Toward the goal of developing an effective HIV vaccine that can be administered in infancy to protect against postnatal and lifelong sexual HIV transmission risks, the current pilot study was designed to compare the effect of novel adjuvants on the induction of HIV Env-specific antibody responses in infant macaques. Aligning our studies with the adjuvanted proteins evaluated in a prime-boost schedule with ALVAC in the ongoing HVTN (HIV Vaccine Trials Network) 702 efficacy trial, we selected the bivalent clade C Env immunogens gp120 C.1086 and gp120 TV1 in combination with the MF59 adjuvant. However, we hypothesized that the adjuvant system AS01, that is included in the pediatric RTS,S malaria vaccine, would promote Env-specific antibody responses superior to those of the oil-in-water MF59 emulsion adjuvant. In a second study arm, we compared two emulsions, glucopyranosyl lipid adjuvant formulated in a stable emulsion (GLA-SE) and 3M-052-SE, containing Toll-like receptor 4 (TLR4) and TLR7/TLR8 (TLR7/8) ligand, respectively. The latter adjuvant had been previously demonstrated to be especially effective in activating neonatal antigen-presenting cells. Our results demonstrate that different adjuvants drive quantitatively or qualitatively distinct responses to the bivalent Env vaccine. AS01 induced higher Env-specific plasma IgG antibody levels than the antigen in MF59 and promoted improved antibody function in infants, and 3M-052-SE outperformed GLA-SE by inducing the highest breadth and functionality of antibody responses. Thus, distinct adjuvants are likely to be required for maximizing vaccine-elicited immune responses in infants, particularly when immunization in infancy aims to elicit both perinatal and lifelong immunity against challenging pathogens such as HIV. Alum remains the adjuvant of choice for pediatric vaccines. Yet the distinct nature of the developing immune system in infants likely requires novel adjuvants targeted specifically at the pediatric population to reach maximal vaccine efficacy with an acceptable safety profile. The current study supports the idea that additional adjuvants for pediatric vaccines should be, and need to be, tested in infants for their potential to enhance immune responses. Using an infant macaque model, our results suggest that both AS01 and 3M-052-SE can significantly improve and better sustain HIV Env-specific antibody responses than alum. Despite the limited number of animals, the results revealed interesting differences that warrant further testing of promising novel adjuvant candidates in larger preclinical and clinical studies to define the mechanisms leading to adjuvant-improved antibody responses and to identify targets for adjuvant and vaccine optimization.
Increasing JAK/STAT Signaling Function of Infant CD4+ T Cells during the First Year of Life
Most infant deaths occur in the first year of life. Yet, our knowledge of immune development during this period is scarce and derived from cord blood (CB) only. To more effectively combat pediatric diseases, a deeper understanding of the kinetics and the factors that regulate the maturation of immune functions in early life is needed. Increased disease susceptibility of infants is generally attributed to T helper 2-biased immune responses. The differentiation of CD4+ T cells along a specific T helper cell lineage is dependent on the pathogen type, and on costimulatory and cytokine signals provided by antigen-presenting cells. Cytokines also regulate many other aspects of the host immune response. Therefore, toward the goal of increasing our knowledge of early immune development, we defined the temporal development of the Janus kinase (JAK)/signal transducers and activators of transcription (STAT) signaling function of CD4+ T cells using cross-sectional blood samples from healthy infants ages 0 (birth) to 14 months. We specifically focused on cytokines important in T cell differentiation (IFN-γ, IL-12, and IL-4) or in T cell survival and expansion (IL-2 and IL-7) in infant CD4+ T cells. Independent of the cytokine tested, JAK/STAT signaling in infant compared to adult CD4+ T cells was impaired at birth, but increased during the first year, with the most pronounced changes occurring in the first 6 months. The relative change in JAK/STAT signaling of infant CD4+ T cells with age was distinct for each cytokine tested. Thus, while about 60% of CB CD4+ T cells could efficiently activate STAT6 in response to IL-4, less than 5% of CB CD4+ T cells were able to activate the JAK/STAT pathway in response to IFN-γ, IL-12 or IL-2. By 4–6 months of age, the activation of the cytokine-specific STAT molecules was comparable to adults in response to IL-4 and IFN-γ, while IL-2- and IL-12-induced STAT activation remained below adult levels even at 1 year. These results suggest that common developmental and cytokine-specific factors regulate the maturation of the JAK/STAT signaling function in CD4+ T cells during the first year of life.
Background IFNβ has been implicated a key effector of oviduct pathology after genital chlamydial infection in mice. We reported that the host DNA sensor cGAS (cGAMP synthase) is essential for IFNβ expression during Chlamydia trachomatis infection. Sensing during infection leads to generation of the second messenger, 2′3-cGAMP, which can migrate to uninfected adjacent cells via gap-junction mediated transfer. cGAMP binding to central adaptor molecule, STING drives IFNβ induction. The goals of this study were to visualize the mechanism of c-GAMP transfer and to identify the DNA source triggering this response. Methods cGAMP production was detected by mass spectrometry. The contribution of gap junction proteins, connexins CX43 and CX45 in intercellular transfer of cGAMP was assayed by siRNA depletion and subsequent co-culture experiments. view RNATM methodology was used to detect IFNβ mRNA transcripts in Hela cells. Mitochondrial DNA as IFNβ inducer was assessed in mtDNA depleted cell lines. Results Mass spectroscopy confirmed cGAMP in infected host cytosol. Connexin depletion studies revealed that CX43 but not CX45 was essential for optimal IFNβ expression during infection. IFNβ mRNA transcripts were visualized in infected and adjacent, uninfected cells. In contrast, distal uninfected cells lacking cell-cell contact were negative. IFNβ induction after chlamydia infection was unchanged in mtDNA depleted cells. Conclusion Overall, our results confirm the production of cGAMP in chlamydia-infected cells and its transfer via CX43 to adjacent cells resulting in IFNβ production. Our studies exclude mtDNA as a potential source initiating this response. We are currently investigating the role of Chlamydial-DNA as an initiator.
Natural Killer (NK) cells are an important component of the innate immune system, capable of providing a fast and effective response against virally infected cells. NK cells are mainly characterized by their cytotoxic function and their ability to secrete cytokines. It has been shown that infant NK cells have decreased cytotoxicity and cytokine-secreting function, suggesting hyporesponsiveness of NK cells during the first year of life. Because NK cell activation is dependent on cytokine stimulation, we hypothesized that infant NK cells are hyporesponsive due to deficiencies in signaling following cytokine stimulation. We examined the activation of human infant and adult NK cells in response to IL2, IL12 or IFNα stimulation, cytokines important in NK survival and function. Using Phosflow analysis, we measured the phosphorylation of transcription factors, STATs, specific for the distinct cytokines. Cord blood NK cells showed significantly lower pSTAT activation when compared to adult NK cells when treated with IL2 or IFNα but not IL12. However, despite pSTAT4 activation in response to IL12, no nuclear translocation was observed by ImageStreamX Mark II analysis. NK cells in 6 and 12-month-old infants showed similar frequencies of pSTAT NK cells compared to adults when treated with IL2, IL12 or IFNα, suggesting that cytokine signaling in NK cells is age-dependent. Surprisingly, pSTAT activation was restored in cord blood NK cells when treated with a cocktail of IL2, IL12 and IL15. These results suggest that JAK/STAT signaling in infant NK cells is impaired at different steps in the pathway in response to specific cytokines.
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