Effect of diferente amounts of HIV particles on the pulsing MoDCs from HIV infected patients

Introdução: A infecção pelo HIV causa um profundo comprometimento da resposta imune do hospedeiro, podendo levar à aids. Várias estratégias terapêuticas têm sido testadas ao longo dos anos, entre elas a imunoterapia com células dendríticas diferenciadas a partir de monócitos (MoDCs), pulsadas com HIV-1 inativado. Neste caso, a produção de vírus para o pulso das MoDCs consiste inicialmente no isolamento do vírus a partir de amostras de sangue do paciente e, em seguida, sua expansão em culturas de células CD4. Também deve ser considerado que quantidade excessiva de vírus pode ser tóxica para as MoDCs a serem pulsadas e do mesmo modo, quantidade insuficiente de vírus pode não ser efetiva para ativar uma resposta imune especifica. Neste contexto, a investigação do efeito de diferentes concentrações de vírus sobre o perfil fenotípico e funcional de MoDCs poderia auxiliar na determinação de uma quantidade ótima de vírus para o pulso das MoDCs e contribuir para o aperfeiçoamento da vacina terapêutica. Objetivo: Avaliar o efeito de diferentes quantidades de partículas virais, sobre o perfil fenotípico e funcional das MoDCs. Metodologia: Monócitos obtidos de indivíduos HIV+ foram diferenciados em MoDCs e pulsadas com HIV quimicamente inativado (3 partículas/MoDC, 30 partículas/MoDC, 300 partículas/MoDC). As células foram analisadas com relação ao perfil fenotípico, capacidade de internalizar p24, expressão de CD38, HLA-DR e CD69 e a produção de IFN-y por linfócitos T CD4+ e CD8+ autólogos. Resultados: O pulso com concentrações crescentes de vírus parece não interferir no perfil fenotípico e funcional das MoDCs. Conclusão: As diferentes quantidades de partículas virais utilizadas para o pulso parecem não ser tóxicas para as MoDCs estudadas, não tendo sido observadas diferenças com relação ao perfil fenotípico ou funcional das MoDCsIntroduction: The infection from HIV causes a profound impairment of the host immune response, which can lead to aids. Several therapeutic strategies have been tested over the years, including immunotherapy with monocyte - derived dendritic cells (MoDCs), pulsed with inactivated HIV-1. In this case, the production of virus for the pulse of the MoDCs initially consists of isolating the vírus from the patient\'s blood samples and then it into CD4+ cell cultures. It should also be considered that excessive amount of virus can be toxic to the MoDCs to be pulsed and likewise, insufficiently amount may not be effective for properly activate a specific immune response. In this context, the investigation of the effect of different virus concentrations on the phenotypic and functional profile of MoDCs could assist in the determination of an optimal amount of virus for the pulse of the MoDCs and contribute to the improvement of the therapeutic vaccine. Objectives: To evaluate the effect of different amounts of viral particles on the phenotypic and functional profile of MoDCs. Methods: MoDCs generated from HIV+ individuals were differentiated into MoDCs and pulsed with chemically inactivated HIV (3 particles /MoDC, 30 particles /MoDC, 300 particles /MoDC). Cells were analyzed for phenotypic profile, ability to internalize p24, expression of CD38, HLA-DR and CD69, and the production of IFN-y by autologous CD4 + and CD8 + T lymphocytes. Results: The pulse with increasing concentrations of virus does not seem to interfere in the phenotypic and functional profile of the MoDCs. Conclusion: The different amounts of viral particles used for the pulse appear to be non-toxic to the MoDCs studied, and no differences were observed regarding the phenotypic or functional profile of the MoDC

Effect of diferente amounts of HIV particles on the pulsing MoDCs from HIV infected patients

Introdução: A infecção pelo HIV causa um profundo comprometimento da resposta imune do hospedeiro, podendo levar à aids. Várias estratégias terapêuticas têm sido testadas ao longo dos anos, entre elas a imunoterapia com células dendríticas diferenciadas a partir de monócitos (MoDCs), pulsadas com HIV-1 inativado. Neste caso, a produção de vírus para o pulso das MoDCs consiste inicialmente no isolamento do vírus a partir de amostras de sangue do paciente e, em seguida, sua expansão em culturas de células CD4. Também deve ser considerado que quantidade excessiva de vírus pode ser tóxica para as MoDCs a serem pulsadas e do mesmo modo, quantidade insuficiente de vírus pode não ser efetiva para ativar uma resposta imune especifica. Neste contexto, a investigação do efeito de diferentes concentrações de vírus sobre o perfil fenotípico e funcional de MoDCs poderia auxiliar na determinação de uma quantidade ótima de vírus para o pulso das MoDCs e contribuir para o aperfeiçoamento da vacina terapêutica. Objetivo: Avaliar o efeito de diferentes quantidades de partículas virais, sobre o perfil fenotípico e funcional das MoDCs. Metodologia: Monócitos obtidos de indivíduos HIV+ foram diferenciados em MoDCs e pulsadas com HIV quimicamente inativado (3 partículas/MoDC, 30 partículas/MoDC, 300 partículas/MoDC). As células foram analisadas com relação ao perfil fenotípico, capacidade de internalizar p24, expressão de CD38, HLA-DR e CD69 e a produção de IFN-y por linfócitos T CD4+ e CD8+ autólogos. Resultados: O pulso com concentrações crescentes de vírus parece não interferir no perfil fenotípico e funcional das MoDCs. Conclusão: As diferentes quantidades de partículas virais utilizadas para o pulso parecem não ser tóxicas para as MoDCs estudadas, não tendo sido observadas diferenças com relação ao perfil fenotípico ou funcional das MoDCsIntroduction: The infection from HIV causes a profound impairment of the host immune response, which can lead to aids. Several therapeutic strategies have been tested over the years, including immunotherapy with monocyte - derived dendritic cells (MoDCs), pulsed with inactivated HIV-1. In this case, the production of virus for the pulse of the MoDCs initially consists of isolating the vírus from the patient\'s blood samples and then it into CD4+ cell cultures. It should also be considered that excessive amount of virus can be toxic to the MoDCs to be pulsed and likewise, insufficiently amount may not be effective for properly activate a specific immune response. In this context, the investigation of the effect of different virus concentrations on the phenotypic and functional profile of MoDCs could assist in the determination of an optimal amount of virus for the pulse of the MoDCs and contribute to the improvement of the therapeutic vaccine. Objectives: To evaluate the effect of different amounts of viral particles on the phenotypic and functional profile of MoDCs. Methods: MoDCs generated from HIV+ individuals were differentiated into MoDCs and pulsed with chemically inactivated HIV (3 particles /MoDC, 30 particles /MoDC, 300 particles /MoDC). Cells were analyzed for phenotypic profile, ability to internalize p24, expression of CD38, HLA-DR and CD69, and the production of IFN-y by autologous CD4 + and CD8 + T lymphocytes. Results: The pulse with increasing concentrations of virus does not seem to interfere in the phenotypic and functional profile of the MoDCs. Conclusion: The different amounts of viral particles used for the pulse appear to be non-toxic to the MoDCs studied, and no differences were observed regarding the phenotypic or functional profile of the MoDC

Phenotypic and functional profile of IFN-α-differentiated dendritic cells (IFN-DCs) from HIV-infected individuals

Dendritic cell (DC)-based immunotherapy is a promising strategy for the treatment of HIV-infected individuals. Different from the conventional protocol for DC differentiation based on the cytokine IL-4 (IL4-DCs), several studies have suggested obtaining DCs by culturing monocytes with type I IFN (IFN-α) to yield IFN-DCs, as performed in cancer therapy. To evaluate the phenotypic and functional characteristics, monocytes from HIV-infected subjects were differentiated into IFN-DCs or IL4-DCs, pulsed with chemically inactivated HIV and stimulated with pro-inflammatory cytokines. A comparative analysis between both types of monocyte-derived DCs (MoDCs) showed that immature IFN-DCs were phenotypically distinct from immature IL4-DCs at the baseline of differentiation, presenting a pre-activated profile. From the functional profile, we determined that IFN-DCs were capable of producing the cytokine IL-12 p70 and of inducing the production of IFN-γ by CD4 + T lymphocytes but not by TCD8+ lymphocytes. Our results suggest that IFN-DCs derived from HIV-infected individuals are able to recognize and present viral antigens to induce TCD4+ cellular immunity to HIV

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)

In 2008, we published the first set of guidelines for standardizing research in autophagy. Since then, this topic has received increasing attention, and many scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Thus, it is important to formulate on a regular basis updated guidelines for monitoring autophagy in different organisms. Despite numerous reviews, there continues to be confusion regarding acceptable methods to evaluate autophagy, especially in multicellular eukaryotes. Here, we present a set of guidelines for investigators to select and interpret methods to examine autophagy and related processes, and for reviewers to provide realistic and reasonable critiques of reports that are focused on these processes. These guidelines are not meant to be a dogmatic set of rules, because the appropriateness of any assay largely depends on the question being asked and the system being used. Moreover, no individual assay is perfect for every situation, calling for the use of multiple techniques to properly monitor autophagy in each experimental setting. Finally, several core components of the autophagy machinery have been implicated in distinct autophagic processes (canonical and noncanonical autophagy), implying that genetic approaches to block autophagy should rely on targeting two or more autophagy-related genes that ideally participate in distinct steps of the pathway. Along similar lines, because multiple proteins involved in autophagy also regulate other cellular pathways including apoptosis, not all of them can be used as a specific marker for bona fide autophagic responses. Here, we critically discuss current methods of assessing autophagy and the information they can, or cannot, provide. Our ultimate goal is to encourage intellectual and technical innovation in the field