Your search keyword '"Noiray M"' showing total 31 results

1. Interfacial Interaction between Transmembrane Ocular Mucins and Adhesive Polymers and Dendrimers Analyzed by Surface Plasmon Resonance

Author

Bravo-Osuna, I., Noiray, M., Briand, E., Woodward, A. M., Argüeso, P., Martínez, I. T. Molina, Herrero-Vanrell, R., and Ponchel, G.

Published

2012

2. Nanoparticles targeting pancreatic tumor

Author

Mura, S., Valetti, Sabrina, Maione, Federica, Stella, Barbara, Desmaële, D., Noiray, M., Vergnaud, J., Vauthier, C., Cattel, Luigi, Giraudo, Enrico, and Couvreur, P.

Published

2014

3. Targeted nanoparticles for pancreatic cancer

Author

Valetti, Sabrina, Stella, Barbara, Mura, S., Maione, Federica, Desmaële, D., Vauthier, C., Noiray, M., Giraudo, Enrico, Cattel, Luigi, and Couvreur, P.

Published

2013

4. A “green” strategy to construct non-covalent, stable and bioactive coatings on porous MOF nanoparticles

Author

Agostoni, V., primary, Horcajada, P., additional, Noiray, M., additional, Malanga, M., additional, Aykaç, A., additional, Jicsinszky, L., additional, Vargas-Berenguel, A., additional, Semiramoth, N., additional, Daoud-Mahammed, S., additional, Nicolas, V., additional, Martineau, C., additional, Taulelle, F., additional, Vigneron, J., additional, Etcheberry, A., additional, Serre, C., additional, and Gref, R., additional

Published

2015

5. La creazione del Conservatorio di Palermo tra Sei e Settecento

Author

Tedesco A, Collisani, G, Ficola, D, Fiore, C, Tedesco, A, Tedesco ,A, Geyer, H, Noiray, M, Balsano, MA, Marino, M, Rostagno, A, Giglio, C, Sollima, AM, Misuraca, P, Di Stefano, GP, Lo Cicero, D, Prinzivalli, F, Bacciagaluppi, C, Manno, M, and Tedesco A

Subjects

Music education, Palermo, Conservatory, Settore L-ART/07 - Musicologia E Storia Della Musica

Abstract

Questo contributo ripercorre alcune delle tappe più significative della vita del conservatorio di Palermo tra Sei e Settecento a partire da due momenti fondativi: il primo è la creazione dell'istituzione nel 1617 col nome di “Conservatorio dei dispersi”; il secondo la trasformazione in conservatorio di musica vero e proprio nel 1747, sotto il titolo del “Buon Pastore”. In particolare verranno tratteggiate le figure dei due viceré responsabili di questi eventi, Francisco Ruiz conte di Castro e Bartolomeo Corsini. Inoltre si esaminerano i "capitoli" (regolamenti) emanati tra Sei e Settecento con particolare riferimento alle notizie sull'attività musicale. This essay traces some of the most significant stages in the life of the conservatory in Palermo between the seventeenth and eighteenth centuries, starting with two founding moments: the first is its birth under the name of "Conservatorio dei dispersi" in 1617; the second is its transformation into a proper music school called "Buon Pastore. in 1747" In particular, the figures of the two viceroys responsible for these events, Francisco Ruiz Count of Castro and Bartolomeo Corsini, will be discussed. In addition, the "capitoli" (regulations) issued between the seventeenth and eighteenth centuries will be examined, with particular reference to musical activity.

Published

2022

6. « Reprises, nouvelles productions et créations, la mise en scène à l’Opéra de Paris sous la direction d’André Messager et Leimistin Broussan (1908-1914) »

Author

Karine Boulanger, Centre André Chastel : Laboratoire de recherche en histoire de l'art (CAC), Université Paris-Sorbonne (UP4)-Ministère de la Culture et de la Communication (MCC)-Centre National de la Recherche Scientifique (CNRS), Noiray, M. et Serre, S. ed., Boulanger, Karine, and Noiray, M. et Serre, S. ed.

Subjects

XXe siècle, XXIe siècle, History, Paris, [SHS.MUSIQ]Humanities and Social Sciences/Musicology and performing arts, Opéra de Paris, ART015000, danse, analyse, théâtre, mise en scène, AC, opéra, [SHS.MUSIQ] Humanities and Social Sciences/Musicology and performing arts, lyrique, histoire, répertoire, XVIIe siècle, XVIIIe siècle, XIXe siècle, musique, histoire de l'art, Music, ComputingMilieux_MISCELLANEOUS

Abstract

Les obligations du cahier des charges signé par chaque nouvelle direction de l’Opéra, l’actualité musicale et l’évolution du goût entraînent du début du XXe siècle une mutation inexorable du répertoire. Le système d’exploitation, celui d’un théâtre de répertoire, parfois combiné à celui de la « stagione » pour la haute saison, implique la nécessité de pouvoir monter rapidement une production. À cet effet, les directions successives ont produit un certain nombre de documents destinés à garder la mémoire d’un spectacle, non seulement pour le personnel, mais aussi pour les théâtres lyriques de province s’inspirant volontiers des productions parisiennes. Simples annotations copiées sur un livret, parfois publiées et accompagnées de schémas, les indications qui constituent la mise en scène d’un spectacle vont être à partir de 1908 plus précisément consignées sur des partitions par le nouveau régisseur général, Paul Stuart. Ces documents, les journaux de régie, les maquettes et photographies des décors et costumes, ainsi que le matériel musical permettent de se faire une idée assez nette des pratiques scéniques de l’époque. Ils montrent à quelles références françaises ou étrangères pouvait faire appel le régisseur pour monter un spectacle, comment se déroulaient les reprises, quelle influence pouvait avoir le compositeur ou un chanteur. Les analyses présentées ici prouvent l’existence d’une véritable tradition scénique, mais elles relèvent aussi les signes d’une évolution, caractérisée par de nouvelles exigences techniques, par l’uniformisation partielle des mises en scène à l’échelle européenne et par l’apparition d’une concurrence entre les opéras.

Published

2009

7. DciA, the Bacterial Replicative Helicase Loader, promotes LLPS in the presence of ssDNA.

Author

Marsin S, Jeannin S, Baconnais S, Walbott H, Pehau-Arnaudet G, Noiray M, Aumont-Nicaise M, Gp Stender E, Cargemel C, Le Bars R, Le Cam E, and Quevillon-Cheruel S

Abstract

The loading of the bacterial replicative helicase DnaB is an essential step for genome replication and depends on the assistance of accessory proteins. Several of these proteins have been identified across the bacterial phyla. DciA is the most common loading protein in bacteria, yet the one whose mechanism is the least understood. We have previously shown that DciA from Vibrio cholerae is composed of a globular domain followed by an unfolded extension and demonstrated its strong affinity for DNA. Here, we characterize the condensates formed by VcDciA upon interaction with a short single-stranded DNA substrate. We demonstrate the fluidity of these condensates using light microscopy and address their network organization through electron microscopy, thereby bridging events to conclude on a liquid-liquid phase separation behavior. Additionally, we observe the recruitment of DnaB in the droplets, concomitant with the release of DciA. We show that the well-known helicase loader DnaC from Escherichia coli is also competent to form these phase-separated condensates in the presence of ssDNA. Our phenomenological data are still preliminary as regards the existence of these condensates in vivo, but open the way for exploring the potential involvement of DciA in the formation of non-membrane compartments within the bacterium to facilitate the assembly of replication players on chromosomal DNA., 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 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

8. pH Sensitivity of YFPs is Reduced Upon AlphaRep Binding: Proof of Concept in Vitro and in Living Cells.

Author

Bousmah Y, Noiray M, Jalaber H, Pasquier H, Béatrice Valerio-Lepiniec M, Urvoas A, and Erard M

Subjects

Hydrogen-Ion Concentration, Humans, Bacterial Proteins metabolism, Bacterial Proteins chemistry, Protein Binding, HeLa Cells, Luminescent Proteins metabolism, Luminescent Proteins chemistry, Fluorescence Resonance Energy Transfer

Abstract

Yellow fluorescent proteins (YFPs) are commonly used in biology to track cellular processes, particularly as acceptors in experiments using the Förster Resonant Energy Transfer (FRET) phenomenon. However, their fluorescence intensity is strongly pH-dependent, limiting their utility in acidic environments. Here, we explore the pH sensitivity of YFPs upon binding with an artificial repeat protein (αRep) both in vitro and in living cells. We show that αRep binds to Citrine, with high affinity in the nanomolar range at physiological and acidic pHs, leading to increased thermal stability of the complex. Moreover, αRep binding reduces Citrine's pK a by 0.75 pH units, leading to a decreased sensitivity to pH fluctuations. This effect can be generalized to other YFPs as Venus and EYFP in vitro. An efficient binding of αRep to Citrine has also been observed in living cells both at pH 7.4 and pH 6. This interaction leads to reduced variations of Citrine fluorescence intensity in response to pH variations in cells. Overall, the study highlights the potential of αReps as a tool to modulate the pH sensitivity of YFPs, paving the way for future exploration of biological events in acidic environments by FRET in combination with a pH-insensitive cyan donor., (© 2024 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2024

9. The LH-DH module of bacterial replicative helicases is the common binding site for DciA and other helicase loaders.

Author

Cargemel C, Marsin S, Noiray M, Legrand P, Bounoua H, Li de la Sierra-Gallay I, Walbott H, and Quevillon-Cheruel S

Subjects

DNA Replication, DnaB Helicases chemistry, DnaB Helicases genetics, DnaB Helicases metabolism, DNA Helicases chemistry, Bacteria metabolism, Escherichia coli genetics, Binding Sites, Bacterial Proteins chemistry, Escherichia coli Proteins chemistry

Abstract

During the initiation step of bacterial genome replication, replicative helicases depend on specialized proteins for their loading onto oriC. DnaC and DnaI were the first loaders to be characterized. However, most bacteria do not contain any of these genes, which are domesticated phage elements that have replaced the ancestral and unrelated loader gene dciA several times during evolution. To understand how DciA assists the loading of DnaB, the crystal structure of the complex from Vibrio cholerae was determined, in which two VcDciA molecules interact with a dimer of VcDnaB without changing its canonical structure. The data showed that the VcDciA binding site on VcDnaB is the conserved module formed by the linker helix LH of one monomer and the determinant helix DH of the second monomer. Interestingly, DnaC from Escherichia coli also targets this module onto EcDnaB. Thanks to their common target site, it was shown that VcDciA and EcDnaC could be functionally interchanged in vitro despite sharing no structural similarity. This represents a milestone in understanding the mechanism employed by phage helicase loaders to hijack bacterial replicative helicases during evolution., (open access.)

Published

2023

10. Structural Insights of the DciA Helicase Loader in Its Relationship with DNA.

Author

Cargemel C, Baconnais S, Aumont-Nicaise M, Noiray M, Maurin L, Andreani J, Walbott H, Le Cam E, Ochsenbein F, Marsin S, and Quevillon-Cheruel S

Subjects

DNA Helicases metabolism, DNA, DNA Replication, Bacteria metabolism, DNA, Single-Stranded, Bacterial Proteins genetics, Bacterial Proteins chemistry, Escherichia coli Proteins genetics, Escherichia coli Proteins chemistry

Abstract

DciA is the ancestral bacterial replicative helicase loader, punctually replaced during evolution by the DnaC/I loaders of phage origin. DnaC helps the helicase to load onto DNA by cracking open the hexameric ring, but the mechanism of loading by DciA remains unknown. We demonstrate by electron microscopy, nuclear magnetic resonance (NMR) spectroscopy, and biochemistry experiments that DciA, which folds into a KH-like domain, interacts with not only single-stranded but also double-stranded DNA, in an atypical mode. Some point mutations of the long α-helix 1 demonstrate its importance in the interaction of DciA for various DNA substrates mimicking single-stranded, double-stranded, and forked DNA. Some of these mutations also affect the loading of the helicase by DciA. We come to the hypothesis that DciA could be a DNA chaperone by intercalating itself between the two DNA strands to stabilize it. This work allows us to propose that the direct interaction of DciA with DNA could play a role in the loading mechanism of the helicase.

Published

2023

11. Characterization of the physicochemical interactions between exenatide and two intestinal permeation enhancers: Sodium caprate (C 10 ) and salcaprozate sodium (SNAC).

Author

Twarog C, Fattal E, Noiray M, Illel B, Brayden DJ, Taverna M, and Hillaireau H

Subjects

Bile Acids and Salts, Caprylates, Decanoic Acids, Exenatide, Glucagon-Like Peptide 1, Peptides, Water, Intestinal Absorption, Micelles

Abstract

A common approach to tackle the poor intestinal membrane permeability of peptides after oral administration is to formulate them with a permeation enhancer (PE). Increased oral bioavailability for oral peptide candidates has been reported from clinical trials when either salcaprozate sodium (SNAC) or sodium caprate (C 10 ) is incorporated in the formulation. However, little is known about how they physically interact with peptides in solution. Our objective was to compare the biophysical interactions between the GLP-1 analogue exenatide (Byetta®, Lilly), and C 10 or SNAC using a variety of advanced analytical techniques. First, critical micelle concentration was measured in different buffers for both PEs. Dynamic light scattering (DLS) measurements revealed specific supramolecular structures arising from exenatide-PE association. Surface plasmon resonance (SPR) indicated the formation of exenatide-PE complexes with a high contribution from non-specific interactions and rapid binding kinetics, resulting in overall low affinities. DLS and isothermal titration calorimetry (ITC) were used to examine the supramolecular organization of the PEs, and revealed thermodynamic signatures characterized by unfavourable enthalpic contributions compensated by favourable entropic ones, but with low-affinity estimates in water (K D in the 10-100 µM range). With affinity capillary electrophoresis (ACE), weak interactions between exenatide and SNAC or C 10 were confirmed in saline, with a dissociation constant around 10 µM and 30 µM respectively. In biorelevant intestinal media, the bile salts in FaSSIF and FeSSIF further reduced the binding of both agents to exenatide (K D ≈ 100 µM), indicating that the interaction between the PEs and exenatide might be inhibited by bile salts in the GI lumen. This study suggests that the interactions of both PEs with exenatide follow a similar non-covalent mechanism and are of low affinity., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

12. Biocompatible and Photostable Photoacoustic Contrast Agents as Nanoparticles Based on Bodipy Scaffold and Polylactide Polymers: Synthesis, Formulation, and In Vivo Evaluation.

Author

Bodin JB, Gateau J, Coïs J, Lucas T, Lefebvre F, Moine L, Noiray M, Cailleau C, Denis S, Clavier G, Tsapis N, and Méallet-Renault R

Subjects

Animals, Boron Compounds, Contrast Media, Polyesters, Polymers, Nanoparticles, Photoacoustic Techniques methods

Abstract

We have designed a new Bodipy scaffold for efficient in vivo photoacoustic (PA) imaging of nanoparticles commonly used as drug nanovectors. The new dye has an optimized absorption band in the near-infrared window in biological tissue and a low fluorescence quantum yield that leads to a good photoacoustic generation efficiency. After Bodipy-initiated ring-opening polymerization of lactide, the polylactide-Bodipy was formulated into PEGylated nanoparticles (NPs) by mixing with PLA-PEG at different concentrations. Formulated NPs around 100 nm exhibit excellent PA properties: an absorption band at 760 nm and a molar absorption coefficient in between that of molecular PA absorbers and gold NPs. Highly improved photostability compared to cyanine-labeled PLA NPs as well as innocuity in cultured macrophages were demonstrated. After intravenous injection in healthy animals, NPs were easily detected using a commercial PA imaging system and spectral unmixing, opening the way to their use as theranostic agents.

Published

2022

13. Structural convergence for tubulin binding of CPAP and vinca domain microtubule inhibitors.

Author

Campanacci V, Urvoas A, Ammar Khodja L, Aumont-Nicaise M, Noiray M, Lachkar S, Curmi PA, Minard P, and Gigant B

Subjects

Microtubules metabolism, Protein Binding, Tubulin Modulators, Tubulin metabolism, Vinca metabolism

Abstract

Microtubule dynamics is regulated by various cellular proteins and perturbed by small-molecule compounds. To what extent the mechanism of the former resembles that of the latter is an open question. We report here structures of tubulin bound to the PN2-3 domain of CPAP, a protein controlling the length of the centrioles. We show that an α-helix of the PN2-3 N-terminal region binds and caps the longitudinal surface of the tubulin β subunit. Moreover, a PN2-3 N-terminal stretch lies in a β-tubulin site also targeted by fungal and bacterial peptide-like inhibitors of the vinca domain, sharing a very similar binding mode with these compounds. Therefore, our results identify several characteristic features of cellular partners that bind to this site and highlight a structural convergence of CPAP with small-molecule inhibitors of microtubule assembly.

Published

2022

14. Nanoparticles facing the gut barrier: Retention or mucosal absorption? Mechanisms and dependency to nanoparticle characteristics.

Author

Zandanel C, Ponchel G, Noiray M, and Vauthier C

Subjects

Animals, Drug Carriers, Mucous Membrane, Particle Size, Rats, Chitosan, Nanoparticles

Abstract

A better knowledge on influence of nanomedicine characteristics on their biological efficacy and safety is expected to accelerate their clinical translation. This work aimed understanding of the oral fate of polymer-based nanomedicines designed with different characteristics. The influence of nanoparticle characteristics (size, zeta potential, molecular architecture surface design) was explored on biological responses evaluating their retention and absorption by rat jejunum using the Ussing chamber experimental model. Thermodynamic aspects of interactions between nanoparticles and model mucins were elucidated by isothermal titration calorimetry. The retention on mucosa varied between nanoparticles from 18.5 to 97.3 % of the initial amount after a simulation considering the entire jejunum length. Different mechanisms were proposed which promoted mucosal association or oppositely precluded any interactions. Strikingly, mucosal retention was profoundly affected by the size and nature of interactions with the mucus which depended on the nature of the coating material, but not on the zeta potential. The nanoparticle absorption simulated along the whole length of the intestine was low (0.01 to almost 3% of the initial amounts). A saturable mechanism including an upper nanoparticle size limit was evidenced but, needs now to be further elucidated. This work showed that the molecular design and formulation of nanoparticles can guide mechanisms by which nanoparticles interact with the mucosa. The data could be useful to formulators to address different oral drug delivery challenges ranging from the simple increase of residence time and proximity to the absorptive epithelium and systemic delivery using the most absorbed nanoparticles., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

15. Gemcitabine lipid prodrug nanoparticles: Switching the lipid moiety and changing the fate in the bloodstream.

Author

Coppens E, Desmaële D, Naret T, Garcia-Argote S, Feuillastre S, Pieters G, Cailleau C, Paul JL, Prost B, Solgadi A, Michel JP, Noiray M, Couvreur P, and Mura S

Subjects

Animals, Humans, Lipids, Male, Rats, Sprague-Dawley, Gemcitabine, Rats, Deoxycytidine analogs & derivatives, Deoxycytidine pharmacokinetics, Drug Delivery Systems, Nanoparticles, Prodrugs

Abstract

A simple approach to achieve a lipoprotein (LP)-mediated drug delivery is to trigger the spontaneous drug insertion into endogenous lipoproteins in the bloodstream, by means of its chemical modification. Nanoparticles (NPs) made of the squalene-gemcitabine (SQGem) conjugate were found to have a high affinity for plasma lipoproteins while free gemcitabine did not, suggesting a key role of the lipid moiety in this event. Whether the drug conjugation to cholesterol, one of the major lipoprotein-transported lipids, could also promote an analogous interaction was a matter of question. NPs made of the cholesterol-gemcitabine conjugate (CholGem) have been herein thoroughly investigated for their blood distribution profile both in vitro and in vivo. Unexpectedly, contrarily to SQGem, no trace of the CholGem prodrug could be found in the lipoprotein fractions, nor was it interacting with albumin. The investigation of isolated NPs and NPs/LPs physical mixtures provided a further insight into the lack of interaction of CholGem NPs with LPs. Although essential for allowing the self-assembly of the prodrug into nanoparticles, the lipid moiety may not be sufficient to elicit interaction of the conjugated drug with plasma lipoproteins but the whole NP physicochemical features must be carefully considered., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

16. Loxoscelism: Advances and Challenges in the Design of Antibody Fragments with Therapeutic Potential.

Author

Karim-Silva S, Becker-Finco A, Jiacomini IG, Boursin F, Leroy A, Noiray M, de Moura J, Aubrey N, Billiald P, and Alvarenga LM

Subjects

Animals, Antigens immunology, Erythrocytes drug effects, Hemolysis drug effects, Humans, Models, Molecular, Neutralization Tests, Spider Bites therapy, Spider Venoms adverse effects, Spiders immunology, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal immunology, Antivenins administration & dosage, Antivenins immunology, Single-Chain Antibodies administration & dosage, Single-Chain Antibodies immunology, Spider Venoms immunology

Abstract

Envenoming due to Loxosceles spider bites still remains a neglected disease of particular medical concern in the Americas. To date, there is no consensus for the treatment of envenomed patients, yet horse polyclonal antivenoms are usually infused to patients with identified severe medical conditions. It is widely known that venom proteins in the 30-35 kDa range with sphingomyelinase D (SMasesD) activity, reproduce most of the toxic effects observed in loxoscelism. Hence, we believe that monoclonal antibody fragments targeting such toxins might pose an alternative safe and effective treatment. In the present study, starting from the monoclonal antibody LimAb7, previously shown to target SMasesD from the venom of L. intermedia and neutralize its dermonecrotic activity, we designed humanized antibody V-domains, then produced and purified as recombinant single-chain antibody fragments (scFvs). These molecules were characterized in terms of humanness, structural stability, antigen-binding activity, and venom-neutralizing potential. Throughout this process, we identified some blocking points that can impact the Abs antigen-binding activity and neutralizing capacity. In silico analysis of the antigen/antibody amino acid interactions also contributed to a better understanding of the antibody's neutralization mechanism and led to reformatting the humanized antibody fragment which, ultimately, recovered the functional characteristics for efficient in vitro venom neutralization.

Published

2020

17. Counterion of Chitosan Influences Thermodynamics of Association of siRNA with a Chitosan-Based siRNA Carrier.

Author

Zandanel C, Noiray M, and Vauthier C

Subjects

Calorimetry methods, Electrophoresis methods, Nanoparticles chemistry, Thermodynamics, Chitosan chemistry, RNA, Small Interfering chemistry

Abstract

Purpose: The work aimed to compare quality of a siRNA carrier prepared with chitosan of two different sources having similar degree of deacetylation and molecular weights. Differences were analyzed from thermodynamic characteristics of interactions with siRNA., Methods: The siRNA carrier (chitosan-coated poly(isobutylcyanoacrylate) nanoparticles) was prepared with home-prepared, CS Lab , and commercial, CS Com , chitosans. Chitosan counterion was identified and chitosans CS Com mod1 and CS Com mod2 were obtained from CS Com exchanging counterion with that found on CS Lab . Carrier quality was checked considering the size, zeta potential and siRNA association capacity by gel electrophoresis. Thermodynamic parameters of interactions between siRNA and chitosans in solution or immobilized at the carrier surface were determined by isothermal titration calorimetry (ITC)., Results: CS Lab and CS Com mod2 having a high content of acetate counterion associated better siRNA than CS Com and CS Com mod1 which counterion included mainly chloride. ITC measurements indicated that siRNA interactions with chitosan and the siRNA carrier were driven by entropic phenomena including dehydration, but thermodynamic parameters of interactions clearly differed according to the nature of the counterion of chitosan. The influence of chitosan counterions was interpreted considering their different lyotropic character., Conclusion: Association of siRNA with our siRNA carrier was influenced by the nature of counterions associated with chitosan. Driven by entropic phenomena including dehydration, interactions were favored by acetate counterion. Although more work would be needed to decipher the influence of the counterion of chitosan during association with siRNA, it was pointed out as a new critical attribute of chitosan to consider while formulating siRNA carrier with this polysaccharide.

Published

2020

18. Biomolecular engineering of antidehydroepiandrosterone antibodies: a new perspective in cancer diagnosis and treatment using single-chain antibody variable fragment.

Author

Fogaça RL, Alvarenga LM, Woiski TD, Becker-Finco A, Teixeira KN, Silva SK, de Moraes RN, Noronha L, Noiray M, de Figueiredo BC, Billiald P, and Moura J

Subjects

Animals, Biomarkers, Tumor metabolism, Dehydroepiandrosterone metabolism, Gene Expression, Humans, Mice, Inbred BALB C, Molecular Docking Simulation, Protein Conformation, Protein Engineering methods, Recombinant Proteins genetics, Recombinant Proteins metabolism, Single-Chain Antibodies genetics, Zona Reticularis metabolism, Adrenal Cortex Neoplasms diagnosis, Adrenocortical Carcinoma diagnosis, Biomarkers, Tumor analysis, Dehydroepiandrosterone analysis, Single-Chain Antibodies metabolism

Abstract

Aim: To develop a monoclonal antibody against dehydroepiandrosterone (DHEA) and miniaturize it, generating a single-chain antibody variable fragment (scFv) against DHEA as an adrenocortical carcinoma (ACC) marker., Material & Methods: DHEA conjugated to keyhole limpet hemocyanin was used as an immunogen to obtain anti-DHEA hybridomas. Variable fragments were cloned from hybridoma 5B7 total RNA, and used to detect DHEA in normal adrenal tissue and ACC cells., Results: IgM monoclonal antibody was highly specific, and the recombinant scFv preserved parental antibody characteristics, allowing tissue localization of DHEA., Conclusion: Undefined small lesions are challenges for clinicians and impact clinical adrenocortical tumor management. Generating an anti-DHEA scFv facilitates development of imaging tests for early diagnosis of pediatric ACC.

Published

2019

19. From Naproxen Repurposing to Naproxen Analogues and Their Antiviral Activity against Influenza A Virus.

Author

Dilly S, Fotso Fotso A, Lejal N, Zedda G, Chebbo M, Rahman F, Companys S, Bertrand HC, Vidic J, Noiray M, Alessi MC, Tarus B, Quideau S, Riteau B, and Slama-Schwok A

Subjects

A549 Cells, Animals, Binding Sites, Cyclooxygenase 2 Inhibitors chemistry, Dogs, Drug Design, Drug Repositioning, Drug Resistance, Viral drug effects, Female, Humans, Influenza A virus pathogenicity, Influenza, Human drug therapy, Influenza, Human pathology, Madin Darby Canine Kidney Cells, Mice, Inbred C57BL, Molecular Docking Simulation, Naproxen pharmacology, Nucleocapsid Proteins, Oseltamivir pharmacology, RNA-Binding Proteins chemistry, RNA-Binding Proteins metabolism, Surface Plasmon Resonance, Viral Core Proteins chemistry, Viral Core Proteins metabolism, Antiviral Agents chemistry, Antiviral Agents pharmacology, Cyclooxygenase 2 Inhibitors pharmacology, Influenza A virus drug effects, Naproxen analogs & derivatives

Abstract

The nucleoprotein (NP) of influenza A virus (IAV) required for IAV replication is a promising target for new antivirals. We previously identified by in silico screening naproxen being a dual inhibitor of NP and cyclooxygenase COX2, thus combining antiviral and anti-inflammatory effects. However, the recently shown strong COX2 antiviral potential makes COX2 inhibition undesirable. Here we designed and synthesized two new series of naproxen analogues called derivatives 2, 3, and 4 targeting highly conserved residues of the RNA binding groove, stabilizing NP monomer without inhibiting COX2. Derivative 2 presented improved antiviral effects in infected cells compared to that of naproxen and afforded a total protection of mice against a lethal viral challenge. Derivative 4 also protected infected cells challenged with circulating 2009-pandemic and oseltamivir-resistant H1N1 virus. This improved antiviral effect likely results from derivatives 2 and 4 inhibiting NP-RNA and NP-polymerase acidic subunit PA N-terminal interactions.

Published

2018

20. Elucidating the role of surface chemistry on cationic phosphorus dendrimer-siRNA complexation.

Author

Deriu MA, Tsapis N, Noiray M, Grasso G, El Brahmi N, Mignani S, Majoral JP, Fattal E, and Danani A

Subjects

Cations, Computational Biology, Molecular Dynamics Simulation, Thermodynamics, Dendrimers chemistry, Phosphorus chemistry, RNA, Small Interfering chemistry

Abstract

In the field of dendrimers targeting small interfering RNA (siRNA) delivery, dendrimer structural properties, such as the flexibility/rigidity ratio, play a crucial role in the efficiency of complexation. However, advances in organic chemistry have enabled the development of dendrimers that differ only by a single atom on their surface terminals. This is the case for cationic phosphorus dendrimers functionalized with either pyrrolidinium (DP) or morpholinium (DM) terminal groups. This small change was shown to strongly affect the dendrimer-siRNA complexation, leading to more efficient anti-inflammatory effects in the case of DP. Reasons for this different behavior can hardly be inferred only by biological in vitro and in vivo experiments due to the high number of variables and complexity of the investigated biological system. However, an understanding of how small chemical surface changes may completely modify the overall dendrimer-siRNA complexation is a significant breakthrough towards the design of efficient dendrimers for nucleic acid delivery. Herein, we present experimental and computational approaches based on isothermal titration calorimetry and molecular dynamics simulations to elucidate the molecular reasons behind different efficiencies and activities of DP and DM. Results of the present research highlight how chemical surface modifications may drive the overall dendrimer-siRNA affinity by influencing enthalpic and entropic contributions of binding free energy. Moreover, this study elucidates molecular reasons related to complexation stoichiometry that may be crucial in determining the dendrimer complexation efficiency.

Published

2018

21. Assessment of Complement Activation by Nanoparticles: Development of a SPR Based Method and Comparison with Current High Throughput Methods.

Author

Coty JB, Noiray M, and Vauthier C

Subjects

Animals, Complement C3 agonists, Electrophoresis methods, Goats, Humans, Mice, Complement C3 metabolism, High-Throughput Screening Assays methods, Nanoparticles administration & dosage, Nanoparticles metabolism, Surface Plasmon Resonance methods

Abstract

Purpose: A Surface Plasmon Resonance chip (SPR) was developed to study the activation of complement system triggered by nanomaterials in contact with human serum, which is an important concern today to warrant safety of nanomedicines., Methods: The developed chip was tested for its specificity in complex medium and its longevity of use. It was then employed to assess the release of complement fragments upon incubation of nanoparticles in serum. A comparison was made with other current methods assessing complement activation (μC-IE, ELISA)., Results: The SPR chip was found to give a consistent response for C3a release upon activation by nanoparticles. Results were similar to those obtained by μC-IE. However, ELISA detection of iC3b fragments showed an explained high non-specific background. The impact of sample preparation preceding the analysis was assessed with the newly develop SPR method. The removal of nanoparticles before analysis showed an important modification in the obtained response, possibly leading to false negative results., Conclusion: The SPR chip developed in this work allows for an automated assessment of complement activation triggered by nanoparticles with possibility of multiplexed analysis. The design of the chip proved to give consistent results of complement activation by nanoparticles.

Published

2018

22. Anti-Inflammatory Effect of Anti-TNF-α SiRNA Cationic Phosphorus Dendrimer Nanocomplexes Administered Intranasally in a Murine Acute Lung Injury Model.

Author

Bohr A, Tsapis N, Andreana I, Chamarat A, Foged C, Delomenie C, Noiray M, El Brahmi N, Majoral JP, Mignani S, and Fattal E

Subjects

Acute Lung Injury genetics, Acute Lung Injury metabolism, Acute Lung Injury pathology, Administration, Intranasal, Animals, Disease Models, Animal, Female, Mice, RAW 264.7 Cells, Tumor Necrosis Factor-alpha genetics, Acute Lung Injury drug therapy, Anti-Inflammatory Agents chemistry, Anti-Inflammatory Agents pharmacology, Dendrimers chemistry, Dendrimers pharmacology, Gene Silencing, Morpholinos chemistry, Morpholinos genetics, Morpholinos pharmacology, RNA, Small Interfering chemistry, RNA, Small Interfering genetics, RNA, Small Interfering pharmacology, Tumor Necrosis Factor-alpha antagonists & inhibitors

Abstract

Inflammation is an essential component of many lung diseases, including asthma, chronic obstructive pulmonary disease (COPD), or acute lung injury. Our purpose was to design efficient carriers for lung delivery of small interfering RNA (siRNA) targeting tumor necrosis factor (TNF-α) in an acute lung injury model. To achieve this goal, two different types of phosphorus-based dendrimers with either pyrrolidinium or morpholinium as terminal protonated amino groups were selected for their better biocompatibility compared to other dendrimers. Dendriplexes containing pyrrolidinium surface groups demonstrated a stronger siRNA complexation, a higher cellular uptake, and enhanced in vitro silencing efficiency of TNF-α in the lipopolysaccharide (LPS)-activated mouse macrophage cell line RAW264.7, compared to morpholinium-containing dendriplexes. The better performance of the pyrrolidium dendriplexes was attributed to their higher pK a value leading to a stronger siRNA complexation and improved protection against enzymatic degradation resulting in a higher cellular uptake. The superior silencing effect of the pyrrolidinium dendriplexes, compared to noncomplexed siRNA, was confirmed in vivo in an LPS-induced murine model of short-term acute lung injury upon lung delivery via nasal administration. These data suggest that phosphorus dendriplexes have a strong potential in lung delivery of siRNA for treating inflammatory lung diseases.

Published

2017

23. A non-covalent "click chemistry" strategy to efficiently coat highly porous MOF nanoparticles with a stable polymeric shell.

Author

Aykaç A, Noiray M, Malanga M, Agostoni V, Casas-Solvas JM, Fenyvesi É, Gref R, and Vargas-Berenguel A

Subjects

Calorimetry methods, Drug Liberation, Kinetics, Mannose analogs & derivatives, Microscopy, Confocal, Phosphorylation, Porosity, Solubility, Spectrometry, Fluorescence, Surface Properties, Thermodynamics, Click Chemistry methods, Iron Compounds chemistry, Magnetics methods, Mannose chemistry, Metal Nanoparticles chemistry, Nanotechnology methods, Rhodamines chemistry, Zidovudine chemistry, beta-Cyclodextrins chemistry

Abstract

Background: Metal-organic framework nanoparticles (nanoMOFs) are biodegradable highly porous materials with a remarkable ability to load therapeutic agents with a wide range of physico-chemical properties. Engineering the nanoMOFs surface may provide nanoparticles with higher stability, controlled release, and targeting abilities. Designing postsynthetic, non-covalent self-assembling shells for nanoMOFs is especially appealing due to their simplicity, versatility, absence of toxic byproducts and minimum impact on the original host-guest ability., Methods: In this study, several β-cyclodextrin-based monomers and polymers appended with mannose or rhodamine were randomly phosphorylated, and tested as self-assembling coating building blocks for iron trimesate MIL-100(Fe) nanoMOFs. The shell formation and stability were studied by isothermal titration calorimetry (ITC), spectrofluorometry and confocal imaging. The effect of the coating on tritium-labeled AZT-PT drug release was estimated by scintillation counting., Results: Shell formation was conveniently achieved by soaking the nanoparticles in self-assembling agent aqueous solutions. The grafted phosphate moieties enabled a firm anchorage of the coating to the nanoMOFs. Coating stability was directly related to the density of grafted phosphate groups, and did not alter nanoMOFs morphology or drug release kinetics., Conclusion: An easy, fast and reproducible non-covalent functionalization of MIL-100(Fe) nanoMOFs surface based on the interaction between phosphate groups appended to β-cyclodextrin derivatives and iron(III) atoms is presented., General Significance: This study proved that discrete and polymeric phosphate β-cyclodextrin derivatives can conform non-covalent shells on iron(III)-based nanoMOFs. The flexibility of the β-cyclodextrin to be decorated with different motifs open the way towards nanoMOFs modifications for drug delivery, catalysis, separation, imaging and sensing. This article is part of a Special Issue entitled "Recent Advances in Bionanomaterials" Guest Editors: Dr. Marie-Louise Saboungi and Dr. Samuel D. Bader., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

24. Identification of a Novel Complex between the Nucleoprotein and PA(1-27) of Influenza A Virus Polymerase.

Author

Vidic J, Noiray M, Bagchi A, and Slama-Schwok A

Subjects

Animals, Dogs, Influenza A Virus, H1N1 Subtype physiology, Madin Darby Canine Kidney Cells, Models, Molecular, Molecular Dynamics Simulation, Multiprotein Complexes chemistry, Nucleocapsid Proteins, Protein Interaction Domains and Motifs, Protein Subunits chemistry, Recombinant Proteins chemistry, Spectrometry, Fluorescence, Surface Plasmon Resonance, Influenza A Virus, H1N1 Subtype chemistry, RNA-Binding Proteins chemistry, RNA-Dependent RNA Polymerase chemistry, Viral Core Proteins chemistry, Viral Proteins chemistry

Abstract

The structure of the ribonucleoprotein complexes is crucial to viral transcription and replication of influenza virus, but association of the nucleoprotein (NP) with the polymerase remains to be characterized at the molecular level. Here, we identify a peptide of the polymerase acidic subunit PA(1-27) that associates with NP. Docking and molecular dynamics simulations suggest a similar NP binding site with PA(1-27) and PA(1-186). The PA(1-27)-NP complex is characterized by surface plasmon resonance and fluorescence using recombinant NP proteins and by pull-down assays in infected cells. The PA(1-27)-NP complex may have a role in the final steps of transcription and replication.

Published

2016

25. Generation of recombinant antibody fragments with toxin-neutralizing potential in loxoscelism.

Author

Karim-Silva S, Moura Jd, Noiray M, Minozzo JC, Aubrey N, Alvarenga LM, and Billiald P

Subjects

Animals, Cells, Cultured, Gene Expression, Hemolysis, Mice, Protein Engineering, Sphingomyelin Phosphodiesterase antagonists & inhibitors, Spider Bites immunology, Spiders immunology, Antibodies, Monoclonal therapeutic use, Antivenins therapeutic use, Immunotherapy methods, Phosphoric Diester Hydrolases immunology, Recombinant Proteins therapeutic use, Single-Chain Antibodies therapeutic use, Spider Bites therapy, Spider Venoms immunology

Abstract

Loxosceles spider bites often lead to serious envenomings and no definite therapy has yet been established. In such a context, it is of interest to consider an antibody-based targeted therapy. We have previously prepared a murine monoclonal IgG (LiMab7) that binds to 32-35kDa components of Loxosceles intermedia venom and neutralizes the dermonecrotic activity of the venom. Here, we re-engineered LiMab7 into a recombinant diabody. The protein was produced in bacteria and then it was functionally characterized. It proved to be efficient at neutralizing sphingomyelinase and hemolytic activities of the crude venom despite the slightly altered binding kinetic constants and the limited stability of the dimeric configuration. This is the first report of a specific recombinant antibody for a next-generation of Loxosceles antivenoms., (Copyright © 2016 European Federation of Immunological Societies. Published by Elsevier B.V. All rights reserved.)

Published

2016

26. Supramolecular Organization and siRNA Binding of Hyaluronic Acid-Coated Lipoplexes for Targeted Delivery to the CD44 Receptor.

Author

Nascimento TL, Hillaireau H, Noiray M, Bourgaux C, Arpicco S, Pehau-Arnaudet G, Taverna M, Cosco D, Tsapis N, and Fattal E

Subjects

Binding Sites, Humans, Surface Plasmon Resonance, Drug Delivery Systems, Hyaluronan Receptors chemistry, Hyaluronic Acid chemistry, Lipid Bilayers chemistry, RNA, Small Interfering chemistry

Abstract

The dynamics of the formation of siRNA-lipoplexes coated with hyaluronic acid (HA) and the parameters influencing their supramolecular organization were studied. The insertion of a HA-dioleylphosphatidylethanolamine (DOPE) conjugate in the liposome structure as well as subsequent complexation with siRNA increased the liposome size. Lipoplexes were around 110 nm at high ± charge ratios with a zeta potential around +50 mV and around 230 nm at low ± ratios, with a zeta potential that decreased to negative values, reaching -45 mV. The addition of the conjugate did not compromise siRNA binding to liposomes, although these nucleic acids induced a displacement of part of the HA-DOPE conjugate upon lipoplex formation, as confirmed by capillary electrophoresis. Isothermal titration calorimetry, X-ray diffraction studies, and cryo-TEM microscopy demonstrated that in addition to electrostatic interactions with siRNA a rearrangement of the lipid bilayers takes place, resulting in condensed oligolamellar vesicles. This phenomenon is dependent on the number of siRNA molecules and the degree of modification with HA. Finally, the suitable positioning of HA on the lipoplex surface and its ability to bind specifically to the CD44 receptors in a concentration-dependent manner was demonstrated by surface plasmon resonance analysis.

Published

2015

27. Osteotropic polypeptide nanoparticles with dual hydroxyapatite binding properties and controlled cisplatin delivery.

Author

de Miguel L, Popa I, Noiray M, Caudron E, Arpinati L, Desmaele D, Cebrián-Torrejón G, Doménech-Carbó A, and Ponchel G

Subjects

Antineoplastic Agents pharmacology, Cell Line, Tumor, Cisplatin pharmacology, Humans, Male, Polyglutamic Acid chemistry, Prostate drug effects, Prostate pathology, Prostatic Neoplasms drug therapy, Prostatic Neoplasms pathology, Antineoplastic Agents administration & dosage, Cisplatin administration & dosage, Delayed-Action Preparations chemistry, Durapatite chemistry, Nanoparticles chemistry

Abstract

Purpose: Nanoparticles with prolonged residence time in bone constitute a valuable strategy for bone disease treatments. The aim of this work was to synthesise a simple nanoparticulate system exhibiting both anticancer and hydroxyapatite binding properties for potential bone cancer applications., Methods: The amphiphilic copolymer poly(γ-benzyl-glutamate)-block-poly(glutamic acid) (PBLG-b-PGlu) was synthetised by ring opening polymerization and nanoparticles were obtained by a simple nanoprecipitation method. Nanoparticles were characterized in terms of cisplatin interaction, association, and release as well as interaction with hydroxyapatite and their cytoxicity was studied in three prostate cancer cell lines., Results: PBLG-b-PGlu nanoparticles of ~50 nm in size were successfully prepared. They could display for the first time dual hydroxyapatite binding and anticancer properties mediated by the PGlu moiety. They could complex cisplatin at a drug loading content of 6.2% (w/w). Cisplatin release was triggered by physiological concentrations of chloride ions according to an almost zero order kinetics during 14 days. Simultaneously, these nanoparticles showed in vitro hydroxyapatite binding. Finally, they were shown to exert a cytotoxic effect in three prostate cancer cell lines that potentially metastasize to bone., Conclusions: These properties suggest the potential utility of cisplatin-loaded PBLG-b-PGlu nanoparticles as carrier systems for the treatment of bone metastases.

Published

2015

28. Peptide conjugation: before or after nanoparticle formation?

Author

Valetti S, Mura S, Noiray M, Arpicco S, Dosio F, Vergnaud J, Desmaële D, Stella B, and Couvreur P

Subjects

Amino Acid Sequence, Animals, Cell Line, Tumor, Deoxycytidine analogs & derivatives, Deoxycytidine chemistry, Drug Carriers metabolism, Drug Design, Humans, Ligands, Mice, NIH 3T3 Cells, Nanoparticles metabolism, Particle Size, Proto-Oncogene Proteins metabolism, Gemcitabine, Drug Carriers chemistry, Nanoparticles chemistry, Oligopeptides chemistry

Abstract

We report herein a detailed study concerning the impact of different bioconjugation and nanoformulation strategies on the in vitro targeting ability of peptide-decorated squalenoyl gemcitabine (SQdFdC) nanoparticles (NPs). NPs have been functionalized with the CKAAKN peptide, previously identified as an efficient homing device within the pancreatic pathological microenvironment. Two approaches have been followed: (i) either the CKAAKN peptide was directly conjugated at the surface of preformed SQdFdC nanoparticles (conjugation after NP formation) or (ii) it was first reacted with a maleimide squalenoyl derivative before the resulting bioconjugate was co-nanoprecipitated with SQdFdC to form the peptide-decorated NPs (conjugation before NP formation). NPs were characterized with respect to mean diameter, zeta potential, and stability over time. Then, their specific interaction with the sFRP-4 protein was evaluated by surface plasmon resonance. Although both synthetic strategies allowed us to formulate NPs able to interact with the corresponding receptor, enhanced target binding and better specific avidity were observed with CKAAKN-NPs functionalized before NP formation. These NPs displayed the highest cell uptake and cytotoxicity in an in vitro model of human MIA Paca-2 pancreatic cancer cells.

Published

2014

29. Peptide-functionalized nanoparticles for selective targeting of pancreatic tumor.

Author

Valetti S, Maione F, Mura S, Stella B, Desmaële D, Noiray M, Vergnaud J, Vauthier C, Cattel L, Giraudo E, and Couvreur P

Subjects

Amino Acid Sequence, Animals, Antimetabolites, Antineoplastic therapeutic use, Deoxycytidine administration & dosage, Deoxycytidine therapeutic use, Drug Carriers chemistry, Drug Carriers metabolism, Drug Delivery Systems, Humans, Male, Mice, Inbred C57BL, Nanoparticles metabolism, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Peptides metabolism, Prodrugs therapeutic use, Squalene metabolism, Gemcitabine, Antimetabolites, Antineoplastic administration & dosage, Deoxycytidine analogs & derivatives, Nanoparticles chemistry, Pancreatic Neoplasms drug therapy, Peptides chemistry, Prodrugs administration & dosage, Squalene chemistry

Abstract

Chemotherapy for pancreatic cancer is hampered by the tumor's physio-pathological complexity. Here we show a targeted nanomedicine using a new ligand, the CKAAKN peptide, which had been identified by phage display, as an efficient homing device within the pancreatic pathological microenvironment. Taking advantage of the squalenoylation platform, the CKAAKN peptide was conjugated to squalene (SQCKAAKN) and then co-nanoprecipitated with the squalenoyl prodrug of gemcitabine (SQdFdC) giving near monodisperse nanoparticles (NPs) for safe intravenous injection. By interacting with a novel target pathway, the Wnt-2, the CKAAKN functionalization enabled nanoparticles: (i) to specifically interact with both tumor cells and angiogenic vessels and (ii) to simultaneously promote pericyte coverage, thus leading to the normalization of the vasculature likely improving the tumor accessibility for therapy. All together, this approach represents a unique targeted nanoparticle design with remarkable selectivity towards pancreatic cancer and multiple mechanisms of action., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

30. Poly(γ-benzyl-L-glutamate)-PEG-alendronate multivalent nanoparticles for bone targeting.

Author

de Miguel L, Noiray M, Surpateanu G, Iorga BI, and Ponchel G

Subjects

Bone and Bones, Durapatite chemistry, Models, Molecular, Polyglutamic Acid chemistry, Alendronate chemistry, Bone Density Conservation Agents chemistry, Drug Delivery Systems, Nanoparticles chemistry, Polyethylene Glycols chemistry, Polyglutamic Acid analogs & derivatives

Abstract

Hydroxyapatite (HAP), a highly specific component of bone tissue, is the main target in order to impart osteotropicity. Bone targeted nanoparticles can increase the strength of the interaction with HAP through multivalency and thus constitute a valuable strategy in the therapeutics of skeletal diseases. PBLG10k-b-PEG6k-alendronate nanoparticles (~ 75 nm) were prepared by a simple nanoprecipitation method. The calcium affinity (KCa(+2)=1.8 × 10(4)M(-1)) of these nanoparticles was evaluated using isothermal titration calorimetry. The multivalent interaction with HAP surfaces (KHAP) was studied by fluorescence and was estimated to be 1.1 × 10(10)M(-1), which is more than 4000 times stronger than the reported monovalent interaction between alendronate and HAP surfaces. Molecular modeling suggests that the number of binding sites available at the HAP surface is in large excess than what is required for the whole surface coverage by alendronate decorated nanoparticles. The lower calcium affinity of these nanoparticles than for HAP allows calcium bound nanoparticles to interact with HAP, which yields a deeper understanding of bone targeted carriers and could potentially improve their bone targeting properties., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2014

31. In vitro selection of modified RNA aptamers against CD44 cancer stem cell marker.

Author

Ababneh N, Alshaer W, Allozi O, Mahafzah A, El-Khateeb M, Hillaireau H, Noiray M, Fattal E, and Ismail S

Subjects

Aptamers, Nucleotide chemistry, Base Sequence, Biomarkers, Tumor genetics, Cell Line, Tumor, Flow Cytometry, Fluorescein-5-isothiocyanate chemistry, Fluorescent Dyes chemistry, Humans, Hyaluronan Receptors genetics, Microscopy, Fluorescence, Molecular Sequence Data, Protein Binding, RNA Stability, SELEX Aptamer Technique, Staining and Labeling, Aptamers, Nucleotide genetics, Biomarkers, Tumor metabolism, Hyaluronan Receptors metabolism, Neoplastic Stem Cells metabolism

Abstract

Cancer stem cells (CSCs) are a subset of tumor cells that has the ability to self-renew and to generate the diverse cells that comprise the tumor mass. The cell-surface glycoprotein CD44 is one of the most common surface markers used to identify CSCs. Aptamers are synthetic oligonucleotides selected from pools of random sequences that can bind to a wide range of targets with high affinity and specificity. In this study, the systematic evolution of ligands by exponential enrichment (SELEX) technology was used to isolate RNA aptamers using human recombinant full-length CD44 protein and 2'-F-pyrimidine modified RNA library with a complexity of around 10(14) different molecules. Following 11 iterative rounds of SELEX, the selected aptamers were cloned and sequenced. Three different sequences were identified. The binding specificities for one of these RNA aptamers was assessed using representative breast cancer cell lines expressing CD44; namely, MDA-MB-231, MCF7, and T47D. The selected RNA aptamer (Apt1) was found to interact specifically with such cancer cells when analyzed by flow cytometry and fluorescent microscopy, with different intensities of fluorescence reflecting the level of CD44 expression on the surface of these cells. It can be concluded that the selected aptamers can be used to target CD44 positive cells, including cancer stem cells, for detection, sorting, and enrichment and for drug delivery purposes.

Published

2013