Your search keyword '"Julithe, Marion"' showing total 3 results

1. Strong antigen-specific T-cell immunity induced by a recombinant human TERT measles virus vaccine and amplified by a DNA/viral vector prime boost in IFNAR/CD46 mice.

Author

Pliquet, Elodie, Ruffie, Claude, Escande, Marie, Thalmensi, Jessie, Najburg, Valérie, Combredet, Chantal, Bestetti, Thomas, Julithe, Marion, Liard, Christelle, Huet, Thierry, Wain-Hobson, Simon, Tangy, Frédéric, and Langlade-Demoyen, Pierre

Subjects

MEASLES virus, MEASLES vaccines, VIRAL vaccines, DNA vaccines, RECOMBINANT DNA

Abstract

Cancer immunotherapy is seeing an increasing focus on vaccination with tumor-associated antigens (TAAs). Human telomerase (hTERT) is a TAA expressed by most tumors to overcome telomere shortening. Tolerance to hTERT can be easily broken both naturally and experimentally and hTERT DNA vaccine candidates have been introduced in clinical trials. DNA prime/boost strategies have been widely developed to immunize efficiently against infectious diseases. We explored the use of a recombinant measles virus (MV) hTERT vector to boost DNA priming as recombinant live attenuated measles virus has an impressive safety and efficacy record. Here, we show that a MV-TERT vector can rapidly and strongly boost DNA hTERT priming in MV susceptible IFNAR/CD46 mouse models. The cellular immune responses were Th1 polarized. No humoral responses were elicited. The 4 kb hTERT transgene did not impact MV replication or induction of cell-mediated responses. These findings validate the MV-TERT vector to boost cell-mediated responses following DNA priming in humans. [ABSTRACT FROM AUTHOR]

Published

2019

2. Long-term maintenance of skin immune system in a NOD-Scid IL2r γnull mouse model transplanted with human skin.

Author

Soria, Angèle, Boccara, David, Chonco, Louis, Yahia, Nora, Dufossée, Mélody, Cardinaud, Sylvain, Moris, Arnaud, Liard, Christelle, Joulin‐Giet, Alix, Julithe, Marion, Mimoun, Maurice, Combadière, Béhazine, and Perrin, Hélène

Subjects

IMMUNE system, INTERLEUKIN-2 receptors, IMMUNODEFICIENCY, T cells, SKIN diseases, ALLERGIES, LABORATORY mice

Abstract

We developed a NOD-Scid IL2rγnull mouse model transplanted with human skin that brings fundamental insight on in vivo cellular mechanisms of intradermal immunization and antigen presentation by dermal dendritic and epidermal Langerhans cells for skin T-cell immunity. Indeed, T-cell immunity is a crucial checkpoint for the induction of in vivo rapid control of skin infection. With the long-term preservation of a complete human skin immune system, this model offers the unique opportunity not only to better understand mechanisms of skin immune response but also to test new compounds and devices for cutaneous routes of vaccination, as well as new therapeutics approach for skin diseases, allergies or infections. [ABSTRACT FROM AUTHOR]

Published

2014

3. Anticancer DNA vaccine based on human telomerase reverse transcriptase generates a strong and specific T cell immune response.

Author

Thalmensi, Jessie, Pliquet, Elodie, Liard, Christelle, Escande, Marie, Bestetti, Thomas, Julithe, Marion, Kostrzak, Anna, Pailhes-Jimenez, Anne-Sophie, Bourges, Emanuèle, Loustau, Maria, Caumartin, Julien, Lachgar, Abderrahim, Huet, Thierry, Wain-Hobson, Simon, and Langlade-Demoyen, Pierre

Subjects

ANTINEOPLASTIC agents, DNA vaccines, TELOMERASE reverse transcriptase, T cells, IMMUNE response, TUMOR growth

Abstract

Human telomerase reverse transcriptase (hTERT) is overexpressed in more than 85% of human cancers regardless of their cellular origin. As immunological tolerance to hTERT can be overcome not only spontaneously but also by vaccination, it represents a relevant universal tumor associated antigen (TAA). Indeed, hTERT specific cytotoxic T lymphocyte (CTL) precursors are present within the peripheral T-cell repertoire. Consequently, hTERT vaccine represents an attractive candidate for antitumor immunotherapy. Here, an optimized DNA plasmid encoding an inactivated form of hTERT, named INVAC-1, was designed in order to trigger cellular immunity against tumors. Intradermal injection of INVAC-1 followed by electrogene transfer (EGT) in a variety of mouse models elicited broad hTERT specific cellular immune responses including high CD4+Th1 effector and memory CD8+T‑cells. Furthermore, therapeutic INVAC‑1 immunization in a HLA-A2 spontaneous and aggressive mouse sarcoma model slows tumor growth and increases survival rate of 50% of tumor-bearing mice. These results emphasize that INVAC-1 based immunotherapy represents a relevant cancer vaccine candidate. [ABSTRACT FROM PUBLISHER]

Published

2016