Your search keyword '"Ghislain Donald Njambe Priso"' showing total 2 results

1. In vivo targeting of protein antigens to dendritic cells using anti‐DEC‐205 single chain antibody improves HIV Gag specific CD4+ T cell responses protecting from airway challenge with recombinant vaccinia‐gag virus

Author

Loveline N. Ngu, Nadesh N. Nji, Georgia E. Ambada, Bertrand Sagnia, Carol Ngane Sake, Jules Colinc Tchadji, Ghislain Donald Njambe Priso, Abel Lissom, Thibau Flaurant Tchouangueu, Denis Manga Tebit, Alain Bopda Waffo, Chae Gyu Park, Ralph M. Steinman, Klaus Überla, and Godwin W. Nchinda

Subjects

Antigens, dendritic cells, immunization, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Introduction Targeting antigens to dendritic cells (DCs) in vivo via a DC‐restricted endocytic receptor, DEC205, has been validated to enhance immunity in several vaccine platforms. Particularly atttractive is selected delivery of proteins to DCs in vivo because it enables proteins to be more immunogenic and provides a cheaper and effective way for repeated immunizations. Methods In this study, we tested the efficacy of a single chain antibody to DEC205 (scDEC) to deliver protein antigens selectively to DCs in vivo and to induce protective immunity. Results In comparison to soluble Ovalbumin (OVA) antigen, when recombinant scDEC:OVA protein was injected subcutaneously (s.c.) into mice, the OVA protein was selectively presented by DCs to both TCR transgenic CD8+ and CD4+ T cells approximately 500 and 100 times more efficient than soluble OVA, respectively, and could persist for seven days following s.c. injection of the scDEC205:OVA. Similarly selective targeting of HIV Gag P24 to DCs in vivo using scDEC‐Gag protein plus polyICLC vaccine resulted in strong, long lasting, polyfuntional CD4+ T cells in mice which were protective against airway challenge by a recombinant vaccinia‐gag virus. Conclusion Thus targeting protein antigens to DCs using scDEC can be used either alone or in combination with other strategies for effective immunization.

Published

2019

2. Filaria specific antibody response profiling in plasma from anti-retroviral naïve Loa loa microfilaraemic HIV-1 infected people

Author

Ghislain Donald Njambe Priso, Abel Lissom, Loveline N. NGU, Nadesh N. Nji, Jules Colince Tchadji, Thibau Flaurant Tchouangueu, Georgia E. Ambada, Carole Stéphanie Sake Ngane, Brigitte Laure Dafeu, Larissa Djukouo, Inès Nyebe, Suzanne Magagoum, Apeh Alfred Ngoh, Ouambo Fotso Herve, Rosario Garcia, Anna Gutiérrez, Arinze S. Okoli, Charles O. Esimone, Flobert Njiokou, Chae Gyu Park, Alain Bopda Waffo, and Godwin W. Nchinda

Subjects

HIV-1, Loa loa, Microfilaraemia, Loaisis, African eye worm, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In West and Central Africa areas of endemic Loa loa infections overlap with regions of high prevalence of human immunodeficiency virus type 1 (HIV-1) infections. Because individuals in this region are exposed to filarial parasites from birth, most HIV-1 infected individuals invariably also have a history of filarial parasite infection. Since HIV-1 infection both depletes immune system and maintains it in perpetual inflammation, this can hamper Loa loa filarial parasite mediated immune modulation, leading to enhanced loaisis. Methods In this study we have assessed in plasma from asymptomatic anti-retroviral (ARV) naïve Loa loa microfilaraemic HIV-1 infected people the filarial antibody responses specific to a filariasis composite antigen consisting of Wbgp29-BmR1-BmM14-WbSXP. The antibody responses specific to the filariasis composite antigen was determined by enzyme linked immunosorbent assay (ELISA) in plasma from ARV naïve Loa loa microfilaraemic HIV-1 infected participants. In addition the filarial antigen specific IgG antibody subclass profiles were also determined for both HIV-1 positive and negative people. Results Both Loa loa microfilaraemic HIV-1 positive and negative individuals showed significantly higher plasma levels of IgG1 (P

Published

2018