OBJECTIVES: This study aimed to evaluate HIV sequence evolution in whole genes and in CD8 T-cell epitope regions following immunotherapy and subsequent analytical treatment interruption (ATI). A second objective of this study was to analyze associations between vaccine-specific immune responses and epitope mutation rates. DESIGN: HIV-1-infected patients on combined antiretroviral therapy (cART) were subjected to immunotherapy by the administration of an autologous dendritic cell-based therapeutic vaccine expressing Tat, Rev, and Nef and subsequent ATI. METHODS: HIV-1 genes were amplified and sequenced from plasma RNA obtained before initiation of cART as well as during ATI. Control sequences for virus evolution in untreated HIV-1-infected individuals were obtained from the HIV Sequence Database (Los Alamos). CD8 T-cell epitope regions were defined based on literature data and prediction models. HIV-1-specific immune responses were evaluated to analyze their impact on sequence evolution. RESULTS: Viral sequence evolution in the tat, rev, and nef genes of vaccinated patients was similar to that of controls. The number of mutations observed inside and outside CD8 T-cell epitopes was comparable for vaccine-targeted and nontargeted proteins. We found no evidence for an impact of vaccine-induced or enhanced immune responses on the number of mutations inside or outside epitopes. CONCLUSION: Therapeutic vaccination of HIV-1-infected patients with a dendritic cell-based vaccine targeting Tat, Rev, and Nef did not affect virus evolution at the whole gene level nor at the CD8 T-cell epitope level.
OBJECTIVES: This study aimed to evaluate HIV sequence evolution in whole genes and in CD8 T-cell epitope regions following immunotherapy and subsequent analytical treatment interruption (ATI). A second objective of this study was to analyze associations between vaccine-specific immune responses and epitope mutation rates. DESIGN:HIV-1-infectedpatients on combined antiretroviral therapy (cART) were subjected to immunotherapy by the administration of an autologous dendritic cell-based therapeutic vaccine expressing Tat, Rev, and Nef and subsequent ATI. METHODS:HIV-1 genes were amplified and sequenced from plasma RNA obtained before initiation of cART as well as during ATI. Control sequences for virus evolution in untreated HIV-1-infected individuals were obtained from the HIV Sequence Database (Los Alamos). CD8 T-cell epitope regions were defined based on literature data and prediction models. HIV-1-specific immune responses were evaluated to analyze their impact on sequence evolution. RESULTS: Viral sequence evolution in the tat, rev, and nef genes of vaccinated patients was similar to that of controls. The number of mutations observed inside and outside CD8 T-cell epitopes was comparable for vaccine-targeted and nontargeted proteins. We found no evidence for an impact of vaccine-induced or enhanced immune responses on the number of mutations inside or outside epitopes. CONCLUSION: Therapeutic vaccination of HIV-1-infectedpatients with a dendritic cell-based vaccine targeting Tat, Rev, and Nef did not affect virus evolution at the whole gene level nor at the CD8 T-cell epitope level.
Authors: Miriam Rosás-Umbert; Beatriz Mothe; Marc Noguera-Julian; Rocío Bellido; Maria C Puertas; Jorge Carrillo; C Rodriguez; Núria Perez-Alvarez; Patricia Cobarsí; Carmen E Gomez; Mariano Esteban; Jose Luis Jímenez; Felipe García; Julià Blanco; Javier Martinez-Picado; Roger Paredes; Christian Brander Journal: PLoS One Date: 2017-09-27 Impact factor: 3.240
Authors: Henk-Jan van den Ham; Jason D Cooper; Jakub Tomasik; Sabine Bahn; Joeri L Aerts; Albert D M E Osterhaus; Rob A Gruters; Arno C Andeweg Journal: PLoS One Date: 2018-02-01 Impact factor: 3.240