Ricardo Galler scite author profile

Developing a vaccine for HIV may be aided by a complete understanding of those rare cases where some HIV-infected individuals control replication of the virus1–3. The majority of these elite controllers (ECs) express HLA-B*57 or HLA-B*273. These alleles remain by far the most robust associations with low concentrations of plasma virus4,5, yet the mechanism of control in these individuals is not entirely clear. Here we vaccinated Indian rhesus macaques that express Mamu-B*08, an animal model for HLA-B*27-mediated elite control6, with three Mamu-B*08-restricted CD8+ T cell epitopes and demonstrate that these vaccinated animals controlled replication of the highly pathogenic SIVmac239 clonal virus. High frequencies of CD8+ T cells against these Vif and Nef epitopes in the blood, lymph nodes and colon, were associated with viral control. Moreover, the frequency of the Nef RL10-specific response correlated significantly with reduced acute phase viremia. Finally, two of the eight vaccinees lost control of viral replication in the chronic phase, concomitant with escape in all three targeted epitopes, further implicating these three CD8+ T cell responses in control of viral replication. Our findings indicate that narrowly targeted vaccine-induced virus-specific CD8+ T cell responses can control replication of the AIDS virus.

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Serious adverse events associated with yellow fever 17DD vaccine in Brazil: a report of two cases

Vasconcelos

et al. 2001

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Mutagenesis of the N-Linked Glycosylation Sites of the Yellow Fever Virus NS1 Protein: Effects on Virus Replication and Mouse Neurovirulence

et al. 1996

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The flavivirus nonstructural glycoprotein NS1 is highly conserved and contains two N-linked glycosylation sites which are both utilized for addition of oligosaccharides during replication in cell culture. NS1 has been shown to contain epitopes for protective antibodies; however, its roles in virus replication and pathogenesis remain unknown. To study the function of NS1 during yellow fever virus replication, six mutant viruses which lack either one or both glycosylation sites and another one containing silent mutations at both sites were generated by site-directed mutagenesis. Mutants lacking the second glycosylation site and those bearing silent mutations were similar to the parental virus in their cell culture properties. Ablation of the first or both glycosylation sites generated mutants exhibiting small plaque phenotypes, decreased virus yields, reduced cytopathic effects, impaired NS1 secretion, and depressed RNA accumulation. In addition, mutants lacking the first or both glycosylation sites exhibited significant reduction in mouse neurovirulence after intracerebral inoculation. These defects appear to result from the lack of N-linked glycans rather than the introduction of deleterious amino acid substitutions or disruption of cis-acting RNA elements important for RNA replication. These results suggest an important role for NS1 in flavivirus RNA replication and pathogenesis.

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Subdoses of 17DD yellow fever vaccine elicit equivalent virological/immunological kinetics timeline

et al. 2014

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BackgroundThe live attenuated 17DD Yellow Fever vaccine is one of the most successful prophylactic interventions for controlling disease expansion ever designed and utilized in larger scale. However, increase on worldwide vaccine demands and manufacturing restrictions urge for more detailed dose sparing studies. The establishment of complementary biomarkers in addition to PRNT and Viremia could support a secure decision-making regarding the use of 17DD YF vaccine subdoses. The present work aimed at comparing the serum chemokine and cytokine kinetics triggered by five subdoses of 17DD YF Vaccine.MethodsNeutralizing antibody titers, viremia, cytokines and chemokines were tested on blood samples obtained from eligible primary vaccinees.Results and discussionThe results demonstrated that a fifty-fold lower dose of 17DD-YF vaccine (587 IU) is able to trigger similar immunogenicity, as evidenced by significant titers of anti-YF PRNT. However, only subdoses as low as 3,013 IU elicit viremia kinetics with an early peak at five days after primary vaccination equivalent to the current dose (27,476 IU), while other subdoses show a distinct, lower in magnitude and later peak at day 6 post-vaccination. Although the subdose of 587 IU is able to trigger equivalent kinetics of IL-8/CXCL-8 and MCP-1/CCL-2, only the subdose of 3,013 IU is able to trigger similar kinetics of MIG/CXCL-9, pro-inflammatory (TNF, IFN-γ and IL-2) and modulatory cytokines (IL-5 and IL-10).ConclusionsThe analysis of serum biomarkers IFN-γ and IL-10, in association to PRNT and viremia, support the recommendation of use of a ten-fold lower subdose (3,013 IU) of 17DD-YF vaccine.

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Ricardo Galler

Flavivirus Genome Organization, Expression, and Replication

Vaccine-induced CD8+ T cells control AIDS virus replication

Serious adverse events associated with yellow fever 17DD vaccine in Brazil: a report of two cases

Mutagenesis of the N-Linked Glycosylation Sites of the Yellow Fever Virus NS1 Protein: Effects on Virus Replication and Mouse Neurovirulence

Subdoses of 17DD yellow fever vaccine elicit equivalent virological/immunological kinetics timeline

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