학술논문
Short-Lived Immunity After 17DD Yellow Fever Single Dose Indicates That Booster Vaccination May Be Required to Guarantee Protective Immunity in Children
Document Type
article
Author
Ana Carolina Campi-Azevedo; Laise Rodrigues Reis; Vanessa Peruhype-Magalhães; Jordana Grazziela Coelho-dos-Reis; Lis Ribeiro Antonelli; Cristina Toscano Fonseca; Christiane Costa-Pereira; Elaine Maria Souza-Fagundes; Ismael Artur da Costa-Rocha; Juliana Vaz de Melo Mambrini; Jandira Aparecida Campos Lemos; José Geraldo Leite Ribeiro; Iramaya Rodrigues Caldas; Luiz Antônio Bastos Camacho; Maria de Lourdes de Sousa Maia; Tatiana Guimarães de Noronha; Sheila Maria Barbosa de Lima; Marisol Simões; Marcos da Silva Freire; Reinaldo de Menezes Martins; Akira Homma; Pedro Luiz Tauil; Pedro Fernando Costa Vasconcelos; Alessandro Pecego Martins Romano; Carla Magda Domingues; Andréa Teixeira-Carvalho; Olindo Assis Martins-Filho
Source
Frontiers in Immunology, Vol 10 (2019)
Subject
Language
English
ISSN
1664-3224
Abstract
The Yellow Fever (YF) vaccination is recommended for people living in endemic areas and represents the most effective strategy to reduce the risk of infection. Previous studies have warned that booster regimens should be considered to guarantee the long-term persistence of 17DD-YF-specific memory components in adults living in areas with YF-virus circulation. Considering the lower seroconversion rates observed in children (9–12 months of age) as compared to adults, this study was designed in order to access the duration of immunity in single-dose vaccinated children in a 10-years cross-sectional time-span. The levels of neutralizing antibodies (PRNT) and the phenotypic/functional memory status of T and B-cells were measured at a baseline, 30–45 days, 1, 2, 4, 7, and 10 years following primary vaccination. The results revealed that a single dose induced 85% of seropositivity at 30–45 days and a progressive time-dependent decrease was observed as early as 2 years and declines toward critical values (below 60%) at time-spans of ≥4-years. Moreover, short-lived YF-specific cellular immunity, mediated by memory T and B-cells was also observed after 4-years. Predicted probability and resultant memory analysis emphasize that correlates of protection (PRNT; effector memory CD8+ T-cells; non-classical memory B-cells) wane to critical values within ≥4-years after primary vaccination. Together, these results clearly demonstrate the decline of 17DD-YF-specific memory response along time in children primarily vaccinated at 9–12 months of age and support the need of booster regimen to guarantee the long-term persistence of memory components for children living in areas with high risk of YF transmission.