Dendritic Cell Targeting mRNA Lipopolyplexes Combine Strong Antitumor T-Cell Immunity with Improved Inflammatory Safety

Jeught, Kevin Van der; Koker, Stefaan De; Bialkowski, Lukasz; Heirman, Carlo; Joe, Patrick Tjok; Perche, Federico; Maenhout, Sarah; Bevers, Sanne; Broos, Katrijn; Deswarte, Kim; Malard, Virginie; Hammad, Hamida; Baril, Patrick; Benvegnu, Thierry; Jaffrès, Paul‐Alain; Kooijmans, Sander A.A.; Schiffelers, Raymond M.; Lienenklaus, Stefan; Midoux, Patrick; Pichon, Chantal; Breckpot, Karine; Thielemans, Kris

doi:10.1021/acsnano.8b00966

Cited by 109 publications

(130 citation statements)

References 46 publications

(99 reference statements)

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“…Lipid-polymer hybrid nanoparticles, thanks to their structural design, can offer a series of benefits such as small size, high nucleic acid condensation efficiency, large functionalizable surface that can be easily modified by the binding of different functional groups, and prolonged blood circulation time (Guevara et al, 2019b). In addition, the specific physicochemical properties of hybrid lipid-polymer nanostructures can potentially result in a different interaction of the delivered mRNA with innate RNA sensors, consequently altering the immunogenicity and safety profile of lipopolyplex-based immunotherapies (Van der Jeught et al, 2018).…”

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

“…The above benefits of hybrid lipid-polymer formulations have been highlighted in a recent study were an mRNAloaded lipid-polymer platform functionalized with mannose receptor targeting moieties to promote dendritic cell (DC) targeting in vivo was employed (Van der Jeught et al, 2018). The formulation exhibited excellent hemocompatibility and the expression of the mRNA cargo was preferentially restricted to splenic antigen presenting cells (APCs) upon systemic administration.…”

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

“…The formulation exhibited excellent hemocompatibility and the expression of the mRNA cargo was preferentially restricted to splenic antigen presenting cells (APCs) upon systemic administration. Furthermore, vaccination with the lipopolyplex formulation elicited a potent T-cell-mediated immune response and manifested superior effectiveness in inhibiting tumor growth compared to intravenous immunization with a lipoplex-based mRNA vaccine (Van der Jeught et al, 2018). Early innate FIGURE 1 | Schematic representation of the different types of lipid-base nanovectors: lipoplex, lipid nanoparticle, lipid-polymer hybrid nanoparticle where the lipid shell can be organized as a bilayer or monolayer.…”

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

“…responses to hybrid lipid-polymer vaccine formulation were characterized by a type I interferon (IFN) response in the spleen. Nevertheless, unlike conventional lipoplexes, the hybrid lipidpolymer nanovaccine did not rely on type I IFN responses to generate cytotoxic T-cell effectors (Van der Jeught et al, 2018). This unlooked behavior of lipopolyplex nanostructures could enable the preparation of new anticancer therapeutic vaccines with a more moderate pro-inflammatory profile, but with an equal capacity to promote a potent immune response, representing a valid alternative to the lipid formulated mRNA vaccines currently under investigation in early phase clinical trials.…”

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

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Advances in Lipid Nanoparticles for mRNA-Based Cancer Immunotherapy

2020

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Over the past decade, messenger RNA (mRNA) has emerged as potent and flexible platform for the development of novel effective cancer immunotherapies. Advances in non-viral gene delivery technologies, especially the tremendous progress in lipid nanoparticles' manufacturing, have made possible the implementation of mRNA-based antitumor treatments. Several mRNA-based immunotherapies have demonstrated antitumor effect in preclinical and clinical studies, and marked successes have been achieved most notably by its implementation in therapeutic vaccines, cytokines therapies, checkpoint blockade and chimeric antigen receptor (CAR) cell therapy. In this review, we summarize recent advances in the development of lipid nanoparticles for mRNA-based immunotherapies and their applications in cancer treatment. Finally, we also highlight the variety of immunotherapeutic approaches through mRNA delivery and discuss the main factors affecting transfection efficiency and tropism of mRNA-loaded lipid nanoparticles in vivo.

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Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

Section: Lipid-based Nanoparticles For Mrna Delivery: Basic Formulatimentioning

confidence: 99%

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Advances in Lipid Nanoparticles for mRNA-Based Cancer Immunotherapy

2020

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“…lamellar versus hexagonal). For nucleic acids delivery, cationic amphiphiles [2,13,14] were evaluated for different purposes (lung transfection, [15,16] tendon healing, [17] cancer therapy, [18] anticancer vaccination [19][20][21] ) and the current developments offer news therapeutic perspectives. It must be emphasized that one of the interest of synthetic vectors, when compared to viral vectors, is that they can be produced on large scale and following simple purification processes.…”

Section: Introductionmentioning

confidence: 99%

Bis‐Thioether‐Containing Lipid Chains in Cationic Amphiphiles: Physicochemical Properties and Applications in Gene Delivery

et al. 2019

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Cationic amphiphiles featuring two thioether functions in each lipid chain of bicatenar cationic amphiphiles are herein reported for the first time. The physico-chemical properties and transfection abilities of these new amphiphiles were compared with those of already reported analogues featuring either (i) saturated, (ii) unsaturated or (iii) mono-thioether containing lipid chains. The homogeneity of the series of new compounds allowed to clearly underscore the effect of bis-thioether containing lipid chains. This study shows that besides previous strategies based on unsaturation or ramification, the incorporation of two thioether functions per lipid chain constitutes an original complementary alternative to tune the supramolecular properties of amphiphilic compounds. The potential of this strategy was evaluated in the context of gene delivery and report that two cationic amphiphiles (i.e. 4a and 4b) can be proposed as new efficient transfection reagents.

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