Your search keyword '"Pitard B"' showing total 92 results

1. Zika virus T-cell based 704/DNA vaccine promotes protection from Zika virus infection in the absence of neutralizing antibodies.

Author

Roth C, Pitard B, Levillayer L, Lay S, Vo HTM, Cantaert T, and Sakuntabhai A

Subjects

Animals, Mice, Epitopes, T-Lymphocyte immunology, Dengue prevention & control, Dengue immunology, Female, Humans, Mice, Inbred C57BL, Zika Virus Infection prevention & control, Zika Virus Infection immunology, Vaccines, DNA immunology, Vaccines, DNA administration & dosage, Zika Virus immunology, Zika Virus genetics, Antibodies, Neutralizing immunology, Antibodies, Neutralizing blood, Antibodies, Viral immunology, Antibodies, Viral blood, T-Lymphocytes immunology, Viral Vaccines immunology, Viral Vaccines administration & dosage, Mice, Transgenic, Dengue Virus immunology, Dengue Virus genetics

Abstract

Zika virus (ZIKV) and dengue virus (DENV) are closely related flaviviruses co-circulating in the same endemic areas. Infection can raise cross-reactive antibodies that can be either protective or increase risk of severe disease, depending on the infection sequence, DENV serotype and elapsed time between infection. On the contrast, T cell-mediated immunity against DENV and ZIKV is considered protective. Therefore, we have developed a T cell vaccine enriched in immunodominant T cell epitopes derived from ZIKV and evaluated its immunogenicity and efficacy against ZIKV and DENV infection. Mice were vaccinated using DNA vaccine platform using the tetrafunctional amphiphilic block copolymer 704. We show that vaccination of 2 different HLA class I transgenic mice with the ZIKV non-structural (NS) poly-epitope elicits T cell response against numerous ZIKV epitopes. Moreover, vaccination induces a significant protection against ZIKV infection, in the absence of neutralizing or enhancing antibodies against ZIKV. However, vaccination does not induce a significant protection against DENV2. In contrast, immunization with a DENV1-NS poly-epitope induces a significant protection against both DENV1 and DENV2, in the absence of humoral immunity. Taken together, we have shown that T-cell based vaccination could protect against multiple flavivirus infections and could overcome the complexity of antibody-mediated enhancement., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: C.R. and A.S. are inventors of a patent filing (patent EP 17 306553.3, filed on November 9, 2017) related to this work. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. B.P. owns stocks in In-Cell-Art, which commercializes tetrafunctional amphiphilic block copolymers., (Copyright: © 2024 Roth et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

2. [« ReNAissance » of biotherapies with RNA].

Author

Pitard B and Pitard I

Subjects

Humans, Genetic Therapy methods, Genetic Therapy trends, Animals, Biological Therapy methods, Biological Therapy trends, RNA genetics, RNA, Messenger genetics

Abstract

Many diseases originate from either the absence or defective expression of a given protein. For some of them, the lacking protein is secreted or can be taken up by cells when delivered exogenously. In such cases, therapies initially involved administering the physiological protein extracted from human tissues. Subsequently, genetic engineering enabled the production of proteins through cell fermentation after introducing the corresponding gene. For many other pathologies, the deficient protein cannot be delivered exogenously. Thus, an endogenous production of the therapeutic protein by the cells themselves is necessary. Messenger RNA (mRNA) technology, like its predecessor DNA, aims to supplement the genetic information needed to produce the therapeutic protein within the cells. However, unlike DNA-based therapies, mRNA transfer allows for transient expression of the protein of interest, which offers an advantage in numerous pathologies. Nonetheless, mastering the quantity, quality, and spatio-temporal regulation of protein production encoded by therapeutic mRNA remains a significant challenge for the development of this approach., (© 2024 médecine/sciences – Inserm.)

Published

2024

3. 704/DNA vaccines leverage cytoplasmic DNA stimulation to promote anti-HIV neutralizing antibody production in mice and strong immune response against alpha-fetoprotein in non-human primates.

Author

Colombani T, Haudebourg T, and Pitard B

Abstract

Genetic immunization is an attractive approach for prophylactic and therapeutic vaccination using synthetic vectors to deliver antigen-encoding nucleic acids. Recently, DNA delivered by a physical means or RNA by liposomes consisting of four different lipids demonstrated good protection in human phase III clinical trials and received Drugs Controller General of India and US FDA approval to protect against COVID-19, respectively. However, the development of a system allowing for efficient and simple delivery of nucleic acids while improving immune response priming has the potential to unleash the full therapeutic potential of genetic immunization. DNA-based gene therapies and vaccines have the potential for rapid development, as exemplified by the recent approval of Collategene, a gene therapy to treat human critical limb ischemia, and ZyCoV, a DNA vaccine delivered by spring-powered jet injector to protect against SARS-CoV2 infection. Recently, we reported amphiphilic block copolymer 704 as a promising synthetic vector for DNA vaccination in various models of human diseases. This vector allows dose sparing of antigen-encoding plasmid DNA. Here, we report the capacity of 704-mediated HIV and anti-hepatocellular carcinoma DNA vaccines to induce the production of specific antibodies against gp120 HIV envelope proteins in mice and against alpha-fetoprotein antigen in non-human primates, respectively. An investigation of the underlying mechanisms showed that 704-mediated vaccination did trigger a strong immune response by (1) allowing a direct DNA delivery into the cytosol, (2) promoting an intracytoplasmic DNA sensing leading to both interferon and NF-κB cascade stimulation, and (3) inducing antigen expression by muscle cells and presentation by antigen-presenting cells, leading to the induction of a robust adaptive response. Overall, our findings suggest that the 704-mediated DNA vaccination platform is an attractive method to develop both prophylactic and therapeutic vaccines., Competing Interests: B.P. owns stock in In-Cell-Art, which commercializes tertafunctional amphiphilic block copolymers and is an inventor on several patents ans patent applications related to use of block copolymers for DNA and RNA delivery., (© 2023 The Authors.)

Published

2023

4. Tocilizumab-treated convalescent COVID-19 patients retain the cross-neutralization potential against SARS-CoV-2 variants.

Author

Chauvin C, Levillayer L, Roumier M, Nielly H, Roth C, Karnam A, Bonam SR, Bourgarit A, Dubost C, Bousquet A, Le Burel S, Mestiri R, Sene D, Galland J, Vasse M, Groh M, Le Marchand M, Vassord-Dang C, Gautier JF, Pham-Thi N, Verny C, Pitard B, Planchais C, Mouquet H, Paul R, Simon-Loriere E, Bayry J, Gilardin L, and Sakuntabhai A

Abstract

Although tocilizumab treatment in severe and critical coronavirus disease 2019 (COVID-19) patients has proven its efficacy at the clinical level, there is little evidence supporting the effect of short-term use of interleukin-6 receptor blocking therapy on the B cell sub-populations and the cross-neutralization of SARS-CoV-2 variants in convalescent COVID-19 patients. We performed immunological profiling of 69 tocilizumab-treated and non-treated convalescent COVID-19 patients in total. We observed that SARS-CoV-2-specific IgG1 titers depended on disease severity but not on tocilizumab treatment. The plasma of both treated and non-treated patients infected with the ancestral variant exhibit strong neutralizing activity against the ancestral virus and the Alpha, Beta, and Delta variants of SARS-CoV-2, whereas the Gamma and Omicron viruses were less sensitive to seroneutralization. Overall, we observed that, despite the clinical benefits of short-term tocilizumab therapy in modifying the cytokine storm associated with COVID-19 infections, there were no modifications in the robustness of B cell and IgG responses to Spike antigens., Competing Interests: The authors declare no competing interests., (© 2023 The Authors.)

Published

2023

5. Respiratory mucosal vaccination of peptide-poloxamine-DNA nanoparticles provides complete protection against lethal SARS-CoV-2 challenge.

Author

Sun S, Li E, Zhao G, Tang J, Zuo Q, Cai L, Xu C, Sui C, Ou Y, Liu C, Li H, Ding Y, Li C, Lu D, Zhang W, Luo P, Cheng P, Gao Y, Tu C, Pitard B, Rosenecker J, Wang B, Liu Y, Zou Q, and Guan S

Subjects

Mice, Animals, SARS-CoV-2, Antibodies, Viral, Vaccination, Peptides, DNA, Antibodies, Neutralizing, Vaccines, DNA, COVID-19 prevention & control, Nanoparticles

Abstract

The ongoing SARS-CoV-2 pandemic represents a brutal reminder of the continual threat of mucosal infectious diseases. Mucosal immunity may provide robust protection at the predominant sites of SARS-CoV-2 infection. However, it remains unclear whether respiratory mucosal administration of DNA vaccines could confer protective immune responses against SARS-CoV-2 challenge due to insurmountable barriers posed by the airway. Here, we applied self-assembled peptide-poloxamine nanoparticles with mucus-penetrating properties for pulmonary inoculation of a COVID-19 DNA vaccine (pSpike/PP-sNp). The pSpike/PP-sNp not only displays superior gene transfection and favorable biocompatibility in the mouse airway, but also promotes a tripartite immunity consisting of systemic, cellular, and mucosal immune responses that are characterized by mucosal IgA secretion, high levels of neutralizing antibodies, and resident memory phenotype T-cell responses in the lungs of mice. Most importantly, immunization with pSpike/PP-sNp completely eliminates SARS-CoV-2 infection in both upper and lower respiratory tracts and enables 100% survival rate of mice following lethal SARS-CoV-2 challenge. Our findings indicate PP-sNp is a promising platform in mediating DNA vaccines to elicit all-around mucosal immunity against SARS-CoV-2., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Gan Zhao, Cheng Su, Yuan Ding, Bin Wang reports a relationship with Advaccine (Suzhou) Biopharmaceuticals Co., Ltd that includes: board membership and employment. Bruno Pitard reports a relationship with In-Cell-Art that includes: board membership. Shan Guan, Si Sun, Quanming Zou, Chao Li has patent pending to Third Military Medical University. S.G., S.S., Q.Z. and C.L. have applied for patents related to this study. B.W. is a scientific co-founder of the biotechnology company Advaccine Biopharmaceuticals (Suzhou, China), which focuses on the development of DNA vaccines. G.Z., C.S. and Y.D. are employees of Advaccine Biopharmaceuticals Co., Ltd. B.P. is a scientific co-founder of In-Cell-Art (Nantes, France) and owns stock of In-Cell-Art, which commercializes tetra-functional block copolymers for DNA vaccines. The other authors declare that they have no competing financial interests., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

6. Oral Delivery of miR-320-3p with Lipidic Aminoglycoside Derivatives at Mid-Lactation Alters miR-320-3p Endogenous Levels in the Gut and Brain of Adult Rats According to Early or Regular Weaning.

Author

Tavares GA, Torres A, Le Drean G, Queignec M, Castellano B, Tesson L, Remy S, Anegon I, Pitard B, and Kaeffer B

Subjects

Animals, Female, Rats, Anti-Bacterial Agents, Brain metabolism, Chromatin, Lactation, Weaning, Aminoglycosides, MicroRNAs administration & dosage

Abstract

To investigate if the artificial delivery of microRNAs naturally present in the breastmilk can impact the gut and brain of young rats according to weaning. Animals from a new transgenic rat line expressing the green-fluorescent protein in the endocrine lineage (cholecystokinin expressing cells) received a single oral bolus of miR-320-3p or miR-375-3p embedded in DiOleyl-Succinyl-Paromomycin (DOSP) on D-12. The pups were weaned early (D-15), or regularly (D-30). The expression of relevant miRNA, mRNAs, chromatin complexes, and duodenal cell density were assessed at 8 h post-inoculation and on D-45. The miR-320-3p/DOSP induced immediate effects on H3K4me3 chromatin complexes with polr3d promoter (p < 0.05). On regular weaning, on D-45, miR-320-3p and 375-3p were found to be downregulated in the stomach and upregulated in the hypothalamus (p < 0.001), whereas miR-320-3p was upregulated in the duodenum. After early weaning, miR-320-3p and miR-375-3p were downregulated in the stomach and the duodenum, but upregulated in the hypothalamus and the hippocampus. Combination of miR-320-3p/DOSP with early weaning enhanced miR-320-3p and chromogranin A expression in the duodenum. In the female brain stem, miR-320-3p, miR-504, and miR-16-5p levels were all upregulated. Investigating the oral miRNA-320-3p loads in the duodenal cell lineage paved the way for designing new therapeutics to avoid unexpected long-term impacts on the brain.

Published

2022

7. Aerosol-Mediated Non-Viral Lung Gene Therapy: The Potential of Aminoglycoside-Based Cationic Liposomes.

Author

Le Gall T, Berchel M, Davies L, Mottais A, Ghanem R, Fautrel A, Gill D, Hyde S, Lehn P, Lehn JM, Lemiègre L, Benvegnu T, Jaffrès PA, Pitard B, and Montier T

Abstract

Aerosol lung gene therapy using non-viral delivery systems represents a credible therapeutic strategy for chronic respiratory diseases, such as cystic fibrosis (CF). Progress in CF clinical setting using the lipidic formulation GL67A has demonstrated the relevance of such a strategy while emphasizing the need for more potent gene transfer agents. In recent years, many novel non-viral gene delivery vehicles were proposed as potential alternatives to GL67 cationic lipid. However, they were usually evaluated using procedures difficult or even impossible to implement in clinical practice. In this study, a clinically-relevant administration protocol via aerosol in murine lungs was used to conduct a comparative study with GL67A. Diverse lipidic compounds were used to prepare a series of formulations inspired by the composition of GL67A. While some of these formulations were ineffective at transfecting murine lungs, others demonstrated modest-to-very-efficient activities and a series of structure-activity relationships were unveiled. Lipidic aminoglycoside derivative-based formulations were found to be at least as efficient as GL67A following aerosol delivery of a luciferase-encoding plasmid DNA. A single aerosol treatment with one such formulation was found to mediate long-term lung transgene expression, exceeding half the animal's lifetime. This study clearly supports the potential of aminoglycoside-based cationic lipids as potent GL67-alternative scaffolds for further enhanced aerosol non-viral lung gene therapy for diseases such as CF.

Published

2021

8. COVID-19 vaccines: Frequently asked questions and updated answers.

Author

Lefebvre M, Vignier N, Pitard B, Botelho-Nevers E, Wyplosz B, Cohen R, and Epaulard O

Subjects

Humans, COVID-19 prevention & control, COVID-19 Vaccines

Abstract

At the end of December 2019, China notified the World Health Organization about a viral pneumonia epidemic soon to be named COVID-19, of which the infectious agent, SARS-CoV-2, was rapidly identified. Less than one year later, published phase 3 clinical trials underlined the effectiveness of vaccines utilizing hitherto unusual technology consisting in injection of the messenger RNA (m-RNA) of a viral protein. In the meantime, numerous clinical trials had failed to identify a maximally effective antiviral treatment, and mass vaccination came to be considered as the strategy most likely to put an end to the pandemic. The objective of this text is to address and hopefully answer the questions being put forward by healthcare professionals on the different anti-SARS-CoV-2 vaccines as regards their development, their modes of action, their effectiveness, their limits, and their utilization in different situations; we are proposing a report on both today's state of knowledge, and the 14 February 2021 recommendations of the French health authorities., (© 2021 Elsevier Masson SAS. All rights reserved.)

Published

2021

9. Two repeated motifs enriched within some enhancers and origins of replication are bound by SETMAR isoforms in human colon cells.

Author

Antoine-Lorquin A, Arensburger P, Arnaoty A, Asgari S, Batailler M, Beauclair L, Belleannée C, Buisine N, Coustham V, Guyetant S, Helou L, Lecomte T, Pitard B, Stévant I, and Bigot Y

Subjects

Colon metabolism, Enhancer Elements, Genetic, Humans, Protein Isoforms genetics, DNA Repair, Histone-Lysine N-Methyltransferase genetics, Regulatory Sequences, Nucleic Acid

Abstract

Setmar is a gene specific to simian genomes. The function(s) of its isoforms are poorly understood and their existence in healthy tissues remains to be validated. Here we profiled SETMAR expression and its genome-wide binding landscape in colon tissue. We found isoforms V3 and V6 in healthy and tumour colon tissues as well as incell lines. In two colorectal cell lines SETMAR binds to several thousand Hsmar1 and MADE1 terminal ends, transposons mostly located in non-genic regions of active chromatin including in enhancers. It also binds to a 12-bp motifs similar to an inner motif in Hsmar1 and MADE1 terminal ends. This motif is interspersed throughout the genome and is enriched in GC-rich regions as well as in CpG islands that contain constitutive replication origins. It is also found in enhancers other than those associated with Hsmar1 and MADE1. The role of SETMAR in the expression of genes, DNA replication and in DNA repair are discussed., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

10. Potential of regulatory T-cell-based therapies in the management of severe COVID-19.

Author

Stephen-Victor E, Das M, Karnam A, Pitard B, Gautier JF, and Bayry J

Subjects

Betacoronavirus, COVID-19, China, Humans, SARS-CoV-2, T-Lymphocytes, Regulatory, Coronavirus, Coronavirus Infections epidemiology, Pandemics, Pneumonia, Viral epidemiology

Abstract

Competing Interests: Conflict of interest: E. Stephen-Victor has nothing to disclose. Conflict of interest: M. Das has nothing to disclose. Conflict of interest: A. Karnam has nothing to disclose. Conflict of interest: B. Pitard has nothing to disclose. Conflict of interest: J-F. Gautier has nothing to disclose. Conflict of interest: J. Bayry reports grants from Agence Nationale de la Recherche, France (Appel Flash COVID-19-COVIMUNE and ANR-19-CE17-0021(BASIN)), outside the submitted work.

Published

2020

11. Temperature-Sensitive Amphiphilic Non-Ionic Triblock Copolymers for Enhanced In Vivo Skeletal Muscle Transfection.

Author

Rasolonjatovo B, Illy N, Bennevault V, Mathé J, Midoux P, Le Gall T, Haudebourg T, Montier T, Lehn P, Pitard B, Cheradame H, Huin C, and Guégan P

Subjects

Animals, Female, Mice, DNA genetics, DNA pharmacology, Muscle, Skeletal metabolism, Plasmids genetics, Plasmids pharmacology, Transfection

Abstract

It is reported that low concentration of amphiphilic triblock copolymers of pMeOx-b-pTHF-b-pMeOx structure (TBCPs) improves gene expression in skeletal muscle upon intramuscular co-injection with plasmid DNA. Physicochemical studies carried out to understand the involved mechanism show that a phase transition of TBCPs under their unimer state is induced when the temperature is elevated from 25 to 37 °C, the body temperature. Several lines of evidences suggest that TBCP insertion in a lipid bilayer causes enough lipid bilayer destabilization and even pore formation, a phenomenon heightened during the phase transition of TBCPs. Interestingly, this property allows DNA translocation across the lipid bilayer model. Overall, the results indicate that TBCPs exhibiting a phase transition at the body temperature is promising to favor in vivo pDNA translocation in skeletal muscle cells for gene therapy applications., (© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

12. [Nanotaxi ® for RNA or DNA vaccines].

Author

Pitard B

Subjects

Gene Transfer Techniques, Nanotechnology, RNA administration & dosage, Vaccines administration & dosage, Vaccines, DNA administration & dosage

Published

2019

13. Oral Delivery of miRNA With Lipidic Aminoglycoside Derivatives in the Breastfed Rat.

Author

Beuzelin D, Pitard B, and Kaeffer B

Abstract

Context: Specific targeting of endogenous miRNAs which are involved in epigenetics, may help understanding homeostasis with therapeutic benefits. We use new biologically inspired vehicles consisting of lipoaminoglycosides to deliver in vivo mir-320-3p, a known human breast milk exosomal miRNA, or its antagomiR., Materials and Methods: Four lipoaminoglycosides were screened for cytotoxicity and their biophysical properties. 1-h breast-restricted rats received single-oral treatment of either the lipoaminoglycoside Dioleyl-Succinyl Paromomycin (DOSP) complexed with miRNA or antagomiR, or of control medium at the light on (ZeitGeber Time: ZT-0H) or off (ZT-12H). Glycemia, triglycerides, cholesterol, free-fatty acid were assayed at 0, 4, 8, and 12 h post-treatment. In the stomach, small intestine, liver, plasma, adipose tissue, plexus choroid, and cortex, relevant miRNA with precursors and mRNA (polr3d, hspb6, c-myc, stat1, clock, bmal1, per1, npas2, sirt1-6, and cyclinD1) were quantified by q-PCR. Expression of POLR3D and HSPB6 proteins were analyzed in stomach and liver by Western blot. Immunoprecipitations with anti-AGO1 and 2 were performed on nuclear and cytoplasmic fractions of gastric cells along with detection of miRNA-320-3p in nucleoli. Chromatin ImmunoPrecipitation with anti-Trimethyl-histone-3-Lys-4 and Lys-27 detecting the polr3d promoter and miR-320-3p, were performed for all groups., Results: Selected DOSP (diameter: 80-200 nm) did not alter gastric extracellular vesicle secretion a few hours after intake. The miR-320-3p was mainly found in gastric or small intestinal cells, reaching the blood and liver in low amount. We have found significant up-regulation of polr3d mRNA (ANOVA, p < 0.0001) at ZT-20H for the miR-320-3p-supplemented group and a higher expression of POLR3D for antagomiR group (ANOVA, p < 0.05). We had a low accumulation of miR-320-3p at ZT-20H in nucleoli, without stat1 evolution. Delivering a high amount of miRNA or antagomiR disrupts RNA-Induced Silencing Complexes in cytoplasm triggering some transfer of extracellular molecules into nuclei with alteration of immune complexes on the polr3d promoter (with a higher amount found in the K4 histone-3-me3 immune complexes at ZT-20H)., Conclusion: Extracellular miRNAs embedded in DOSP have a rapid impact on RNAi and on nuclear chromatin complexes depending on the daily rhythm. An integrative view of the impact of extracellular miRNA on physiology will improve assaying epigenetic manipulations following nutritional stress.

Published

2019

14. Lipidic Aminoglycoside Derivatives: A New Class of Immunomodulators Inducing a Potent Innate Immune Stimulation.

Author

Colombani T, Haudebourg T, Decossas M, Lambert O, Ada Da Silva G, Altare F, and Pitard B

Abstract

Development of simple and fully characterized immunomodulatory molecules is an active area of research to enhance current immunotherapies. Monophosphoryl lipid A (MPL), a nontoxic lipidic derivative from bacteria, is the first and currently only adjuvant approved in humans. However, its capacity to induce a potent response against weak immunogenic tumoral-associated antigens remains limited. Herein, a new generation of lipidic immunomodulators to conduct a structure-activity relationship study to determine the minimal structural elements conferring immunomodulatory properties is introduced. Two lead molecules characterized by a short succinyl linker between two oleyl chains and a polar headgroup consisting of either naturally occurring tobramycin (DOST) or kanamycin (DOSK) are identified. These two lipoaminoglycosides self-assemble in very small vesicles. In a wide variety of cells including 3D human cell culture, DOST and DOSK induce the upregulation of proinflammatory cytokines and interferon-inducible proteins in a dose and time-dependent manner via a caveolae-dependent proinflammatory mechanism and phosphatidylinositol phospholipase C activation. Furthermore, after intratumoral administration, these lipoaminoglycosides induce an efficient immune response leading to significant antitumor activity in a mouse breast cancer model. Altogether, these findings indicate that DOST and DOSK are two groundbreaking synthetic lipid immunostimulators that can be used as adjuvants to enhance current immunotherapeutic treatments., Competing Interests: B.P. owns stock in In‐Cell‐Art, which commercializes lipidic aminoglycodise derivatives.

Published

2019

15. Tetrafunctional Block Copolymers Promote Lung Gene Transfer in Newborn Piglets.

Author

Caballero I, Riou M, Hacquin O, Chevaleyre C, Barc C, Pezant J, Pinard A, Fassy J, Rezzonico R, Mari B, Heuzé-Vourc'h N, Pitard B, and Vassaux G

Abstract

Tetrafunctional block copolymers are molecules capable of complexing DNA. Although ineffective in vitro, studies in mice have shown that the tetrafunctional block copolymer 704 is a more efficient lung gene transfer agent than the cationic liposome GL67A, previously used in a phase II clinical trial in cystic fibrosis patients. In the present study, we compared the gene transfer capacity of the 704-DNA formulation and a cationic liposome-DNA formulation equivalent to GL67A in a larger-animal model, the newborn piglet. Our results indicate an efficacy of the 704-DNA formulation well above one order of magnitude higher than that of the cationic liposome-DNA formulation, with no elevated levels of interleukin-6 (IL-6), taken as a marker of inflammation. Transgene expression was heterogeneous within lung lobes, with expression levels that were below the detection threshold in some samples, while high in other samples. This heterogeneity is likely to be due to the bolus injection procedure as well as to the small volume of injection. The present study highlights the potential of tetrafunctional block copolymers as non-viral vectors for lung gene therapy., (Copyright © 2019 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2019

16. Visualization of early events in mRNA vaccine delivery in non-human primates via PET-CT and near-infrared imaging.

Author

Lindsay KE, Bhosle SM, Zurla C, Beyersdorf J, Rogers KA, Vanover D, Xiao P, Araínga M, Shirreff LM, Pitard B, Baumhof P, Villinger F, and Santangelo PJ

Subjects

Animals, Antigen-Presenting Cells metabolism, Copper Radioisotopes chemistry, HeLa Cells, Humans, Lymph Nodes diagnostic imaging, Macaca fascicularis, Male, Muscles metabolism, Gene Transfer Techniques, Positron Emission Tomography Computed Tomography, RNA, Messenger administration & dosage, Spectroscopy, Near-Infrared, Vaccines administration & dosage

Abstract

Visualization of the spatio-temporal trafficking of vaccines after their delivery would help evaluate the efficacy of candidate formulations and aid their rational design for preclinical and translational studies. Here, we show that a dual radionuclide-near-infrared probe allows for quantitative, longitudinal and non-invasive monitoring, via positron emission tomography-computed tomography and near-infrared imaging of cynomolgus macaques, of the trafficking dynamics to draining lymph nodes of a model messenger RNA vaccine labelled with the probe. After intramuscular administration of the vaccine to the monkeys, we observed the dynamics of the mRNA vaccine at the injection site and in the draining lymph nodes, performed cellular analyses of the involved tissues using flow cytometry and identified through immunofluorescence that professional antigen-presenting cells are the primary cells containing the injected mRNA and encoding the antigen. This approach may reveal spatio-temporal determinants of vaccine efficacy in preclinical and translational studies employing large mammals.

Published

2019

17. Proximity Ligation Assays for In Situ Detection of Innate Immune Activation: Focus on In Vitro-Transcribed mRNA.

Author

Blanchard EL, Loomis KH, Bhosle SM, Vanover D, Baumhof P, Pitard B, Zurla C, and Santangelo PJ

Abstract

The characterization of innate immune activation is crucial for vaccine and therapeutic development, including RNA-based vaccines, a promising approach. Current measurement methods quantify type I interferon and inflammatory cytokine production, but they do not allow for the isolation of individual pathways, do not provide kinetic activation or spatial information within tissues, and cannot be translated into clinical studies. Here we demonstrated the use of proximity ligation assays (PLAs) to detect pattern recognition receptor (PRR) activation in cells and in tissue samples. First, we validated PLA's sensitivity and specificity using well-characterized soluble agonists. Next, we characterized PRR activation from in vitro-transcribed (IVT) mRNAs, as well as the effect of sequence and base modifications in vitro. Finally, we established the measurement of PRR activation in tissue sections via PLA upon IVT mRNA intramuscular (i.m.) injection in mice. Overall, our results indicate that PLA is a valuable, versatile, and sensitive tool to monitor PRR activation for vaccine, adjuvant, and therapeutic screening., (Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2019

18. Amphiphilic block copolymer delivery of a DNA vaccine against Zika virus.

Author

Hraber P, Bradfute S, Clarke E, Ye C, and Pitard B

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Antigens, Viral genetics, Antigens, Viral immunology, Disease Models, Animal, Female, Mice, Inbred C57BL, Treatment Outcome, Vaccines, DNA administration & dosage, Viral Vaccines administration & dosage, Viremia prevention & control, Zika Virus genetics, Zika Virus immunology, Drug Carriers administration & dosage, Polymers administration & dosage, Vaccines, DNA immunology, Viral Vaccines immunology, Zika Virus Infection prevention & control

Abstract

Zika virus (ZIKV) is a mosquito-borne flavivirus that was first discovered in 1947. Since then, outbreaks have been reported in tropical Africa, Southeast Asia, the Pacific Islands, and, in 2015, in the Americas. Since 2013, many countries have reported cases of microcephaly and other central nervous system malformation associated with ZIKV. Because the initial target population for a ZIKV vaccine is expected to be women of child-bearing age, including those who may be pregnant, it is necessary to develop safe, easily administered, and non-viral vaccines. Here, we show that a single tetrafunctional Amphiphilic Block Copolymer (ABC) delivers DNA that encodes the full natural sequence of prM-E, among other antigen designs tested, induces the highest antibody titer and neutralization activity against three divergent ZIKV isolates. Vaccination with a single tetrafunctional block copolymer delivering low dose (10 µg) DNA plasmid rapidly induces protection from detectable viremia during acute infection in mice challenged by ZIKV more than 7 months after their first vaccination and boosted 2 weeks before challenge. This use of tetrafunctional ABCs is a new approach to deliver DNA antigens against flaviviruses. The data demonstrate that DNA formulated by a tetrafunctional block copolymer rapidly elicits protective responses against multiple diverse ZIKV isolates. This represents potential for an easy-to-administer and simple to manufacture vaccine candidate against ZIKV and possibly other emerging threats to global health., (Published by Elsevier Ltd.)

Published

2018

19. Unifying in vitro and in vivo IVT mRNA expression discrepancies in skeletal muscle via mechanotransduction.

Author

Bhosle SM, Loomis KH, Kirschman JL, Blanchard EL, Vanover DA, Zurla C, Habrant D, Edwards D, Baumhof P, Pitard B, and Santangelo PJ

Subjects

Animals, Cell Line, Endosomes chemistry, Extracellular Matrix chemistry, Female, Flow Cytometry, HeLa Cells, Humans, Hydrogels chemistry, Mice, Mice, Inbred BALB C, Nanoparticles chemistry, Mechanotransduction, Cellular physiology, Muscle, Skeletal metabolism, RNA, Messenger metabolism

Abstract

The translational efficiency of an in vitro transcribed (IVT) mRNA was measured upon delivery to primary skeletal muscle cells and to a mouse model system, towards the development of a predictive in vitro assay for the screening and validation of intramuscular mRNA-based vaccines. When IVT mRNA was delivered either naked or complexed with novel aminoglycoside-based delivery vehicles, significant differences in protein expression in vitro and in vivo were observed. We hypothesized that this previously anticipated discrepancy was due to differences in the mechanism of IVT mRNA endosomal entry and release following delivery. To address this, IVT mRNA was fluorescently labeled prior to delivery, to visualize its distribution. Colocalization with endosomal markers indicated that different entry pathways were utilized in vivo and in vitro, depending on the delivery vehicle, resulting in variations in protein expression levels. Since extracellular matrix stiffness (ECM) influences mRNA entry, trafficking and release, the effect of mechanotransduction on mRNA expression was investigated in vitro upon delivery of IVT mRNA alone, and complexed with delivery vehicles to skeletal muscle cells grown on ∼10 kPa hydrogels. This in vitro hydrogel model more accurately recapitulated the results obtained in vivo upon IM injection, indicating that this approach may assist in the characterization of mRNA based vaccines., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

20. Single lipoaminoglycoside promotes efficient intracellular antibody delivery: A comprehensive insight into the mechanism of action.

Author

Dallet L, Decossas M, Taveau JC, Lecomte S, Poussard S, Lambert O, and Pitard B

Subjects

Anti-Bacterial Agents chemistry, Antibodies administration & dosage, Antibodies immunology, HeLa Cells, Humans, Keratin-8 immunology, Ribostamycin chemistry, Anti-Bacterial Agents pharmacology, Antibodies metabolism, Drug Delivery Systems, Endocytosis, Ribostamycin pharmacology

Abstract

Delivery of biologically active proteins into cells is emerging as important strategy for many applications. Previous experiments have shown that lipoaminoglycosides were capable of delivery of the anti-cytokeratin8 antibody (anti-K8) but only when formulated with lipid helpers potentially leading to toxicity from excess lipids. Here, we optimized anti-K8 delivery with various lipoaminoglycosides in the absence of a lipid helper. Results led to the identification of the aminoglycoside lipid dioleyl phosphoramido ribostamycin (DOPRI) as a potent intracellular delivery system for anti-K8. Electron microscopy revealed that delivered anti-K8 molecules were bound to intermediate filaments in cells. Anti-K8 was bound to the surface of DOPRI vesicles without perturbing lipid organization. Macropinocytosis and caveolin mediated endocytosis contributed to anti-K8 internalization and to filament labeling with a major contribution being made by the caveolin pathway. The results showed that the unique properties of DOPRI were sufficient for efficient intracellular protein delivery without requiring lipid helpers., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

21. Self-assembling complexes between binary mixtures of lipids with different linkers and nucleic acids promote universal mRNA, DNA and siRNA delivery.

Author

Colombani T, Peuziat P, Dallet L, Haudebourg T, Mével M, Berchel M, Lambert O, Habrant D, and Pitard B

Subjects

Animals, Cations chemistry, Cell Line, DNA genetics, HeLa Cells, Humans, Mice, RNA, Messenger genetics, RNA, Small Interfering genetics, DNA administration & dosage, Lipids chemistry, Liposomes chemistry, RNA, Messenger administration & dosage, RNA, Small Interfering administration & dosage, Transfection methods

Abstract

Protein expression and RNA interference require efficient delivery of DNA or mRNA and small double stranded RNA into cells, respectively. Although cationic lipids are the most commonly used synthetic delivery vectors, a clear need still exists for a better delivery of various types of nucleic acids molecules to improve their biological activity. To optimize the transfection efficiency, a molecular approach consisting in modifying the chemical structure of a given cationic lipid is usually performed, but an alternative strategy could rely on modulating the supramolecular assembly of lipidic lamellar phases sandwiching the nucleic acids molecules. To validate this new concept, we synthesized on one hand two paromomycin-based cationic lipids, with either an amide or a phosphoramide linker, and on the other hand two imidazole-based neutral lipids, having as well either an amide or a phosphoramide function as linker. Combinations of cationic and helper lipids containing the same amide or phosphoramide linkers led to the formation of homogeneous lamellar phases, while hybrid lamellar phases were obtained when the linkers on the cationic and helper lipids were different. Cryo-transmission electron microscopy and fluorescence experiments showed that liposomes/nucleic acids complexes resulting from the association of nucleic acids with hybrid lamellar phases led to complexes that were more stable in the extracellular compartment compared to those obtained with homogeneous systems. In addition, we observed that the most active supramolecular assemblies for the delivery of DNA, mRNA and siRNA were obtained when the cationic and helper lipids possess linkers of different natures. The results clearly show that this supramolecular strategy modulating the property of the lipidic lamellar phase constitutes a new approach for increasing the delivery of various types of nucleic acid molecules., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

22. MgtC as a Host-Induced Factor and Vaccine Candidate against Mycobacterium abscessus Infection.

Author

Le Moigne V, Belon C, Goulard C, Accard G, Bernut A, Pitard B, Gaillard JL, Kremer L, Herrmann JL, and Blanc-Potard AB

Subjects

Animals, Bacterial Proteins genetics, Blotting, Western, Cystic Fibrosis complications, Disease Models, Animal, Female, Macrophages metabolism, Macrophages microbiology, Mice, Mycobacterium Infections, Nontuberculous prevention & control, Virulence Factors genetics, Virulence Factors metabolism, Bacterial Vaccines immunology, Mycobacterium immunology, Mycobacterium Infections, Nontuberculous immunology, Virulence Factors immunology

Abstract

Mycobacterium abscessus is an emerging pathogenic mycobacterium involved in pulmonary and mucocutaneous infections, presenting a serious threat for patients with cystic fibrosis (CF). The lack of an efficient treatment regimen and the emergence of multidrug resistance in clinical isolates require the development of new therapeutic strategies against this pathogen. Reverse genetics has revealed genes that are present in M. abscessus but absent from saprophytic mycobacteria and that are potentially involved in pathogenicity. Among them, MAB&#95;3593 encodes MgtC, a known virulence factor involved in intramacrophage survival and adaptation to Mg(2+) deprivation in several major bacterial pathogens. Here, we demonstrated a strong induction of M. abscessus MgtC at both the transcriptional and translational levels when bacteria reside inside macrophages or upon Mg(2+) deprivation. Moreover, we showed that M. abscessus MgtC was recognized by sera from M. abscessus-infected CF patients. The intramacrophage growth (J774 or THP1 cells) of a M. abscessus knockout mgtC mutant was, however, not significantly impeded. Importantly, our results indicated that inhibition of MgtC in vivo through immunization with M. abscessus mgtC DNA, formulated with a tetrafunctional amphiphilic block copolymer, exerted a protective effect against an aerosolized M. abscessus challenge in CF (ΔF508 FVB) mice. The formulated DNA immunization was likely associated with the production of specific MgtC antibodies, which may stimulate a protective effect by counteracting MgtC activity during M. abscessus infection. These results emphasize the importance of M. abscessus MgtC in vivo and provide a basis for the development of novel therapeutic tools against pulmonary M. abscessus infections in CF patients., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

23. Design of Ionizable Lipids To Overcome the Limiting Step of Endosomal Escape: Application in the Intracellular Delivery of mRNA, DNA, and siRNA.

Author

Habrant D, Peuziat P, Colombani T, Dallet L, Gehin J, Goudeau E, Evrard B, Lambert O, Haudebourg T, and Pitard B

Subjects

Animals, Chemistry Techniques, Synthetic, Cryoelectron Microscopy methods, Drug Delivery Systems methods, Fatty Acids, Monounsaturated chemistry, HeLa Cells, Humans, Hydrophobic and Hydrophilic Interactions, Lipids administration & dosage, Lipids chemical synthesis, Liposomes chemistry, Microscopy, Electron, Transmission methods, Muscle, Smooth, Vascular cytology, Quaternary Ammonium Compounds chemistry, Rats, Structure-Activity Relationship, DNA administration & dosage, Endosomes chemistry, Endosomes metabolism, Lipids chemistry, RNA, Messenger administration & dosage, RNA, Small Interfering administration & dosage, Transfection methods

Abstract

The intracellular delivery of nucleic acid molecules is a complex process involving several distinct steps; among these the endosomal escape appeared to be of particular importance for an efficient protein production (or inhibition) into host cells. In the present study, a new series of ionizable vectors, derived from naturally occurring aminoglycoside tobramycin, was prepared using improved synthetic procedures that allow structural variations on the linker and hydrophobic domain levels. Complexes formed between the new ionizable lipids and mRNA, DNA, or siRNA were characterized by cryo-TEM experiments and their transfection potency was evaluated using different cell types. We demonstrated that lead molecule 30, bearing a biodegradable diester linker, formed small complexes with nucleic acids and provided very high transfection efficiency with all nucleic acids and cell types tested. The obtained results suggested that the improved and "universal" delivery properties of 30 resulted from an optimized endosomal escape, through the lipid-mixing mechanism.

Published

2016

24. Important role of phosphoramido linkage in imidazole-based dioleyl helper lipids for liposome stability and primary cell transfection.

Author

Mével M, Haudebourg T, Colombani T, Peuziat P, Dallet L, Chatin B, Lambert O, Berchel M, Montier T, Jaffrès PA, Lehn P, and Pitard B

Subjects

Animals, Cations chemistry, DNA chemistry, Endosomes metabolism, HEK293 Cells, Hepatocytes, Humans, Imidazoles chemical synthesis, Lipids chemical synthesis, Mice, Microscopy, Electron, Transmission, Myoblasts, Primary Cell Culture, Rats, Imidazoles chemistry, Lipids chemistry, Liposomes chemistry, Phosphoramides chemistry, Transfection methods

Abstract

Background: To optimize synthetic gene delivery systems, there is a need to develop more efficient lipid formulations. Most cationic lipid formulations contain 'helper' neutral lipids because of their ability to increase DNA delivery, in particular by improving endosomal escape of DNA molecules via the pH-buffering effect of protonatable groups and/or fusion with the lipid bilayer of endosomes., Methods: We evaluated the influence of the linker structure between the two oleyl chains in the helper lipid on transfection efficiency in cell lines, as well as in primary cells (hepatocytes/cardiomyocytes). We reported the synthesis of two new pH-buffering imidazole helper lipids characterized by a polar headgroup containing one (compound 6) or two (compound 5) imidazole groups and two oleyl chains linked by an amide group. We studied their association with the aminoglycoside lipidic derivative dioleylsuccinylparomomycin (DOSP), which contains two oleyl chains linked to the aminoglycoside polar headgroup via an amide function. We compared the morphology and transfection properties of such binary liposomes of DOSP/5 and DOSP/6 with those of liposomes combining DOSP with another imidazole-based dioleyl helper lipid (MM27) in which a phosphoramido group acts as a linker between the two oleyl chains and imidazole function., Results: The phosphoramido linker in the helper lipid induces a major difference in terms of morphology and resistance to decomplexation at physical pH for DOSP/helper lipid complexes., Conclusions: This hybrid dioleyl linker composition of DOSP/MM27 led to higher transfection efficiency in cell lines and in primary cells compared to complexes with homogeneous dioleyl linker., (Copyright © 2015 John Wiley & Sons, Ltd.)

Published

2016

25. Liposome-based Formulation for Intracellular Delivery of Functional Proteins.

Author

Chatin B, Mével M, Devallière J, Dallet L, Haudebourg T, Peuziat P, Colombani T, Berchel M, Lambert O, Edelman A, and Pitard B

Abstract

The intracellular delivery of biologically active protein represents an important emerging strategy for both fundamental and therapeutic applications. Here, we optimized in vitro delivery of two functional proteins, the β-galactosidase (β-gal) enzyme and the anti-cytokeratin8 (K8) antibody, using liposome-based formulation. The guanidinium-cholesterol cationic lipid bis (guanidinium)-tren-cholesterol (BGTC) (bis (guanidinium)-tren-cholesterol) combined to the colipid dioleoyl phosphatidylethanolamine (DOPE) (dioleoyl phosphatidylethanolamine) was shown to efficiently deliver the β-gal intracellularly without compromising its activity. The lipid/protein molar ratio, protein amount, and culture medium were demonstrated to be key parameters affecting delivery efficiency. The protein itself is an essential factor requiring selection of the appropriate cationic lipid as illustrated by low K8 binding activity of the anti-K8 antibody using guanidinium-based liposome. Optimization of various lipids led to the identification of the aminoglycoside lipid dioleyl succinyl paromomycin (DOSP) associated with the imidazole-based helper lipid MM27 as a potent delivery system for K8 antibody, achieving delivery in 67% of HeLa cells. Cryo-transmission electron microscopy showed that the structure of supramolecular assemblies BGTC:DOPE/β-gal and DOSP:MM27/K8 were different depending on liposome types and lipid/protein molar ratio. Finally, we observed that K8 treatment with DOSP:MM27/K8 rescues the cyclic adenosine monophosphate (cAMP)-dependent chloride efflux in F508del-CFTR expressing cells, providing a new tool for the study of channelopathies.

Published

2015

26. Bacterial phospholipases C as vaccine candidate antigens against cystic fibrosis respiratory pathogens: the Mycobacterium abscessus model.

Author

Le Moigne V, Rottman M, Goulard C, Barteau B, Poncin I, Soismier N, Canaan S, Pitard B, Gaillard JL, and Herrmann JL

Subjects

Animals, Antibodies, Bacterial biosynthesis, Antibodies, Bacterial blood, Bacterial Vaccines administration & dosage, Cystic Fibrosis immunology, Cystic Fibrosis microbiology, Female, Humans, Immunoglobulin G biosynthesis, Immunoglobulin G blood, Male, Mice, Mycobacterium Infections, Nontuberculous complications, Nontuberculous Mycobacteria enzymology, Pseudomonas Infections complications, Pseudomonas Infections immunology, Pseudomonas aeruginosa immunology, Type C Phospholipases administration & dosage, Vaccines, DNA administration & dosage, beta-Galactosidase genetics, beta-Galactosidase immunology, Bacterial Vaccines immunology, Cystic Fibrosis complications, Mycobacterium Infections, Nontuberculous prevention & control, Nontuberculous Mycobacteria immunology, Type C Phospholipases genetics, Type C Phospholipases immunology, Vaccines, DNA immunology

Abstract

Background: Vaccine strategies represent one of the fighting answers against multiresistant bacteria in a number of clinical settings like cystic fibrosis (CF). Mycobacterium abscessus, an emerging CF pathogen, raises difficult therapeutic problems due to its intrinsic antibiotic multiresistance., Methods: By reverse vaccinology, we identified M. abscessus phospholipase C (MA-PLC) as a potential vaccine target. We deciphered here the protective response generated by vaccination with plasmid DNA encoding the MA-PLC formulated with a tetra functional block copolymer 704, in CF (ΔF508) mice. Protection was tested against aerosolized smooth and rough (hypervirulent) variants of M. abscessus., Results: MA-PLC DNA vaccination (days 0, 21, 42) elicited a strong antibody response. A significant protective effect was obtained against aerosolized M. abscessus (S variant) in ΔF508 mice, but not in wild-type FVB littermates; similar results were observed when: (i) challenging mice with the "hypervirulent" R variant, and; (ii) immunizing mice with purified MA-PLC protein. High IgG titers against MA-PLC protein were measured in CF patients with M. abscessus infection; interestingly, significant titers were also detected in CF patients positive for Pseudomonas aeruginosa versus P. aeruginosa-negative controls., Conclusions: MA-PLC DNA- and PLC protein-vaccinated mice cleared more rapidly M. abscessus than β-galactosidase DNA- or PBS- vaccinated mice in the context of CF. PLCs could constitute interesting vaccine targets against common PLC-producing CF pathogens like P. aeruginosa., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

27. Evaluation of tetrafunctional block copolymers as synthetic vectors for lung gene transfer.

Author

Richard-Fiardo P, Hervouet C, Marsault R, Franken PR, Cambien B, Guglielmi J, Warnez-Soulie J, Darcourt J, Pourcher T, Colombani T, Haudebourg T, Peuziat P, Pitard B, and Vassaux G

Subjects

Animals, Chloramphenicol O-Acetyltransferase metabolism, Female, Humans, Immunohistochemistry, Inflammation pathology, Lung diagnostic imaging, Lung pathology, Mice, Inbred BALB C, Symporters metabolism, Tomography, Emission-Computed, Single-Photon, Tomography, X-Ray Computed, Transfection, Transgenes, Gene Transfer Techniques, Lung metabolism, Polymers chemistry

Abstract

In the present study, we evaluated, in mice, the efficacy of the tetrafunctional block copolymer 704 as a nonviral gene delivery vector to the lungs. SPECT/CT molecular imaging of gene expression, biochemical assays, and immunohistochemistry were used. Our dataset shows that the formulation 704 resulted in higher levels of reporter gene expression than the GL67A formulation currently being used in a clinical trial in cystic fibrosis patients. The inflammatory response associated with this gene transfer was lower than that induced by the GL67A formulation, and the 704 formulation was amenable to repeated administrations. The cell types transfected by the 704 formulation were type I and type II pneumocytes, and transgene expression could not be detected in macrophages. These results emphasize the relevance of the 704 formulation as a nonviral gene delivery vector for lung gene therapy. Further studies will be required to validate this vector in larger animals, in which the lungs are more similar to human lungs., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

28. Block copolymer/DNA vaccination induces a strong allergen-specific local response in a mouse model of house dust mite asthma.

Author

Rolland-Debord C, Lair D, Roussey-Bihouée T, Hassoun D, Evrard J, Cheminant MA, Chesné J, Braza F, Mahay G, Portero V, Sagan C, Pitard B, and Magnan A

Subjects

Administration, Intranasal, Animals, Antigens, Dermatophagoides genetics, Arthropod Proteins genetics, Asthma prevention & control, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, Bronchoalveolar Lavage Fluid immunology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes metabolism, Cysteine Endopeptidases genetics, Cytokines immunology, Cytokines metabolism, Enzyme-Linked Immunospot Assay, Female, Flow Cytometry, Humans, Immunoglobulin E blood, Immunoglobulin E immunology, Immunoglobulin G blood, Immunoglobulin G immunology, Interferon-gamma immunology, Interferon-gamma metabolism, Lymphocyte Activation immunology, Mice, Mice, Inbred BALB C, Polymers chemistry, Pyroglyphidae genetics, Skin immunology, Spleen immunology, Spleen metabolism, Spleen pathology, Vaccination methods, Vaccines, DNA administration & dosage, Vaccines, DNA chemistry, Antigens, Dermatophagoides immunology, Arthropod Proteins immunology, Asthma immunology, Cysteine Endopeptidases immunology, Disease Models, Animal, Pyroglyphidae immunology, Vaccines, DNA immunology

Abstract

Background: Allergic asthma is caused by abnormal immunoreactivity against allergens such as house dust mites among which Dermatophagoides farinae (Der f) is a common species. Currently, immunotherapy is based on allergen administration, which has variable effect from patient to patient and may cause serious side effects, principally the sustained risk of anaphylaxis. DNA vaccination is a promising approach by triggering a specific immune response with reduced allergenicity., Objective: The aim of the study is to evaluate the effects of DNA immunization with Der f1 allergen specific DNA on allergic sensitization, inflammation and respiratory function in mice., Methods: Mice were vaccinated 28 and 7 days before allergen exposure with a Der f1-encoding plasmid formulated with a block copolymer. Asthma was induced by skin sensitization followed by intra-nasal challenges with Der f extract. Total lung, broncho-alveolar lavage (BAL) and spleen cells were analyzed by flow cytometry for their surface antigen and cytokine expression. Splenocytes and lung cell IFN-γ production by CD8+ cells in response to Der f CMH1-restricted peptides was assessed by ELISPOT. IgE, IgG1 and IgG2a were measured in serum by ELISA. Specific bronchial hyperresponsiveness was assessed by direct resistance measurements., Results: Compared to animals vaccinated with an irrelevant plasmid, pVAX-Der f1 vaccination induced an increase of B cells in BAL, and an elevation of IL-10 and IFN-γ but also of IL-4, IL-13 and IL-17 producing CD4+ lymphocytes in lungs and of IL-4 and IL-5 in spleen. In response to CD8-restricted peptides an increase of IFN-γ was observed among lung cells. IgG2a levels non-specifically increased following block copolymer/DNA vaccination although IgE, IgG1 levels and airways resistances were not impacted., Conclusions & Clinical Relevance: DNA vaccination using a plasmid coding for Der f1 formulated with the block copolymer 704 induces a specific immune response in the model of asthma used herein.

Published

2014

29. RILES, a novel method for temporal analysis of the in vivo regulation of miRNA expression.

Author

Ezzine S, Vassaux G, Pitard B, Barteau B, Malinge JM, Midoux P, Pichon C, and Baril P

Subjects

Animals, Cell Line, Genes, Reporter, Humans, Immunocompetence, Kinetics, Liver metabolism, Luciferases genetics, Mice, Mice, Nude, Muscle, Skeletal metabolism, Muscular Atrophy genetics, Muscular Atrophy metabolism, RNA Interference, Whole Body Imaging, Gene Expression Regulation, Luminescent Measurements methods, MicroRNAs metabolism

Abstract

Novel methods are required to investigate the complexity of microRNA (miRNA) biology and particularly their dynamic regulation under physiopathological conditions. Herein, a novel plasmid-based RNAi-Inducible Luciferase Expression System (RILES) was engineered to monitor the activity of endogenous RNAi machinery. When RILES is transfected in a target cell, the miRNA of interest suppresses the expression of a transcriptional repressor and consequently switch-ON the expression of the luciferase reporter gene. Hence, miRNA expression in cells is signed by the emission of bioluminescence signals that can be monitored using standard bioluminescence equipment. We validated this approach by monitoring in mice the expression of myomiRs-133, -206 and -1 in skeletal muscles and miRNA-122 in liver. Bioluminescence experiments demonstrated robust qualitative and quantitative data that correlate with the miRNA expression pattern detected by quantitative RT-PCR (qPCR). We further demonstrated that the regulation of miRNA-206 expression during the development of muscular atrophy is individual-dependent, time-regulated and more complex than the information generated by qPCR. As RILES is simple and versatile, we believe that this methodology will contribute to a better understanding of miRNA biology and could serve as a rationale for the development of a novel generation of regulatable gene expression systems with potential therapeutic applications.

Published

2013

30. Reliability of the nanopheres-DNA immunization technology to produce polyclonal antibodies directed against human neogenic proteins.

Author

Arnaoty A, Gouilleux-Gruart V, Casteret S, Pitard B, Bigot Y, and Lecomte T

Subjects

Animals, Antibodies chemistry, Antibodies metabolism, Antibody Formation, Antigens immunology, Antigens metabolism, Cell Line, Enzyme-Linked Immunosorbent Assay, Gene Expression, Humans, Immune Sera immunology, In Situ Hybridization, Fluorescence, Mice, Proteins metabolism, Reproducibility of Results, Antibodies immunology, DNA Transposable Elements immunology, Immunization methods, Nanospheres chemistry, Proteins genetics, Proteins immunology

Abstract

The molecular domestication of several DNA transposons that occurred during the evolution of the mammalian lineage, has led to the emergence of at least 43 genes, known as neogenes. To date, the limited availability of efficient commercial antibodies directed against most of their protein isoforms hampers investigation of their expression in vitro and in situ. Since immunization protocols using peptides or recombinant proteins have revealed that it is difficult to recover antibodies, we planned to produce antisera in mice using a new technique of nanopheres/DNA immunization, the ICANtibodies™ technology. Here, we investigate the possibilities of obtaining polyclonal antibodies for 24 proteins or protein domains using this immunization strategy. We successfully obtained 13 antisera that were able to detect neogenic proteins by Western blotting and ELISA in protein extracts of transiently-transfected cells and various cancer cell lines, plus another two that only detected the in ELISA and in in situ hybridizations. The features required for the production of these antibodies are analyzed and discussed, and examples are given of the advantages they offer for the study of neogenic proteins.

Published

2013

31. Osteoprotegerin inhibits bone resorption and prevents tumor development in a xenogenic model of Ewing's sarcoma by inhibiting RANKL.

Author

Picarda G, Matous E, Amiaud J, Charrier C, Lamoureux F, Heymann MF, Tirode F, Pitard B, Trichet V, Heymann D, and Redini F

Abstract

Ewing's sarcoma (ES) associated with high osyeolytic lesions typically arises in the bones of children and adolescents. The development of multi-disciplinary therapy has increased current long-term survival rates to greater than 50% but only 20% for high risk group patients (relapse, metastases, etc.). Among new therapeutic approaches, osteoprotegerin (OPG), an anti-bone resorption molecule may represent a promising candidate to inhibit RANKL-mediated osteolytic component of ES and consequently to limit the tumor development. Xenogenic orthotopic models of Ewing's sarcoma were induced by intra-osseous injection of human TC-71 ES cells. OPG was administered in vivo by non-viral gene transfer using an amphiphilic non ionic block copolymer. ES bearing mice were assigned to controls (no treatment, synthetic vector alone or F68/empty pcDNA3.1 plasmid) and hOPG treated groups. A substantial but not significant inhibition of tumor development was observed in the hOPG group as compared to control groups. Marked bone lesions were revealed by micro-computed tomography analyses in control groups whereas a normal bone micro-architecture was preserved in the hOPG treated group. RANKL over-expressed in ES animal model was expressed by tumor cells rather than by host cells. However, TRAIL present in the tumor microenvironment may interfere with OPG effect on tumor development and bone remodeling via RANKL inhibition. In conclusion, the use of a xenogenic model of Ewing's sarcoma allowed discriminating between the tumor and host cells responsible for the elevation of RANKL production observed in this tumor and demonstrated the relevance of blocking RANKL by OPG as a promising therapy in ES.

Published

2013

32. DNA nanocarriers for systemic administration: characterization and in vivo bioimaging in healthy mice.

Author

David S, Passirani C, Carmoy N, Morille M, Mevel M, Chatin B, Benoit JP, Montier T, and Pitard B

Abstract

We hereby present different DNA nanocarriers consisting of new multimodular systems (MMS), containing the cationic lipid dioleylaminesuccinylparomomycin (DNA MMS DOSP), or bis (guanidinium)-tren-cholesterol (DNA MMS BGTC), and DNA lipid nanocapsules (DNA LNCs). Active targeting of the asialoglycoprotein receptor (ASGP-R) using galactose as a ligand for DNA MMS (GAL DNA MMS) and passive targeting using a polyethylene glycol coating for DNA LNCs (PEG DNA LNCs) should improve the properties of these DNA nanocarriers. All systems were characterized via physicochemical methods and the DNA payload of DNA LNCs was quantified for the first time. Afterwards, their biodistribution in healthy mice was analyzed after encapsulation of a fluorescent dye via in vivo biofluorescence imaging (BFI), revealing various distribution profiles depending on the cationic lipid used and their surface characteristics. Furthermore, the two vectors with the best prolonged circulation profile were administered twice in healthy mice revealing that the new DNA MMS DOSP vectors showed no toxicity and the same distribution profile for both injections, contrary to PEG DNA LNCs which showed a rapid clearance after the second injection, certainly due to the accelerated blood clearance phenomenon.Molecular Therapy - Nucleic Acids (2013) 2, e64; doi:10.1038/mtna.2012.56; published online 8 January 2013.

Published

2013

33. Treatment efficacy of DNA lipid nanocapsules and DNA multimodular systems after systemic administration in a human glioma model.

Author

David S, Montier T, Carmoy N, Resnier P, Clavreul A, Mével M, Pitard B, Benoit JP, and Passirani C

Subjects

Animals, Cell Line, Tumor, Disease Models, Animal, Female, Gene Transfer Techniques, Glioma genetics, Humans, Liposomes, Mice, Molecular Imaging, Plasmids, Polyethylene Glycols, Xenograft Model Antitumor Assays, DNA administration & dosage, Glioma therapy, Lipids chemistry, Nanocapsules

Abstract

Background: We previously developed different types of DNA nanocarriers for systemic administration. Recently, the biodistribution profiles of these intravenously administered nanocarriers, DNA lipid nanocapsules (LNCs) and different multimodular systems (MMS), were analysed in healthy mice using in vivo biofluorescence imaging., Methods: In the present study, the experiments were performed in an ectopic human U87MG glioma model in nude mice. First, the biodistribution profiles of intravenously administered multimodular systems delivering a plasmid DNA with a luciferase cassette were analysed using in vivo biofluorescence imaging. Afterwards, a systemic treatment with two long circulating DNA nanocarriers, poly(ethylene glycol) (PEG) DNA LNCs and galactose (GAL) DNA MMS dioleylamin-succinyl paromomycin (DOSP) was performed on this glioma model using a plasmid encoding the herpes simplex virus thymidine kinase (HSV-tk) and subsequent ganciclovir (GCV) treatment., Results: The biodistribution profiles of the different DNA nanocarriers on this glioma model were similar to those observed on healthy animals and varied in function of their cationic lipid composition and their surface characteristics. Furthermore, PEG DNA LNCs and GAL DNA MMS DOSP showed a specific accumulation and some luciferase expression in the tumour tissue. The systemic treatment using the HSV-tk/GCV approach showed a tumour growth reduction compared to the nontreated mice cohort., Conclusions: These results are in good accordance with those obtained previously with PEG DNA LNCs in a human melanoma mouse model and highlight the potential use of GAL DNA MMS DOSP and PEG DNA LNCs as future therapeutics in glioma and other cancers., (Copyright © 2012 John Wiley & Sons, Ltd.)

Published

2012

34. siRNA LNCs--a novel platform of lipid nanocapsules for systemic siRNA administration.

Author

David S, Resnier P, Guillot A, Pitard B, Benoit JP, and Passirani C

Subjects

Cations chemistry, Chemistry, Pharmaceutical methods, Drug Administration Routes, Drug Carriers chemistry, Lipids chemistry, Particle Size, Nanocapsules chemistry, RNA, Small Interfering administration & dosage, RNA, Small Interfering chemistry

Abstract

Several siRNA (small interfering RNA) therapeutics are undergoing clinical trials for cancer, respiratory diseases or macular degeneration, but most are administrated locally. In order to overcome the different barriers to attain an efficient siRNA action after systemic administration, nanocarriers able to carry and protect siRNA are awaited. With this aim, we developed a new platform of siRNA lipid nanocapsules (LNCs) using different cationic lipids, combining the properties of LNCs (siRNA protection and targeting) and lipoplexes (efficient siRNA delivery into the cell). The formulation was revealed to contain different compartments. A siRNA quantification method based on UV spectroscopy was developed to locate and quantify siRNA in each compartment. All in all, these novel siRNA LNCs presented sizes of about 55 nm with a neutral surface charge and siRNA encapsulation efficiencies up to 65% representing appropriate characteristics for systemic administration., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

35. DNA/amphiphilic block copolymer nanospheres reduce asthmatic response in a mouse model of allergic asthma.

Author

Beilvert F, Tissot A, Langelot M, Mével M, Chatin B, Lair D, Magnan A, and Pitard B

Subjects

Animals, Asthma immunology, Disease Models, Animal, Humans, Injections, Intramuscular, Mice, Mice, Inbred BALB C, Nanospheres administration & dosage, Antigens, Dermatophagoides genetics, Arthropod Proteins genetics, Asthma therapy, Cysteine Endopeptidases genetics, Nanospheres therapeutic use, Polymers administration & dosage

Abstract

Asthma is a chronic, inflammatory, respiratory disease caused by an abnormal reactivity against allergens. The most promising treatments for asthma are based on specific immunotherapies, but they lack efficiency and can induce deleterious side effects. Among new modalities of immunotherapy currently in development, DNA vaccination presents a promising approach, as it enables targeted immunotherapy in association with reduced allergenicity. We have developed an innovative, DNA-based vaccine against Dermatophagoides farinae 1 allergen (Der f 1), one of the allergens most commonly encountered by asthma patients in Europe. Intramuscular administration of a Der f 1-encoding plasmid formulated with the block copolymer 704 in healthy mice induced a strong humoral and cellular response with a pro-helper T cell type 1 bias. Administration of the same formulation in asthmatic mice, according to an early vaccination protocol, led to a reduction of airway hyperresponsiveness and a significant decrease in the level of inflammatory cytokines in the bronchoalveolar lavage of Der f 1-vaccinated mice.

Published

2012

36. Gene transfer by chemical vectors, and endocytosis routes of polyplexes, lipoplexes and lipopolyplexes in a myoblast cell line.

Author

Billiet L, Gomez JP, Berchel M, Jaffrès PA, Le Gall T, Montier T, Bertrand E, Cheradame H, Guégan P, Mével M, Pitard B, Benvegnu T, Lehn P, Pichon C, and Midoux P

Subjects

Animals, Caveolin 1 metabolism, Cell Death, Cell Line, Cell Survival, DNA metabolism, Green Fluorescent Proteins metabolism, Intracellular Space metabolism, Luciferases metabolism, Mice, Myoblasts cytology, Plasmids metabolism, Recombinant Fusion Proteins metabolism, Transfection, Transferrin metabolism, rab GTP-Binding Proteins metabolism, rab5 GTP-Binding Proteins metabolism, rab7 GTP-Binding Proteins, Endocytosis, Gene Transfer Techniques, Liposomes chemistry, Myoblasts metabolism, Polymers chemistry

Abstract

Chemical vectors are widely developed for providing safe DNA delivery systems. It is well admitted that their endocytosis and intracellular trafficking are critical for the transfection efficiency. Here, we have compared the endocytic pathways of lipoplexes, polyplexes and lipopolyplexes formed with carriers of various chemical compositions. Engineered C2C12 mouse myoblast cells expressing Rab5-EGFP, Rab7-EGFP or Cav1-GFP were used to monitor the location of the plasmid DNA into the endocytic compartments by real time fluorescence confocal microscopy. We observed that (i) DNA complexes made with dioleyl succinyl paromomycin:O,O-dioleyl-N-histamine phosphoramidate (DOSP/MM27) liposomes or histidinylated lPEI (His-lPEI) allowing the highest transfection efficiency displayed a positive ζ potential and were internalized by clathrin-mediated endocytosis, (ii) DOSP/MM27 lipoplexes were 6-times more internalized than His-lPEI polyplexes, (iii) all negatively charged DNA complexes lead to less efficient transfection and entered the cells via caveolae and (iv) lipopolyplexes allowing high transfection efficiency were weakly internalized via caveolae. Our results indicate that the transfection efficiency is better correlated with the nature of the endocytic pathway than with the uptake efficacy. This study shows also that engineered cells expressing specific fluorescent compartments are convenient tools to monitor endocytosis of a fluorescent plasmid DNA by real time fluorescence confocal microscopy., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

37. Paromomycin and neomycin B derived cationic lipids: synthesis and transfection studies.

Author

Mével M, Sainlos M, Chatin B, Oudrhiri N, Hauchecorne M, Lambert O, Vigneron JP, Lehn P, Pitard B, and Lehn JM

Subjects

Animals, Anti-Bacterial Agents chemistry, Cholesterol chemistry, Female, Framycetin chemistry, Genes, Reporter genetics, Green Fluorescent Proteins genetics, HEK293 Cells, HeLa Cells, Humans, Mice, Mice, Inbred BALB C, Oleic Acids administration & dosage, Oleic Acids chemistry, Paromomycin chemistry, Transfection methods, Anti-Bacterial Agents administration & dosage, Cholesterol administration & dosage, Framycetin administration & dosage, Paromomycin administration & dosage

Abstract

Cationic lipid-based nonviral gene delivery is an attractive approach for therapeutic gene transfer. Basically, gene transfection can be achieved by using synthetic vectors that compact DNA, forming cationic lipoplexes which can interact with the cell plasma membrane by electrostatic interactions. Among the basic components of any cationic lipid, the type of cationic headgroup has been shown to have a major role in transfection efficiency. We have previously reported the DNA transfection potential of vectors characterized by a kanamycin A headgroup. The encouraging transfection results obtained with these compounds prompted us to evaluate the potential of cationic lipids bearing headgroups based on other aminoglycosides. Thus, we herein report the synthesis and gene transfection properties of novel cationic lipids consisting of cholesteryl or dioleyl moieties linked, via various spacers, to paromomycin or neomycin B headgroups. Our results confirm that these new aminoglycoside-based cationic lipids are efficient for gene transfection both in vitro and into the mouse airways in vivo. We also investigated physico-chemical properties of the DNA complexes formed by this particular type of synthetic vectors in order to better understand their structure-activity relationships., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

38. In vivo imaging of DNA lipid nanocapsules after systemic administration in a melanoma mouse model.

Author

David S, Carmoy N, Resnier P, Denis C, Misery L, Pitard B, Benoit JP, Passirani C, and Montier T

Subjects

Animals, Benzothiazoles administration & dosage, Benzothiazoles metabolism, Carbocyanines administration & dosage, Carbocyanines chemistry, Carbocyanines metabolism, Carbocyanines pharmacokinetics, Electrophoresis, Agar Gel, Fatty Acids, Monounsaturated chemistry, Female, Fluorescent Dyes administration & dosage, Fluorescent Dyes chemistry, Fluorescent Dyes metabolism, Fluorescent Dyes pharmacokinetics, Ganciclovir therapeutic use, Glycerol analogs & derivatives, Glycerol chemistry, Herpes Simplex enzymology, Herpes Simplex genetics, Humans, Luciferases genetics, Luciferases metabolism, Melanoma, Experimental metabolism, Melanoma, Experimental pathology, Melanoma-Specific Antigens metabolism, Mice, Mice, Nude, Octoxynol chemistry, Oleic Acids chemistry, Particle Size, Phosphatidylethanolamines chemistry, Plasmids administration & dosage, Plasmids genetics, Polyethylene Glycols chemistry, Quaternary Ammonium Compounds chemistry, Static Electricity, Stearic Acids chemistry, Surface Properties, Thymidine Kinase genetics, Tissue Distribution, Treatment Outcome, Triglycerides chemistry, Xenograft Model Antitumor Assays, DNA administration & dosage, Gene Transfer Techniques, Genes, Transgenic, Suicide genetics, Lipids chemistry, Melanoma, Experimental therapy, Molecular Imaging methods, Nanocapsules chemistry

Abstract

The biodistribution of intravenously injected DNA lipid nanocapsules (DNA LNCs), encapsulating pHSV-tk, was analysed by in vivo imaging on an orthotopic melanoma mouse model and by a subsequent treatment with ganciclovir (GCV), using the gene-directed enzyme prodrug therapy (GDEPT) approach. Luminescent melanoma cells, implanted subcutaneously in the right flank of the mice, allowed us to follow tumour growth and tumour localisation with in vivo bioluminescence imaging (BLI). In parallel, DNA LNCs or PEG DNA LNCs (DNA LNCs recovered with PEG(2000)) encapsulating a fluorescent probe, DiD, allowed us to follow their biodistribution with in vivo biofluorescence imaging (BFI). The BF-images confirmed a prolonged circulation-time for PEG DNA LNCs as was previously observed on an ectotopic model of glioma; comparison with BL-images evidenced the colocalisation of PEG DNA LNCs and melanoma cells. After these promising results, treatment with PEG DNA LNCs and GCV on a few animals was performed and the treatment efficacy measured by BLI. The first results showed tumour growth reduction tendency and, once optimised, this therapy strategy could become a new option for melanoma treatment., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

39. Novel approach for the development of new antibodies directed against transposase-derived proteins encoded by human neogenes.

Author

Arnaoty A, Pitard B, Bateau B, Bigot Y, and Lecomte T

Subjects

Animals, Antibodies immunology, Base Sequence, Blotting, Western, Cloning, Molecular, DNA Transposable Elements immunology, HeLa Cells, Humans, Immune Sera, Immunization methods, Mice, Mice, Inbred BALB C, Nanospheres, Transposases immunology, DNA Transposable Elements genetics, Gene Transfer Techniques, Transposases genetics

Abstract

Molecular domestication of several DNA transposons has occurred during the evolution of the primate lineage, and has led to the emergence of at least 42 new genes known as neogenes. Because these genes are derived from transposons, they encode proteins that are related to certain recombinases, known as transposases. Consequently, they may make an important contribution to the genetic instability of some human cells. In order to investigate the role of these neogenes, we need to be able to study their expression as proteins, for example in tumours, which often provide good models of genetic instability. In order to perform such studies, polyclonal antibodies directed against the proteins expressed by neogenes are obtained using a recently developed new method of Nanospheres/DNA immunisation in laboratory mammals. In this chapter, we describe a fully integrated process of producing antibodies that consists of a series of steps starting with the preparation and synthetic formulation of plasmids encoding neogenes, and culminating in the final production and confirmation of the quality of these polyclonal antibodies.

Published

2012

40. Effect of fractalkine-Fc delivery in experimental lung metastasis using DNA/704 nanospheres.

Author

Richard-Fiardo P, Cambien B, Pradelli E, Beilvert F, Pitard B, Schmid-Antomarchi H, and Schmid-Alliana A

Subjects

Administration, Inhalation, Animals, Cell Line, Tumor, Drug Delivery Systems, Female, Gene Transfer Techniques, Humans, Immunotherapy, Lung Neoplasms genetics, Mice, Nanospheres, Neoplasm Metastasis, Plasmids administration & dosage, Plasmids genetics, Transfection, Chemokine CX3CL1 genetics, Genetic Therapy methods, Immunoglobulin Fragments genetics, Lung Neoplasms secondary, Lung Neoplasms therapy

Abstract

The lung is one target organ to which solid tumors frequently metastasize. Given the systemic adverse effects of currently available treatments, developing effective strategies of drug/gene delivery directly to the lungs is therefore needed. Aerosol delivery is a non-invasive gene transfer approach to target the airways. Here, we sought to evaluate the potential to deliver a fractalkine (FKN)-encoding plasmid formulated with the tetrafunctional amphiphilic block copolymer 704 through aerosolization in two models of pulmonary metastases. FKN is a chemokine recently described as a good candidate to stimulate a strong antitumor immune response in various forms of cancers. Here, we have assessed the effect of single and repeated aerosolizations of FKN-encoding plasmid formulated with 704 on the development of experimental lung metastases of mouse colon carcinoma and osteosarcoma. For this purpose, we have designed FKN-Fc sequences encoding an optimized version of the chemokine. Repeated intratracheal administrations of 704/FKN-Fc markedly inhibited growth of experimental lung metastases of CT-26 and K7M2 cells. Our results showed that tetrafunctional amphiphilic block copolymer 704 is a highly efficient synthetic vector for mediating local and safe gene transfer into the lung. In addition, FKN-Fc gene therapy of pulmonary nodules may provide a promising immunotherapeutic approach.

Published

2011

41. Evidence of DNA transfer across a model membrane by a neutral amphiphilic block copolymer.

Author

Huin C, Le Gall T, Barteau B, Pitard B, Montier T, Lehn P, Cheradame H, and Guégan P

Subjects

Animals, DNA chemistry, Female, Lipid Bilayers chemistry, Mice, Molecular Structure, DNA metabolism, Lipid Bilayers metabolism, Polyethylene Glycols chemistry, Polymers chemistry, Pyridines chemistry, Transfection

Abstract

Background: Neutral amphiphilic triblock copolymers have been shown to be efficient for gene transfection in vivo, especially by direct injection into the muscle. To contribute to a better understanding of the underlying mechanisms, in the present study, we investigated the properties of a poly(ethylene oxide-b-4-vinylpyridine) diblock copolymer as vector for nucleic acid transfer, with the particular aim of shedding some light on a possible mechanism explaining the internalization of DNA by the transfected cells., Methods: Complexation of plasmid DNA with the PEO-b-P4VP diblock copolymer was investigated by ethidium bromide exclusion and gel electrophoresis assays. Interaction of the copolymer with a lipid model membrane was evaluated by electrophysiological assays and quantification of plasmid DNA was performed by quantitative polymerase chain reaction. In vivo luciferase transfection assays were finally performed., Results: The diblock copolymer was found to poorly interact with DNA up to a mass ratio (copolymer/DNA) as high as 150. At a concentration of 36 µg/ml, it induced the formation of mainly transient (but sometimes permanent) pores and the formation of those pores allowed the translocation of plasmid DNA across the model membrane. However, only low transgene expression was obtained; the luciferase levels observed with the diblock being of the same order of magnitude as those observed with the corresponding PEO and P4VP homopolymers., Conclusions: These results strongly suggest that gene transfection by neutral block copolymers may involve the formation of cellular pores; in addition, they also highlight that in vivo gene transfection requires the use of adequately soluble block copolymers., (Copyright © 2011 John Wiley & Sons, Ltd.)

Published

2011

42. Tumor transfection after systemic injection of DNA lipid nanocapsules.

Author

Morille M, Passirani C, Dufort S, Bastiat G, Pitard B, Coll JL, and Benoit JP

Subjects

Animals, HEK293 Cells, Humans, Injections, Mice, Particle Size, Polyethylene Glycols chemistry, Surface Properties, DNA administration & dosage, Lipids administration & dosage, Nanocapsules administration & dosage, Neoplasms metabolism, Transfection methods

Abstract

With the goal of generating an efficient vector for systemic gene delivery, a new kind of nanocarrier consisting of lipid nanocapsules encapsulating DOTAP/DOPE lipoplexes (DNA LNCs) was pegylated by the post-insertion of amphiphilic and flexible polymers. The aim of this surface modification was to create a long-circulating vector, able to circulate in the blood stream and efficient in transfecting tumoral cells after passive targeting by enhanced permeability and retention effect (EPR effect). PEG conformation, electrostatic features, and hydrophylicity are known to be important factors able to influence the pharmacokinetic behaviour of vectors. In this context, the surface structure characteristics of the newly pegylated DNA LNCs were studied by measuring electrophoretic mobility as a function of ionic strength in order to establish a correlation between surface properties and in vivo performance of the vector. Finally, thanks to this PEGylation, gene expression was measured up to 84-fold higher in tumor compared to other tested organs after intravenous injection. The present results indicate that PEGylated DNA LNCs are promising carriers for an efficient cancer gene therapy., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

43. Amphiphilic block copolymers enhance the cellular uptake of DNA molecules through a facilitated plasma membrane transport.

Author

Chèvre R, Le Bihan O, Beilvert F, Chatin B, Barteau B, Mével M, Lambert O, and Pitard B

Subjects

Active Transport, Cell Nucleus, Animals, Biological Transport, Cell Line, Cell Nucleus metabolism, Cytoplasm metabolism, Endosomes metabolism, Endosomes ultrastructure, Female, Genes, Reporter, Humans, Lipids chemistry, Mice, Microscopy, Electron, Transmission, Muscle Cells metabolism, Plasmids genetics, Promoter Regions, Genetic, Transgenes, Cell Membrane metabolism, DNA metabolism, Polyethylene Glycols chemistry, Transfection

Abstract

Amphiphilic block copolymers have been developed recently for their efficient, in vivo transfection activities in various tissues. Surprisingly, we observed that amphiphilic block copolymers such as Lutrol® do not allow the transfection of cultured cells in vitro, suggesting that the cell environment is strongly involved in their mechanism of action. In an in vitro model mimicking the in vivo situation we showed that pre-treatment of cells with Lutrol®, prior to their incubation with DNA molecules in the presence of cationic lipid, resulted in higher levels of reporter gene expression. We also showed that this improvement in transfection efficiency associated with the presence of Lutrol® was observed irrespective of the plasmid promoter. Considering the various steps that could be improved by Lutrol®, we concluded that the nucleic acids molecule internalization step is the most important barrier affected by Lutrol®. Microscopic examination of transfected cells pre-treated with Lutrol® confirmed that more plasmid DNA copies were internalized. Absence of cationic lipid did not impair Lutrol®-mediated DNA internalization, but critically impaired endosomal escape. Our results strongly suggest that in vivo, Lutrol® improves transfection by a physicochemical mechanism, leading to cellular uptake enhancement through a direct delivery into the cytoplasm, and not via endosomal pathways.

Published

2011

44. Probing the in vitro mechanism of action of cationic lipid/DNA lipoplexes at a nanometric scale.

Author

Le Bihan O, Chèvre R, Mornet S, Garnier B, Pitard B, and Lambert O

Subjects

Cell Line, Tumor, Cholesterol chemistry, Endosomes ultrastructure, Humans, Microscopy, Electron, Transmission, Nanoparticles ultrastructure, Paromomycin chemistry, Cholesterol analogs & derivatives, DNA chemistry, Guanidines chemistry, Nanoparticles chemistry, Paromomycin analogs & derivatives, Transfection

Abstract

Cationic lipids are used for delivering nucleic acids (lipoplexes) into cells for both therapeutic and biological applications. A better understanding of the identified key-steps, including endocytosis, endosomal escape and nuclear delivery is required for further developments to improve their efficacy. Here, we developed a labelling protocol using aminated nanoparticles as markers for plasmid DNA to examine the intracellular route of lipoplexes in cell lines using transmission electron microscopy. Morphological changes of lipoplexes, membrane reorganizations and endosomal membrane ruptures were observed allowing the understanding of the lipoplex mechanism until the endosomal escape mediated by cationic lipids. The study carried out on two cationic lipids, bis(guanidinium)-tris(2-aminoethyl)amine-cholesterol (BGTC) and dioleyl succinyl paramomycin (DOSP), showed two pathways of endosomal escape that could explain their different transfection efficiencies. For BGTC, a partial or complete dissociation of DNA from cationic lipids occurred before endosomal escape while for DOSP, lipoplexes remained visible within ruptured vesicles suggesting a more direct pathway for DNA release and endosome escape. In addition, the formation of new multilamellar lipid assemblies was noted, which could result from the interaction between cationic lipids and cellular compounds. These results provide new insights into DNA transfer pathways and possible implications of cationic lipids in lipid metabolism.

Published

2011

45. CCL5 neutralization restricts cancer growth and potentiates the targeting of PDGFRβ in colorectal carcinoma.

Author

Cambien B, Richard-Fiardo P, Karimdjee BF, Martini V, Ferrua B, Pitard B, Schmid-Antomarchi H, and Schmid-Alliana A

Subjects

Amides pharmacology, Animals, Antibodies, Neutralizing immunology, CHO Cells, Cell Movement drug effects, Cell Proliferation drug effects, Chemokine CCL5 metabolism, Colorectal Neoplasms drug therapy, Colorectal Neoplasms genetics, Cricetinae, Cricetulus, Disease Progression, Female, HT29 Cells, Humans, Leukocytes drug effects, Leukocytes immunology, Mice, Neoplasm Metastasis, Quaternary Ammonium Compounds pharmacology, Receptor, Platelet-Derived Growth Factor beta genetics, Receptors, CCR5 metabolism, Treatment Outcome, Chemokine CCL5 antagonists & inhibitors, Chemokine CCL5 immunology, Colorectal Neoplasms metabolism, Colorectal Neoplasms pathology, Molecular Targeted Therapy, Receptor, Platelet-Derived Growth Factor beta metabolism

Abstract

Increased CCL5 levels are markers of an unfavourable outcome in patients with melanoma, breast, cervical, prostate, gastric or pancreatic cancer. Here, we have assessed the role played by CCL5/CCR5 interactions in the development of colon cancer. To do so, we have examined a number of human colorectal carcinoma clinical specimens and found CCL5 and its receptors over-expressed within primary as well as liver and pulmonary metastases of patients compared to healthy tissues. In vitro, CCL5 increased the growth and migratory responses of colon cancer cells from both human and mouse origins. In addition, systemic treatment of mice with CCL5-directed antibodies reduced the extent of development of subcutaneous colon tumors, of liver metastases and of peritoneal carcinosis. Consistently, we found increased numbers of CD45-immunoreactive cells within the stroma of the remaining lesions as well as at the interface with the healthy tissue. In contrast, selective targeting of CCR5 through administration of TAK-779, a CCR5 antagonist, only partially compromised colon cancer progression. Furthermore, CCL5 neutralization rendered the tumors more sensitive to a PDGFRβ-directed strategy in mice, this combination regimen offering the greatest protection against liver metastases and suppressing macroscopic peritoneal carcinosis. Collectively, our data demonstrate the involvement of CCL5 in the pathogenesis of colorectal carcinoma and point to its potential value as a therapeutic target.

Published

2011

46. AFP-specific immunotherapy impairs growth of autochthonous hepatocellular carcinoma in mice.

Author

Cany J, Barteau B, Tran L, Gauttier V, Archambeaud I, Couty JP, Turlin B, Pitard B, Vassaux G, Ferry N, and Conchon S

Subjects

Animals, CD8-Positive T-Lymphocytes immunology, Cancer Vaccines pharmacology, Diethylnitrosamine toxicity, Female, Genetic Vectors, H-2 Antigens metabolism, Liver Neoplasms, Experimental chemically induced, Liver Neoplasms, Experimental immunology, Liver Neoplasms, Experimental pathology, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Vaccines, DNA pharmacology, alpha-Fetoproteins genetics, Immunotherapy, Active, Liver Neoplasms, Experimental therapy, alpha-Fetoproteins antagonists & inhibitors, alpha-Fetoproteins immunology

Abstract

Background and Aims: In this study, we have assessed the potential of antigen-specific immunotherapy against hepatocellular carcinoma (HCC) in conditions of low tumour burden, in an autochthonous HCC model., Methods: Diethylnitrosamine (DEN) injected into infant mice results in the development of multi-nodular HCC in which alpha-fetoprotein (AFP) is re-expressed. DEN-injected animals received an antigen-specific immunization with a synthetic vector consisting of a low dose of AFP-encoding plasmid formulated with the amphiphilic block copolymer 704 (DNAmAFP/704). Animals were treated at 4 and 5 months, before macroscopic nodules were detected, and were sacrificed at 8 months. The tumour burden, as well as liver histology, was assessed. AFP and MHC class I molecule expression in the nodules were monitored by qRT-PCR., Results: The AFP-specific immunotherapy led to a significant (65%) reduction in tumour size. The reduced expression of AFP and MHC class I molecules was measured in the remaining nodules taken from the DNAmAFP/704-treated group., Conclusions: This is the first study demonstrating the relevance of antigen-specific immunotherapy in an autochthonous HCC model. In this context, we validated the use of an anti-tumour immunotherapy based on vaccination with nanoparticles consisting of low dose antigen-encoding DNA formulated with a block copolymer. Our results demonstrate the potential of this strategy as adjuvant immunotherapy to reduce the recurrence risk after local treatment of HCC patients., (Copyright © 2010 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.)

Published

2011

47. Non-viral nanosystems for systemic siRNA delivery.

Author

David S, Pitard B, Benoît JP, and Passirani C

Subjects

Animals, Drug Carriers chemistry, Humans, Nanostructures chemistry, RNA Interference, RNA, Small Interfering administration & dosage

Abstract

To use siRNA (small interfering ribonucleic acids) for systemic administration, a delivery system is often necessary to overcome barriers between administration and the target sites. These delivery systems require different properties to be efficient. On the one hand, they have to protect siRNA from degradation and/or inactivation and, on the other hand, they have themselves to be stable in blood and possess stealth properties to avoid elimination and degradation. Active and/or passive targeting should help the delivery system to reach the desired cell type or tissue, to be internalised, and to deliver siRNA to the cytoplasm so that siRNA can act by RNA interference and inhibit protein synthesis. This review presents an overview of different non-viral delivery systems, which have been evaluated in vivo or entered in clinical trials, with a focus on their physicochemical properties in order to help the development of new and efficient siRNA delivery systems, as the therapeutic solutions of tomorrow., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published

2010

48. Nature as a source of inspiration for cationic lipid synthesis.

Author

Labas R, Beilvert F, Barteau B, David S, Chèvre R, and Pitard B

Subjects

Animals, Biomimetic Materials chemistry, Cell Membrane chemistry, Humans, Hydrophobic and Hydrophilic Interactions, Lipids chemistry, Nature, Biomimetic Materials chemical synthesis, Biomimetic Materials metabolism, Lipid Metabolism, Lipids chemical synthesis, Transfection methods

Abstract

Synthetic gene delivery systems represent an attractive alternative to viral vectors for DNA transfection. Cationic lipids are one of the most widely used non-viral vectors for the delivery of DNA into cultured cells and are easily synthesized, leading to a large variety of well-characterized molecules. This review discusses strategies for the design of efficient cationic lipids that overcome the critical barriers of in vitro transfection. A particular focus is placed on natural hydrophilic headgroups and lipophilic tails that have been used to synthesize biocompatible and non-toxic cationic lipids. We also present chemical features that have been investigated to enhance the transfection efficiency of cationic lipids by promoting the escape of lipoplexes from the endosomal compartment and DNA release from DNA-liposome complexes. Transfection efficiency studies using these strategies are likely to improve the understanding of the mechanism of cationic lipid-mediated gene delivery and to help the rational design of novel cationic lipids.

Published

2010

49. Long-circulating DNA lipid nanocapsules as new vector for passive tumor targeting.

Author

Morille M, Montier T, Legras P, Carmoy N, Brodin P, Pitard B, Benoît JP, and Passirani C

Subjects

Animals, Cell Death, Cell Line, Complement System Proteins immunology, DNA administration & dosage, DNA pharmacokinetics, Humans, Injections, Intravenous, Kinetics, Lipids administration & dosage, Lipids pharmacokinetics, Macrophages cytology, Macrophages metabolism, Mice, Mice, Nude, Microscopy, Fluorescence, Nanocapsules administration & dosage, Particle Size, Phosphatidylethanolamines chemistry, Surface Properties, Time Factors, Tissue Distribution, DNA blood, Gene Transfer Techniques, Genetic Vectors genetics, Lipids blood, Nanocapsules chemistry, Neoplasms therapy

Abstract

Systemic gene delivery systems are needed for therapeutic application to organs that are inaccessible by percutaneous injection. Currently, the main objective is the development of a stable and non-toxic vector that can encapsulate and deliver foreign genetic material to target cells. To this end, DNA, complexed with cationic lipids i.e. DOTAP/DOPE, was encapsulated into lipid nanocapsules (LNCs) leading to the formation of stable nanocarriers (DNA LNCs) with a size inferior to 130 nm. Amphiphilic and flexible poly (ethylene glycol) (PEG) polymer coatings [PEG lipid derivative (DSPE-mPEG(2000)) or F108 poloxamer] at different concentrations were selected to make DNA LNCs stealthy. Some of these coated lipid nanocapsules were able to inhibit complement activation and were not phagocytized in vitro by macrophagic THP-1 cells whereas uncoated DNA LNCs accumulated in the vacuolar compartment of THP-1 cells. These results correlated with a significant increase of in vivo circulation time in mice especially for DSPE-mPEG(2000) 10 mm and an early half-life time (t(1/2) of distribution) 5-fold greater than for non-coated DNA LNCs (7.1 h vs 1.4 h). Finally, a tumor accumulation assessed by in vivo fluorescence imaging system was evidenced for these coated LNCs as a passive targeting without causing any hepatic damage.

Published

2010

50. Trafficking-deficient long QT syndrome mutation KCNQ1-T587M confers severe clinical phenotype by impairment of KCNH2 membrane localization: evidence for clinically significant IKr-IKs alpha-subunit interaction.

Author

Biliczki P, Girmatsion Z, Brandes RP, Harenkamp S, Pitard B, Charpentier F, Hébert TE, Hohnloser SH, Baró I, Nattel S, and Ehrlich JR

Subjects

Analysis of Variance, Animals, CHO Cells, Canada, Cell Line, Cricetinae, Cricetulus, Death, Sudden, Cardiac pathology, Guinea Pigs, Humans, Microscopy, Confocal, Mutation, Missense, Myocytes, Cardiac physiology, Phenotype, Torsades de Pointes genetics, Transfection, Ether-A-Go-Go Potassium Channels genetics, KCNQ1 Potassium Channel genetics, Long QT Syndrome genetics

Abstract

Background: KCNQ1-T587M is a trafficking-deficient long QT syndrome (LQTS) missense mutation. Affected patients exhibit severe clinical phenotypes that are not explained by the mutant's effects on I(Ks). Previous work showed a KCNH2 and KCNQ1 alpha-subunit interaction that increases KCNH2 membrane localization and function., Objective: We hypothesized that failure of trafficking-deficient KCNQ1-T587M to enhance KCNH2 membrane expression could reduce KCNH2 current versus wild-type KCNQ1 (KCNQ1-WT), contributing to the LQTS phenotype of KCNQ1-T587M carriers., Methods: Patch-clamp, protein biochemical studies, confocal imaging, and in vivo transfection of guinea pig cardiomyocytes were performed., Results: KCNQ1-T587M failed to generate functional current when coexpressed with KCNE1 and caused haploinsufficiency when coexpressed with KCNQ1-WT/KCNE1. Coexpression of KCNQ1-WT with KCNH2 increased I(KCNH2) versus KCNH2 alone (P <.05). Immunoblots and confocal microscopy indicated increased plasma membrane localization of KCNH2 alpha-subunits in cells cotransfected with KCNQ1-WT plasmid, while total KCNH2 protein synthesis and KCNH2 glycosylation remained unaffected, which suggests a chaperone effect of KCNQ1-WT to enhance the membrane localization of KCNH2. KCNH2 also coimmunoprecipitated with KCNQ1-WT. Although KCNQ1-T587M coprecipitated with KCNH2, the mutant was retained intracellularly and failed to increase KCNH2 membrane localization, abolishing the KCNQ1-WT chaperone function and reducing I(KCNH2) upon coexpression substantially compared with coexpression with KCNQ1-WT (P <.05). In vivo transfection of KCNQ1-T587M in guinea pigs suppressed I(Kr) in isolated cardiomyocytes., Conclusion: The trafficking-deficient LQTS mutation KCNQ1-T587M fails to show the chaperoning function that enhances KCNH2 membrane localization with KCNQ1-WT. This novel mechanism results in reduced I(KCNH2), which would be expected to decrease repolarization reserve and synergize with reduced I(KCNQ1) caused directly by the mutation, potentially explaining the malignant clinical phenotype in affected patients.

Published

2009