Maria Ferrantini scite author profile

Ideal vaccines should be stable, safe, molecularly defined, and out-of-shelf reagents efficient at triggering effector and memory Ag-specific T cell-based immune responses. Dendritic cell-derived exosomes could be considered as novel peptide-based vaccines because exosomes harbor a discrete set of proteins, bear functional MHC class I and II molecules that can be loaded with synthetic peptides of choice, and are stable reagents that were safely used in pioneering phase I studies. However, we showed in part I that exosomes are efficient to promote primary MHC class I-restricted effector CD8+ T cell responses only when transferred onto mature DC in vivo. In this work, we bring evidence that among the clinically available reagents, Toll-like receptor 3 and 9 ligands are elective adjuvants capable of triggering efficient MHC-restricted CD8+ T cell responses when combined to exosomes. Exosome immunogenicity across species allowed to verify the efficacy of good manufactory procedures-manufactured human exosomes admixed with CpG oligonucleotides in prophylactic and therapeutic settings of melanoma in HLA-A2 transgenic mice. CpG adjuvants appear to be ideal adjuvants for exosome-based cancer vaccines.

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Interferon-alpha in tumor immunity and immunotherapy

Belardelli

Ferrantini

Proietti

et al. 2002

Cytokine & Growth Factor Reviews

315

200

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Interferon-α and cancer: Mechanisms of action and new perspectives of clinical use

2007

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Cytokines as a link between innate and adaptive antitumor immunity

2002

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IFN-α enhances cross-presentation in human dendritic cells by modulating antigen survival, endocytic routing, and processing

et al. 2012

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IntroductionOver the past years, it has become apparent that type-I interferons (IFNs) affect adaptive immunity through their effects on monocytes. In particular, IFN-␣ has been shown to act as a potent inducer of the rapid differentiation of human monocytes into highly activated and partially mature dendritic cells (DCs), known as IFN-DCs. 1 We demonstrated previously that human monocytes exposed to granulocyte macrophage colony-stimulating factor (GM-CSF) and IFN-␣ are rapidly induced to express a set of membrane molecules involved in antigen (Ag) presentation and T-cell costimulation, as well as to strongly promote T helper (Th)-1 response and CD8 ϩ T cell cross-priming. 2 Moreover, IFN-DCs were shown to cross-present very efficiently low amounts of nonstructural-3 protein (NS3) of hepatitis C virus (HCV) to a specific CD8 ϩ T cell clone, even in the absence of CD4 ϩ T-cell help. 2 The cross-presentation efficiency of DCs is not dictated solely by their Ag capture capability 3 ; it also is affected by critical factors such as (1) the route of Ag uptake, (2) acidification-sensitive Ag degradation in endosomal-lysosomal compartments, and (3) Ag entry into the major histocompatibility complex class-I (MHC-I) pathway. [4][5][6][7][8] At present, 4 nonmutually exclusive models have been proposed to explain cross-presentation. [8][9][10] In the canonical cytosolic pathway, endocytosed Ags are translocated into the cytosol, where they are degraded by the proteasome, and then the antigenic peptides are transported into the lumen of the endoplasmic reticulum (ER) by the transporters associated with Ag processing (TAPs), 9,10 or alternatively, reimported from the cytoplasm into the early endosomes and loaded onto endosomal 12 According to a less well-defined TAP-and proteasomeindependent endosomal pathway, Ags can be processed by endosomal proteases and loaded onto MHC-I molecules directly within early and late endosomes and lysosomes. [13][14][15] An additional model involves the delivery of components of the ER to endocytic organelles or the transport of incoming Ags to the ER. [16][17][18] Here, we have investigated the mechanisms underlying the superior efficiency of IFN-DCs in the cross-presentation of soluble proteins, by studying (1) the Ag uptake and trafficking to the class-I processing pathway, (2) the maturation kinetic of the organelles containing the internalized proteins, (3) the Ag stability within endosomes, and (4) the Ag processing and cross-presentation to specific CD8 ϩ T cells. The results reveal that IFN-DCs exhibit a delayed endosomal acidification associated with a prolonged Ag survival and retention in the early endosomal compartment, as well as with Ag trafficking to recycling pathways. In IFN-DCs, both early and recycling endosomal compartments serve as important stores of MHC-I molecules, allowing rapid presentation of exogenous Ags. These findings provide novel mechanistic insight into the cross-presentation efficiency of IFN-DCs and underscore the potential advantage of using these cellula...

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