluated for inhibition of DYRKIA kinase in vitro. Derivatives having hydroxy groups on the aryl moieties (2c, 2j-l) demonstrated high inhibitory potencies with Kis in the low nanomolar range. Their methoxy analogues were up to 100 times less active. Docking studies at the ATP binding site suggested that these compounds bind tightly to this site via a network of multiple H-bonds with the peptide backbone. None of the active compounds were cytotoxic to KB cells at 10(-6) M. Kinase profiling revealed that compound 2j showed 2-fold selectivity for DYRK1A with respect to DYRK2 and DYRK3.

Published

2013

37. Iodine(III)-mediated umpolung of bromide salts for the ethoxybromination of enamides.

Author

Nocquet-Thibault S, Retailleau P, Cariou K, and Dodd RH

Subjects

Catalysis, Hydrocarbons, Brominated chemistry, Molecular Structure, Salts, Stereoisomerism, Amides chemistry, Benzene Derivatives chemistry, Bromides chemistry, Hydrocarbons, Brominated chemical synthesis, Iodine chemistry, Lithium Compounds chemistry

Abstract

Using (diacetoxyiodo)benzene in conjunction with simple bromide salts in ethanol allows the regioselective ethoxybromination of a wide range of enamides, thus yielding highly versatile α-bromo hemiaminals, which can then be engaged in a broad array of transformations.

Published

2013

38. A macrocyclic β-iodoallenolate intermediate is key: synthesis of the ABD core of phomactin A.

Author

Ciesielski J, Cariou K, and Frontier AJ

Subjects

Ascomycota chemistry, Biological Products chemistry, Cyclization, Heterocyclic Compounds, 4 or More Rings chemistry, Macrocyclic Compounds chemistry, Molecular Structure, Stereoisomerism, Biological Products chemical synthesis, Heterocyclic Compounds, 4 or More Rings chemical synthesis, Macrocyclic Compounds chemical synthesis

Abstract

An enantioselective strategy for the synthesis of phomactin natural products is described. The Lewis acid triggered cyclization of a β-iodoallenolate embedded in a 12-membered macrocycle was used to obtain a highly functionalized bicyclo[9.3.1]pentadecane in good yield and high diastereoselectivity. This iodoenone contains the substituents of the AD ring system of the phomactin family of natural products, appropriate for further functionalization. Synthesis of the oxadecalin core of phomactin A from the AD iodoenone intermediate was achieved. In this unusual strategy, rings A and B are both fashioned within a macrocyclic precursor.

Published

2012

39. Total synthesis of (±)-rocaglamide via oxidation-initiated Nazarov cyclization.

Author

Malona JA, Cariou K, Spencer WT 3rd, and Frontier AJ

Subjects

Anti-Inflammatory Agents chemical synthesis, Antineoplastic Agents, Phytogenic chemical synthesis, Benzofurans chemistry, Cyclization, Insecticides chemical synthesis, Ketones chemistry, Magnetic Resonance Spectroscopy, Molecular Structure, Oxidation-Reduction, Stereoisomerism, Alkadienes chemistry, Benzofurans chemical synthesis, Cyclopentanes chemistry

Abstract

This article describes the evolution of a Nazarov cyclization-based synthetic strategy targeting the anticancer, antiinflammatory, and insecticidal natural product (±)-rocaglamide. Initial pursuit of a polarized heteroaromatic Nazarov cyclization to construct the congested cyclopentane core revealed an unanticipated electronic bias in the pentadienyl cation. This reactivity was harnessed in a successful second-generation approach using an oxidation-initiated Nazarov cyclization of a heteroaryl alkoxyallene. Full details of these two approaches are given, as well as the characterization of undesired reaction pathways available to the Nazarov cyclization product. A sequence of experiments that led to an understanding of the unexpected reactivity of this key intermediate is described, which culminated in the successful total synthesis of (+)-rocaglamide.

Published

2012

40. Copper(I) catalyzed regioselective asymmetric alkoxyamination of aryl enamide derivatives.

Author

Nakanishi M, Minard C, Retailleau P, Cariou K, and Dodd RH

Subjects

Amination, Catalysis, Ligands, Molecular Structure, Stereoisomerism, Alcohols chemistry, Amides chemistry, Copper chemistry

Abstract

The copper(I) catalyzed reaction of an enamide with an iminoiodane, in the presence of an alcohol, triggers the direct alkoxyamination of the double bond. This transformation represents a straightforward access to α-amino aminals in a completely regio- and diastereoselective manner. Use of a chiral Box ligand allows this reaction to be carried out in an enantioselective fashion., (© 2011 American Chemical Society)

Published

2011

41. Nazarov cyclization initiated by peracid oxidation: the total synthesis of (+/-)-rocaglamide.

Author

Malona JA, Cariou K, and Frontier AJ

Subjects

Cyclization, Epoxy Compounds chemistry, Oxidation-Reduction, Stereoisomerism, Benzofurans chemical synthesis

Abstract

The total syntheses of aglafolin, rocagloic acid, and rocaglamide using Nazarov cyclization are described. Generation of the necessary oxyallyl cation intermediate was accomplished via peracid oxidation of an allenol ether to generate an unusual oxycarbenium ion species that undergoes cyclization. The synthesis is efficient, highly diastereoselective, and strategically distinct from previous syntheses of rocaglamide.

Published

2009

42. Generation and trapping of cyclopentenylidene gold species: four pathways to polycyclic compounds.

Author

Lemière G, Gandon V, Cariou K, Hours A, Fukuyama T, Dhimane AL, Fensterbank L, and Malacria M

Abstract

Cyclopentenylidene gold complexes can easily be formed from vinyl allenes through a Nazarov-like mechanism. Such carbenes may transform in four different ways into polycyclic frameworks: electrophilic cyclopropanation, C-H insertion, C-C migration, or proton shift. We have studied the selectivity of these different pathways and used our findings for the expedient preparation of valuable complex molecules. An application to the total synthesis of a natural product, Delta(9(12))-capnellene, is presented. DFT computations were carried out to shed light on the mechanisms.

Published

2009

43. Tandem gold(I)-catalyzed cyclization/electrophilic cyclopropanation of vinyl allenes.

Author

Lemière G, Gandon V, Cariou K, Fukuyama T, Dhimane AL, Fensterbank L, and Malacria M

Abstract

We have developed an expedient method for the synthesis of polycyclic compounds from propargyl acetates or vinyl allenes involving up to three Au(I)-catalyzed elemental steps: 3,3-rearrangement, metalla-Nazarov reaction, and electrophilic cyclopropanation. The reaction proceeds under very mild conditions and in short times. The mechanism has been studied by DFT computations.

Published

2007

44. From PtCl(2)- and acid-catalyzed to uncatalyzed cycloisomerization of 2-propargyl anilines: access to functionalized indoles.

Author

Cariou K, Ronan B, Mignani S, Fensterbank L, and Malacria M

Subjects

Catalysis, Cyclization, Gold chemistry, Indicators and Reagents, Isomerism, Metals chemistry, Protein Prenylation, Protons, Trimethylsilyl Compounds chemical synthesis, Aniline Compounds chemical synthesis, Indoles chemistry, Platinum Compounds chemistry

Published

2007

45. PtCl2-catalyzed cycloisomerizations of 5-en-1-yn-3-ol systems.

Author

Harrak Y, Blaszykowski C, Bernard M, Cariou K, Mainetti E, Mouriès V, Dhimane AL, Fensterbank L, and Malacria M

Subjects

Catalysis, Cyclization, Cyclopropanes chemical synthesis, Isomerism, Ketones chemical synthesis, Molecular Structure, Alkynes chemical synthesis, Platinum Compounds chemistry

Abstract

5-En-1-yn-3-ol substrates bearing a free hydroxyl group or an acyl group are highly versatile partners for PtCl2-catalyzed cycloisomerizations. Electrophilic activation of the alkyne moiety triggers at wish a hydride or an O-acyl migration yielding at the end to regioisomeric keto derivatives. The efficient preparation of Sabina ketone, an important monoterpene precursor, has been worked out.

Published

2004

46. PtCl 2-catalyzed cycloisomerizations of allenynes.

Author

Cadran N, Cariou K, Hervé G, Aubert C, Fensterbank L, Malacria M, and Marco-Contelles J

Abstract

The PtCl2-catalyzed cycloisomerization of allenyne systems has been examined. This process is a highly versatile tool for obtaining products that cannot be attainable with other metals. Simple adjustment of the allene or alkyne substitution can direct the reactivity in a selective manner and give birth to important carbocyclic frameworks (hydrindenes, cyclic vinylallenes, and trienes).

Published

2004