Camille Malosse
Aix-Marseille University
7 Papers
5 Citations
Camille Malosse is an academic researcher from Aix-Marseille University. The author has contributed to research in topics: T cell & Inflammation. The author has an hindex of 5, co-authored 7 publications. Previous affiliations of Camille Malosse include French Institute of Health and Medical Research & Centre national de la recherche scientifique.
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Papers
Origins and Functional Specialization of Macrophages and of Conventional and Monocyte-Derived Dendritic Cells in Mouse Skin
Samira Tamoutounour,Samira Tamoutounour,Samira Tamoutounour,Martin Guilliams,Frédéric Montanana Sanchis,Frédéric Montanana Sanchis,Frédéric Montanana Sanchis,Hong Liu,Dorothea Terhorst,Dorothea Terhorst,Dorothea Terhorst,Camille Malosse,Camille Malosse,Camille Malosse,Emeline Pollet,Emeline Pollet,Emeline Pollet,Laurence Ardouin,Laurence Ardouin,Laurence Ardouin,Hervé Luche,Hervé Luche,Hervé Luche,Cindy Sanchez,Cindy Sanchez,Cindy Sanchez,Marc Dalod,Marc Dalod,Marc Dalod,Bernard Malissen,Bernard Malissen,Bernard Malissen,Sandrine Henri,Sandrine Henri,Sandrine Henri +34 more
TL;DR: A high degree of functional specialization occurs among the mononuclear phagocytes of the skin when monocyte-derived DCs are continuously generated by extravasated Ly-6C(hi) monocytes.
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Unveiling skin macrophage dynamics explains both tattoo persistence and strenuous removal
Anna Baranska,Alaa Shawket,Mabel Jouve,Myriam Baratin,Camille Malosse,Odessa Voluzan,Thien Phong Vu Manh,Frédéric Di Fiore,Marc Bajénoff,Philippe Benaroch,Marc Dalod,Marie Malissen,Sandrine Henri,Bernard Malissen +13 more
TL;DR: A new mouse model that exploits the pattern of expression of the high-affinity IgG receptor (CD64) and allows diphtheria toxin (DT)–mediated ablation of tissue-resident macrophages and monocyte-derived cells is described and it is demonstrated that tattoo pigment particles can undergo successive cycles of capture–release–recapture without any tattoo vanishing.
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Dynamics and Transcriptomics of Skin Dendritic Cells and Macrophages in an Imiquimod-Induced, Biphasic Mouse Model of Psoriasis.
Dorothea Terhorst,Rabie Chelbi,Christian Wohn,Camille Malosse,Samira Tamoutounour,Audrey Jorquera,Marc Bajénoff,Marc Dalod,Bernard Malissen,Sandrine Henri +9 more
TL;DR: Genetic depletion of LCs permitted to evaluate their function during both phases of the biphasic psoriasis-like model and demonstrated that their absence resulted in a late phase that is associated with enhanced neutrophil infiltration, which supports an anti-inflammatory role of Langerhans cells during the course of psorasis-like inflammation.
Laser-Assisted Intradermal Delivery of Adjuvant-Free Vaccines Targeting XCR1+ Dendritic Cells Induces Potent Antitumoral Responses
Dorothea Terhorst,Even Fossum,Anna Baranska,Samira Tamoutounour,Camille Malosse,Mattia Garbani,Reinhard Braun,Elmira Lechat,Reto Crameri,Bjarne Bogen,Sandrine Henri,Sandrine Henri,Sandrine Henri,Bernard Malissen,Bernard Malissen,Bernard Malissen +15 more
TL;DR: The existence of functionally equivalent X CR1+ dermal DCs in humans should permit the translation of laser-assisted intradermal delivery of a tumor-specific vaccine targeting XCR1+ DCs to human cancer immunotherapy, and facilitate the development of safer vaccines.
Using gold nanoparticles for enhanced intradermal delivery of poorly soluble auto-antigenic peptides
Ravinder K. Singh,Camille Malosse,Joanne Davies,Bernard Malissen,Efrat Kochba,Yotam Levin,James Caradoc Birchall,Sion Coulman,Jan Mous,Martina A. McAteer,Colin M. Dayan,Sandrine Henri,F. Susan Wong +12 more
TL;DR: It is demonstrated that intradermally administered ultra-small gold nanoparticles can widen the distribution of poorly-soluble auto-antigenic peptides to multiple lymphoid organs, thus enhancing their use as potential therapeutics.
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