Winni De Haes scite author profile

The use of DNA and viral vector-based vaccines for the induction of cellular immune responses is increasingly gaining interest. However, concerns have been raised regarding the safety of these immunization strategies. Due to the lack of their genome integration, mRNA-based vaccines have emerged as a promising alternative. In this study, we evaluated the potency of antigen-encoding mRNA complexed with the cationic lipid 1,2-dioleoyl-3trimethylammonium-propane/1,2-dioleoyl-sn-glycero-3-phosphoethanolamine (DOTAP/DOPE ) as a novel vaccination approach. We demonstrate that subcutaneous immunization of mice with mRNA encoding the HIV-1 antigen Gag complexed with DOTAP/DOPE elicits antigen-specific, functional T cell responses resulting in specific killing of Gag peptide-pulsed cells and the induction of humoral responses. In addition, we show that DOTAP/DOPE complexed antigen-encoding mRNA displays immune-activating properties characterized by secretion of type I interferon (IFN) and the recruitment of proinflammatory monocytes to the draining lymph nodes. Finally, we demonstrate that type I IFN inhibit the expression of DOTAP/DOPE complexed antigen-encoding mRNA and the subsequent induction of antigen-specific immune responses. These results are of high relevance as they will stimulate the design and development of improved mRNA-based vaccination approaches.

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mRNA-based dendritic cell vaccination induces potent antiviral T-cell responses in HIV-1-infected patients

Gulck¹,

Vlieghe

Vekemans

et al. 2012

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Therapeutic immunization with dendritic cells was safe and successful in raising antiviral cellular immune responses, including effector CD8(+) T cells with virus inhibitory activity. The stimulation of those potent immunological and antiviral effects, which have been associated with control of HIV-1, underscores the potential of dendritic cell vaccination in the treatment of HIV-1. The incomplete nature of the response in some patients helped to identify potential targets for future improvement, that is increasing antigenic spectrum and enhancing T-cell response.

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Internalization of mRNA Lipoplexes by Dendritic Cells

et al. 2012

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Lipoplexes, composed of Lipofectamine and mRNA encoding HIV Gag protein, were shown to be internalized by dendritic cells (DCs) and promote antigen presentation to stimulate HIV-specific T cell responses. Using confocal microscopy, we showed that one-third of fluorescently labeled mRNA containing lipoplexes are colocalized with late endosomes. We further investigated the effect of inhibitors, blocking phagocytosis, macropinocytosis, and clathrin- and caveolae-mediated endocytosis, on both the internalization of the lipoplexes by DCs and the transfection efficiency. We observed that chloropromazine had no effect on the cellular uptake or transfection efficiency, excluding the involvement of clathrin-mediated endocytosis. Cytochalasin D, inhibiting macropinocytosis and phagocystosis, strongly reduced internalization (50%) of the lipoplexes as well as protein expression (70%). Amiloride, which should specifically block macropinocytosis, induced only a modest reduction of uptake and transfection. Genistein and dynasore induced a strong reduction of on the level of protein expression (>70%), but not the overall uptake. Our results indicate that transfection-effective mRNA lipoplex internalization by DCs, i.e., uptake that results in protein expression, preferentially proceeds by macropinocytosis and/or phagocytosis.

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Polyelectrolyte Capsules-containing HIV-1 p24 and Poly I:C Modulate Dendritic Cells to Stimulate HIV-1-specific Immune Responses

et al. 2010

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Polyelectrolyte microcapsules (MCs) are potent protein delivery vehicles which can be tailored with ligands to stimulate maturation of dendritic cells (DCs). We investigated the immune stimulatory capacity of monocyte-derived DC (Mo-DC) loaded with these MCs, containing p24 antigen from human immunodeficiency virus type 1 (HIV-1) alone [p24-containing MC (MCp24)] or with the Toll-like receptor ligand 3 (TLR3) ligand poly I:C (MCp24pIC) as a maturation factor. MO-DC, loaded with MCp24pIC, upregulated CCR7, CD80, CD83, and CD86 and produced high amounts of interleukin-12 (IL-12) cytokine, to a similar extent as MCp24 in the presence of an optimized cytokine cocktail. MO-DC from HIV-infected patients under highly active antiretroviral therapy (HAART) exposed to MCp24 together with cytokine cocktail or to MCp24pIC expanded autologous p24-specific CD4(+) and CD8(+) T-cell responses as measured by interferon-gamma (IFN-gamma) and IL-2 cytokine production and secretion. In vivo relevance was shown by immunizing C57BL/6 mice with MCp24pIC, which induced both humoral and cellular p24-specific immune responses. Together these data provide a proof of principle that both antigen and DC maturation signal can be delivered as a complex with polyelectrolyte capsules to stimulate virus-specific T cells both in vitro and in vivo. Polyelectrolyte MCs could be useful for in vivo immunization in HIV-1 and other infections.

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Rational design of HIV vaccine and microbicides: report of the EUROPRISE annual conference

Wahrén

Biswas²,

Borggren³

et al. 2010

J Transl Med

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EUROPRISE is a Network of Excellence sponsored from 2007 to 2011 by the European Commission within the 6th Framework Program. The Network encompasses a wide portfolio of activities ranging from an integrated research program in the field of HIV vaccines and microbicides to training, dissemination and advocacy. The research program covers the whole pipeline of vaccine and microbicide development from discovery to early clinical trials. The Network is composed of 58 partners representing more than 65 institutions from 13 European countries; it also includes three major pharmaceutical companies (GlaxoSmithKline, Novartis and Sanofi-Pasteur) involved in HIV microbicide and vaccine research. The Network displays a dedicated and informative web page: http://www.europrise.org. Finally, a distinguishing trait of EUROPRISE is its PhD School of students from across Europe, a unique example in the world of science aimed at spreading excellence through training.EUROPRISE held its second annual conference in Budapest in November, 2009. The conference had 143 participants and their presentations covered aspects of vaccine and microbicide research, development and discovery. Since training is a major task of the Network, the students of the EUROPRISE PhD program summarized certain presentations and their view of the conference in this paper.

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Winni De Haes

Type I IFN Counteracts the Induction of Antigen-Specific Immune Responses by Lipid-Based Delivery of mRNA Vaccines

mRNA-based dendritic cell vaccination induces potent antiviral T-cell responses in HIV-1-infected patients

Internalization of mRNA Lipoplexes by Dendritic Cells

Polyelectrolyte Capsules-containing HIV-1 p24 and Poly I:C Modulate Dendritic Cells to Stimulate HIV-1-specific Immune Responses

Rational design of HIV vaccine and microbicides: report of the EUROPRISE annual conference

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