Your search keyword '"Lacroix, Céline"' showing total 18 results

1. Polylactide-Based Reactive Micelles as a Robust Platform for mRNA Delivery.

Author

Lacroix, Céline, Humanes, Almudena, Coiffier, Céline, Gigmes, Didier, Verrier, Bernard, and Trimaille, Thomas

Subjects

MESSENGER RNA, MICELLES, SURFACE charges, DENDRITIC cells, GENE transfection

Abstract

Purpose: mRNA has recently emerged as a potent therapeutics and requires safe and effective delivery carriers, particularly prone to address its issues of poor stability and escape from endosomes. In this context, we designed poly(D,L-lactide) (PLA)-based micelles with N-succinimidyl (NS) ester decorated hydrophilic hairy corona to trap/couple a cationic fusogenic peptide and further complex mRNA. Methods: Two strategies were investigated, namely (i) sequential immobilization of peptide and mRNA onto the micelles (layer-by-layer, LbL) or (ii) direct immobilization of peptide-mRNA pre-complex (PC) on the micelles. After characterization by means of size, surface charge, peptide/mRNA coupling/complexation and mRNA serum stability, carrier cytotoxicity and transfection capacity were evaluated with dendritic cells (DCs) using both GFP and luciferase mRNAs. Results: Whatever the approach used, the micellar assemblies afforded full protection of mRNA in serum while the peptide-mRNA complex yielded complete mRNA degradation. In addition, the micellar assemblies allowed to significantly reduce the toxicity observed with the peptide-mRNA complex. They successfully transfected hard-to transfect DCs, with a superior efficiency for the LbL made ones (whatever mRNAs studied) showing the impact of the elaboration process on the carrier properties. Conclusions: These results show the relevance and potential of this new PLA/peptide based micelle platform to improve mRNA stability and delivery, while offering the possibility of further multifunctionality through PLA core encapsulation. [ABSTRACT FROM AUTHOR]

Published

2020

2. Identification and Analysis of Antiviral Compounds Against Poliovirus.

Author

Leyssen, Pieter, Franco, David, Tijsma, Aloys, Lacroix, Céline, De Palma, Armando, and Neyts, Johan

Published

2016

3. Toward antiviral therapy/prophylaxis for rhinovirus-induced exacerbations of chronic obstructive pulmonary disease: challenges, opportunities, and strategies.

Author

Thibaut, Hendrik Jan, Lacroix, Céline, De Palma, Armando M., Franco, David, Decramer, Mark, and Neyts, Johan

Abstract

Chronic obstructive pulmonary disease (COPD) is a life-threatening lung illness characterized by persistent and progressive airflow limitation. Exacerbations of COPD contribute to the severity of this pathology and accelerate disease progression. To date, pharmacological treatment of both stable COPD patients and patients experiencing exacerbations is mainly symptomatic with bronchodilators and steroids as the mainstay of therapy. Bacteria trigger such exacerbations in a number of cases; hence, antibiotics might be included in the treatment as well. Several respiratory viruses are frequently detected in sputum from patients during COPD exacerbations. These include influenza viruses, respiratory syncytial virus, and, most often, rhinoviruses. In this review, we discuss the potential use of an anti-rhinovirus drug for the treatment and prophylaxis of rhinovirus-induced COPD exacerbations and the path forward toward the development and use of such a drug. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

4. In vitro characterisation of a pleconaril/pirodavir-like compound with potent activity against rhinoviruses.

Author

Lacroix, Céline, Laconi, Samuela, Angius, Fabrizio, Coluccia, Antonio, Silvestri, Romano, Pompei, Raffaello, Neyts, Johan, and Leyssen, Pieter

Subjects

ENTEROVIRUS diseases, PICORNAVIRUSES, COMMON cold treatments, CAPSIDS, DISEASE exacerbation, THERAPEUTICS

Abstract

Background: Rhinovirus infections do not only cause common colds, but may also trigger severe exacerbations of asthma and chronic obstructive pulmonary disease (COPD). Even though rhinoviruses have been the focus of extensive drug development efforts in the past, an anti-rhinoviral drug still has to make it to the market. In the past, the viral capsid protein VP1 has been shown to be an important target for the development of antiviral molecules. Furthermore, many different chemical scaffolds appear to possess the properties that are required to inhibit virus replication by this mechanism of action. I-6602, an analogue of the rhinovirus inhibitor pirodavir, was previously identified as a potent inhibitor of rhinovirus infection. Here, we describe the antiviral activity of its analogue ca603, a molecule with a modified linker structure, and corroborate its mechanism of action as a capsid binder. Findings: The molecule ca603 shows antiviral activity against a panel of rhino-and enteroviruses. Cross-resistance is observed against viruses with mutations that render them resistant to the inhibitory effect of the capsid binder pleconaril and thermostability assays demonstrate that the compound binds and stabilizes the viral capsid. Binding of the molecule to the VP1 protein is corroborated by in silico modeling. Conclusions: It is confirmed that ca603 inhibits rhinovirus replication by interaction with the VP1 protein and, by this, allows to further expand the chemical diversity of capsid-binding molecules. [ABSTRACT FROM AUTHOR]

Published

2015

5. The RNA Template Channel of the RNA-Dependent RNA Polymerase as a Target for Development of Antiviral Therapy of Multiple Genera within a Virus Family.

Author

van der Linden, Lonneke, Vives-Adrián, Laia, Selisko, Barbara, Ferrer-Orta, Cristina, Liu, Xinran, Lanke, Kjerstin, Ulferts, Rachel, De Palma, Armando M., Tanchis, Federica, Goris, Nesya, Lefebvre, David, De Clercq, Kris, Leyssen, Pieter, Lacroix, Céline, Pürstinger, Gerhard, Coutard, Bruno, Canard, Bruno, Boehr, David D., Arnold, Jamie J., and Cameron, Craig E.

Subjects

PICORNAVIRUSES, RNA replicase, ANTIVIRAL agents, MESSENGER RNA, NUCLEOSIDES, COXSACKIEVIRUSES, DRUG resistance in microorganisms

Abstract

The genus Enterovirus of the family Picornaviridae contains many important human pathogens (e.g., poliovirus, coxsackievirus, rhinovirus, and enterovirus 71) for which no antiviral drugs are available. The viral RNA-dependent RNA polymerase is an attractive target for antiviral therapy. Nucleoside-based inhibitors have broad-spectrum activity but often exhibit off-target effects. Most non-nucleoside inhibitors (NNIs) target surface cavities, which are structurally more flexible than the nucleotide-binding pocket, and hence have a more narrow spectrum of activity and are more prone to resistance development. Here, we report a novel NNI, GPC-N114 (2,2'-[(4-chloro-1,2-phenylene)bis(oxy)]bis(5-nitro-benzonitrile)) with broad-spectrum activity against enteroviruses and cardioviruses (another genus in the picornavirus family). Surprisingly, coxsackievirus B3 (CVB3) and poliovirus displayed a high genetic barrier to resistance against GPC-N114. By contrast, EMCV, a cardiovirus, rapidly acquired resistance due to mutations in 3Dpol. In vitro polymerase activity assays showed that GPC-N114 i) inhibited the elongation activity of recombinant CVB3 and EMCV 3Dpol, (ii) had reduced activity against EMCV 3Dpol with the resistance mutations, and (iii) was most efficient in inhibiting 3Dpol when added before the RNA template-primer duplex. Elucidation of a crystal structure of the inhibitor bound to CVB3 3Dpol confirmed the RNA-binding channel as the target for GPC-N114. Docking studies of the compound into the crystal structures of the compound-resistant EMCV 3Dpol mutants suggested that the resistant phenotype is due to subtle changes that interfere with the binding of GPC-N114 but not of the RNA template-primer. In conclusion, this study presents the first NNI that targets the RNA template channel of the picornavirus polymerase and identifies a new pocket that can be used for the design of broad-spectrum inhibitors. Moreover, this study provides important new insight into the plasticity of picornavirus polymerases at the template binding site. [ABSTRACT FROM AUTHOR]

Published

2015

6. ZIPCO, a putative metal ion transporter, is crucial for Plasmodium liver-stage development.

Author

Sahu, Tejram, Boisson, Bertrand, Lacroix, Céline, Bischoff, Emmanuel, Richier, Quentin, Formaglio, Pauline, Thiberge, Sabine, Dobrescu, Irina, Ménard, Robert, and Baldacci, Patricia

Abstract

The malaria parasite, Plasmodium, requires iron for growth, but how it imports iron remains unknown. We characterize here a protein that belongs to the ZIP (Zrt-, Irt-like Protein) family of metal ion transport proteins and have named ZIP domain-containing protein ( ZIPCO). Inactivation of the ZIPCO-encoding gene in Plasmodium berghei, while not affecting the parasite's ability to multiply in mouse blood and to infect mosquitoes, greatly impairs its capacity to develop inside hepatocytes. Iron/zinc supplementation and depletion experiments suggest that ZIPCO is required for parasite utilization of iron and possibly zinc, consistent with its predicted function as a metal transporter. This is the first report of a ZIP protein having a crucial role in Plasmodium liver-stage development, as well as the first metal ion transporter identified in Plasmodium pre-erythrocytic stages. Because of the drastic dependence on iron of Plasmodium growth, ZIPCO and related proteins might constitute attractive drug targets to fight against malaria. [ABSTRACT FROM AUTHOR]

Published

2014

7. A novel benzonitrile analogue inhibits rhinovirus replication.

Author

Lacroix, Céline, Querol-Audí, Jordi, Roche, Manon, Franco, David, Froeyen, Mathy, Guerra, Pablo, Terme, Thierry, Vanelle, Patrice, Verdaguer, Núria, Neyts, Johan, and Leyssen, Pieter

Published

2014

8. A novel benzonitrile analogue inhibits rhinovirus replication.

Author

Lacroix, Céline, Querol-Audí, Jordi, Roche, Manon, Franco, David, Froeyen, Mathy, Guerra, Pablo, Terme, Thierry, Vanelle, Patrice, Verdaguer, Núria, Neyts, Johan, and Leyssen, Pieter

Subjects

BENZONITRILE, COMMON cold treatments, ANTIVIRAL agents, BIOCHEMICAL mechanism of action, VIRAL replication

Abstract

Objectives To study the characteristics and the mode of action of the anti-rhinovirus compound 4-[1-hydroxy-2-(4,5-dimethoxy-2-nitrophenyl)ethyl]benzonitrile (LPCRW_0005). Methods The antiviral activity of LPCRW_0005 was evaluated in a cytopathic effect reduction assay against a panel of human rhinovirus (HRV) strains. To unravel its precise molecular mechanism of action, a time-of-drug-addition study, resistance selection and thermostability assays were performed. The crystal structure of the HRV14/LPCRW_0005 complex was elucidated as well. Results LPCRW_0005 proved to be a selective inhibitor of the replication of HRV14 (EC50 of 2 ± 1 μM). Time-of-drug-addition studies revealed that LPCRW_0005 interferes with the earliest stages of virus replication. Phenotypic drug-resistant virus variants were obtained (≥30-fold decrease in susceptibility to the inhibitory effect of LPCRW_0005), which carried either an A150T or A150V amino acid substitution in the VP1 capsid protein. The link between the mutant genotype and drug-resistant phenotype was confirmed by reverse genetics. Cross-resistance studies and thermostability assays revealed that LPCRW_0005 has a similar mechanism of action to the capsid binder pleconaril. Elucidation of the crystal structure of the HRV14/LPCRW_0005 complex revealed the existence of multiple hydrophobic and polar interactions between the VP1 pocket and LPCRW_0005. Conclusions LPCRW_0005 is a novel inhibitor of HRV14 replication that acts as a capsid binder. The compound has a chemical structure that is markedly smaller than that of other capsid binders. Structural studies show that LPCRW_0005, in contrast to pleconaril, leaves the toe end of the pocket in VP1 empty. This suggests that extended analogues of LPCRW_0005 that fill the full cavity could be more potent inhibitors of rhinovirus replication. [ABSTRACT FROM PUBLISHER]

Published

2014

9. A Cysteine Protease Inhibitor of Plasmodium berghei Is Essential for Exo-erythrocytic Development.

Author

Lehmann, Christine, Heitmann, Anna, Mishra, Satish, Burda, Paul-Christian, Singer, Mirko, Prado, Monica, Niklaus, Livia, Lacroix, Céline, Ménard, Robert, Frischknecht, Friedrich, Stanway, Rebecca, Sinnis, Photini, and Heussler, Volker

Subjects

PLASMODIUM berghei, CYSTEINE proteinases, SPOROZOITES, LIVER cells, PARASITES

Abstract

Plasmodium parasites express a potent inhibitor of cysteine proteases (ICP) throughout their life cycle. To analyze the role of ICP in different life cycle stages, we generated a stage-specific knockout of the Plasmodium berghei ICP (PbICP). Excision of the pbicb gene occurred in infective sporozoites and resulted in impaired sporozoite invasion of hepatocytes, despite residual PbICP protein being detectable in sporozoites. The vast majority of these parasites invading a cultured hepatocyte cell line did not develop to mature liver stages, but the few that successfully developed hepatic merozoites were able to initiate a blood stage infection in mice. These blood stage parasites, now completely lacking PbICP, exhibited an attenuated phenotype but were able to infect mosquitoes and develop to the oocyst stage. However, PbICP-negative sporozoites liberated from oocysts exhibited defective motility and invaded mosquito salivary glands in low numbers. They were also unable to invade hepatocytes, confirming that control of cysteine protease activity is of critical importance for sporozoites. Importantly, transfection of PbICP-knockout parasites with a pbicp-gfp construct fully reversed these defects. Taken together, in P. berghei this inhibitor of the ICP family is essential for sporozoite motility but also appears to play a role during parasite development in hepatocytes and erythrocytes. [ABSTRACT FROM AUTHOR]

Published

2014

10. Three monoclonal antibodies against the serpin protease nexin-1 prevent protease translocation.

Author

Kousted, Tina M., Skjoedt, Karsten, Petersen, Steen V., Koch, Claus, Vitved, Lars, Sochalska, Maja, Lacroix, Céline, Andersen, Lisbeth M., Wind, Troels, Andreasen, Peter A., and Jensen, Jan K.

Published

2014

11. PbGEST mediates malaria transmission to both mosquito and vertebrate host.

Author

Talman, Arthur M., Lacroix, Céline, Marques, Sara R., Blagborough, Andrew M., Carzaniga, Raffaella, Ménard, Robert, and Sinden, Robert E.

Subjects

MALARIA transmission, PARASITES, MOSQUITOES, PROTEINS, GAMETES, ERYTHROCYTES

Abstract

Summary The malaria life cycle relies on the successful transfer of the parasite between its human and mosquito hosts. We identified a Plasmodium berghei secreted protein (PBANKA_131270) that plays distinct roles in both the mammal-to-mosquito and the mosquito-to-mammal transitions. This protein, here named gamete egress and sporozoite traversal (GEST), plays an important role in the egress of male and female gametes from the vertebrate red blood cell. Interestingly, GEST is also required following the bite of the infected mosquito, for sporozoite progression through the skin. We found PbGEST to be secreted shortly after activation of the intraerythrocytic gametocyte, and during sporozoite migration. These findings indicate that a single malaria protein may have pleiotropic roles in different parasites stages mediating transmission between its insect and mammalian hosts. [ABSTRACT FROM AUTHOR]

Published

2011

12. The novel putative transporter NPT1 plays a critical role in early stages of Plasmodium berghei sexual development.

Author

Boisson, Bertrand, Lacroix, Céline, Bischoff, Emmanuel, Gueirard, Pascale, Bargieri, Daniel Y., Franke-Fayard, Blandine, Janse, Chris J., Ménard, Robert, and Baldacci, Patricia

Subjects

PLASMODIUM, MOSQUITO vectors, PROTOZOAN diseases, GERM cells, GAMETES

Abstract

Summary Transmission of Plasmodium species from a mammalian host to the mosquito vector requires the uptake, during an infected blood meal, of gametocytes, the precursor cells of the gametes. Relatively little is known about the molecular mechanisms involved in the developmental switch from asexual development to sexual differentiation or the maturation and survival of gametocytes. Here, we show that a gene coding for a novel putative transporter, NPT1, plays a crucial role in the development of Plasmodium berghei gametocytes. Parasites lacking NPT1 are severely compromised in the production of gametocytes and the rare gametocytes produced are unable to differentiate into fertile gametes. This is the earliest block in gametocytogenesis obtained by reverse genetics and the first to demonstrate the role of a protein with a putative transport function in sexual development. These results and the high degree of conservation of NPT1 in Plasmodium species suggest that this protein could be an attractive target for the development of novel drugs to block the spread of malaria. [ABSTRACT FROM AUTHOR]

Published

2011

13. Discours en série. Les relectures des publics de séries policières rediffusées sur les sites web des chaînes télévisées : de l'adaptation à l'autonomie.

Author

LACROIX, Céline MASONI

Subjects

STREAMING video & television, WEBSITES, CULTURAL industries, TELEVISION broadcasting

Abstract

Copyright of ESSACHESS is the property of ESSACHESS and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

14. LISP1 is important for the egress of Plasmodium berghei parasites from liver cells.

Author

Ishino, Tomoko, Boisson, Bertrand, Orito, Yuki, Lacroix, Céline, Bischoff, Emmanuel, Loussert, Céline, Janse, Chris, Ménard, Robert, Yuda, Masao, and Baldacci, Patricia

Subjects

PLASMODIUM, INTRACELLULAR pathogens, PROTOZOAN diseases, BILIARY tract, LIVER cells

Abstract

Most Apicomplexa are obligatory intracellular parasites that multiply inside a so-called parasitophorous vacuole (PV) formed upon parasite entry into the host cell. Plasmodium, the agent of malaria and the Apicomplexa most deadly to humans, multiplies in both hepatocytes and erythrocytes in the mammalian host. Although much has been learned on how Apicomplexa parasites invade host cells inside a PV, little is known of how they rupture the PV membrane and egress host cells. Here, we characterize a Plasmodium protein, called LISP1 ( ver- pecific rotein 1), which is specifically involved in parasite egress from hepatocytes. LISP1 is expressed late during parasite development inside hepatocytes and locates at the PV membrane. Intracellular parasites deficient in LISP1 develop into hepatic merozoites, which display normal infectivity to erythrocytes. However, LISP1-deficient liver-stage parasites do not rupture the membrane of the PV and remain trapped inside hepatocytes. LISP1 is the first Plasmodium protein shown by gene targeting to be involved in the lysis of the PV membrane. [ABSTRACT FROM AUTHOR]

Published

2009

15. A Polylactide-Based Micellar Adjuvant Improves the Intensity and Quality of Immune Response.

Author

Lamrayah, Myriam, Phelip, Capucine, Coiffier, Céline, Lacroix, Céline, Willemin, Thibaut, Trimaille, Thomas, and Verrier, Bernard

Subjects

IMMUNE response, HUMORAL immunity, HELA cells, DENDRITIC cells, BLOCK copolymers, MICELLES

Abstract

Micelles from amphiphilic polylactide-block-poly(N-acryloxysuccinimide-co-N-vinylpyrrolidone) (PLA-b-P(NAS-co-NVP)) block copolymers of 105 nm in size were characterized and evaluated in a vaccine context. The micelles were non-toxic in vitro (both in dendritic cells and HeLa cells). In vitro fluorescence experiments combined with in vivo fluorescence tomography imaging, through micelle loading with the DiR near infrared probe, suggested an efficient uptake of the micelles by the immune cells. The antigenic protein p24 of the HIV-1 was successfully coupled on the micelles using the reactive N-succinimidyl ester groups on the micelle corona, as shown by SDS-PAGE analyses. The antigenicity of the coupled antigen was preserved and even improved, as assessed by the immuno-enzymatic (ELISA) test. Then, the performances of the micelles in immunization were investigated and compared to different p24-coated PLA nanoparticles, as well as Alum and MF59 gold standards, following a standardized HIV-1 immunization protocol in mice. The humoral response intensity (IgG titers) was substantially similar between the PLA micelles and all other adjuvants over an extended time range (one year). More interestingly, this immune response induced by PLA micelles was qualitatively higher than the gold standards and PLA nanoparticles analogs, expressed through an increasing avidity index over time (>60% at day 365). Taken together, these results demonstrate the potential of such small-sized micellar systems for vaccine delivery. [ABSTRACT FROM AUTHOR]

Published

2022

16. Transcriptomic analysis of the exit from dormancy of Aspergillus fumigatus conidia.

Author

Lamarre, Claude, Sokol, Sergueï, Debeaupuis, Jean-Paul, Henry, Christine, Lacroix, Céline, Glaser, Philippe, Coppée, Jean-Yves, François, Jean-Marie, and Latgé, Jean-Paul

Subjects

GENETIC transcription, DORMANCY of plant spores, CONIDIA, ASPERGILLUS fumigatus, FUNGAL lung diseases, MESSENGER RNA

Abstract

Background: Establishment of aspergillosis is depending upon the exit from dormancy and germination of the conidia of Aspergillus fumigatus in the lung. To gain an understanding of the molecular mechanisms underlying the early steps of conidial germination, we undertook a transcriptomic analysis using macroarrays constructed with PCR fragments from > 3,000 genes (around one third of the annotated A. fumigatus genome). Results: Major results of this analysis are the following: (i) conidia stored pre-packaged mRNAs transcripts (27% of genes have transcripts in the resting conidia; (ii) incubation at 37°C in a nutritive medium induced up- and down-regulation of genes: 19% of the total number of genes deposited on the array were up-regulated whereas 22% of the genes with pre-packaged mRNA in the resting conidia were down-regulated; (iii) most modifications were seen during the first 30 min of germination whereas very little modification of gene expression occurred during the following hour; (iv) one-year old conidia and one-week old conidia behaved similarly at transcriptional level. Conclusion: Transcriptomic data indicate that the exit from dormancy is associated with a shift from a fermentative metabolism to a respiratory metabolism as well as a trend toward immediate protein synthesis. [ABSTRACT FROM AUTHOR]

Published

2008

17. Genome plasticity of BCG and impact on vaccine efficacy.

Author

Brosch, Roland, Gordon, Stephen V., Garnier, Thierry, Eiglmeier, Karin, Frigui, Wafa, Valenti, Philippe, Dos Santos, Sandrine, Duthoy, Stéphanie, Lacroix, Céline, Garcia-Pelayo, Carmen, Inwald, Jacqueline K., Golby, Paul, Garcia, Javier Nuñez, Hewinson, R. Glyn, Behr, Marcel A., Quail, Michael A., Churcher, Carol, Barrell, Bart G., Parkhiill, Julian, and Cole, Stewart T.

Subjects

BCG vaccines, MYCOBACTERIUM bovis, HUMAN genome, GENE amplification, PREVENTIVE medicine

Abstract

To understand the evolution, attenuation, and variable protective efficacy of bacillus Calmette-Guérin (BCG) vaccines, Mycobacterium bovis BCG Pasteur 1173P2 has been subjected to comparative genome and transcriptome analysis. The 4,374,522-bp genome contains 3,954 protein-coding genes, 58 of which are present in two copies as a result of two independent tandem duplications, DU1 and DU2. DU 1 is restricted to BCG Pasteur, although four forms of DU2 exist; DU2-1 is confined to early BCG vaccines, like BCG Japan, whereas DU2-III and DU2-IV occur in the late vaccines. The glycerol-3-phosphate dehydrogenase gene, gIpD2, is one of only three genes common to all four DU2 variants, implying that BCG requires higher levels of this enzyme to grow on glycerol. Further amplification of the DU2 region is ongoing, even within vaccine preparations used to immunize humans. An evolutionary scheme for BCG vaccines was established by analyzing DU2 and other markers. Lesions in genes encoding σ-factors and pleiotropic transcriptional regulators, like PhoR and Crp, were also uncovered in various BCG strains; together with gene amplification, these affect gene expression levels, immunogenicity, and, possibly, protection against tuberculosis. Furthermore, the combined findings suggest that early BCG vaccines may even be superior to the later ones that are more widely used. [ABSTRACT FROM AUTHOR]

Published

2007

18. A Sacrificial PLA Block Mediated Route to Injectable and Degradable PNIPAAm-Based Hydrogels.

Author

Tebong Mbah, Vernon, Pertici, Vincent, Lacroix, Céline, Verrier, Bernard, Stipa, Pierluigi, Gigmes, Didier, and Trimaille, Thomas

Subjects

THERMORESPONSIVE polymers, HYDROGELS, MATERIALS, AQUEOUS solutions, RING-opening polymerization, BLOCK copolymers, DENDRITIC cells

Abstract

Thermoresponsive poly(N-isopropylacrylamide) (PNIPAAm)-based injectable hydrogels represent highly attractive materials in tissue engineering and drug/vaccine delivery but face the problem of long-term bioaccumulation due to non-degradability. In this context, we developed an amphiphilic poly(D,L-lactide)-b-poly(NIPAAm-co-polyethylene glycol methacrylate) (PLA-b-P(NIPAAm-co-PEGMA)) copolymer architecture, through a combination of ring-opening and nitroxide-mediated polymerizations, undergoing gelation in aqueous solution near 30 °C. Complete hydrogel mass loss was observed under physiological conditions after few days upon PLA hydrolysis. This was due to the inability of the resulting P(NIPAAm-co-PEGMA) segment, that contains sufficiently high PEG content, to gel. The copolymer was shown to be non-toxic on dendritic cells. These results thus provide a new way to engineer safe PNIPAAm-based injectable hydrogels with PNIPAAm-reduced content and a degradable feature. [ABSTRACT FROM AUTHOR]

Published

2020