14 research outputs found
Sex-differential impact of human cytomegalovirus infection on in vitro reactivity to toll-like receptor 2, 4 and 7/8 stimulation in Gambian infants
Human cytomegalovirus (HCMV) infection rates approach 100% by the first year of lifein low-income countries. It is not known if this drives changes to innate immunity in early life andthereby altered immune reactivity to infections and vaccines. Given the panoply of sex differences inimmunity, it is feasible that any immunological effects of HCMV would differ in males and females.We analysed ex vivo innate cytokine responses to a panel of toll-like receptor (TLR) ligands in 108nine-month-old Gambian males and females participating in a vaccine trial. We found evidencethat HCMV suppressed reactivity to TLR2 and TLR7/8 stimulation in females but not males. Thisis likely to contribute to sex differences in responses to infections and vaccines in early life and hasimplications for the development of TLR ligands as vaccine adjuvants. Development of an effectiveHCMV vaccine would be able to circumvent some of these potentially negative effects of HCMVinfection in childhood
Transcriptional profiling technology for studying vaccine responses: An untapped goldmine
There is much that we do not understand about the immune mechanisms whereby vaccines exert their specific and non-specific effects. Most studies take the reductionist approach of examining vaccine responses at the humoral or cellular level. Whole human transcriptional profiling is becoming more accessible, and provides a picture of the entire immune response to vaccination in a single ‘snapshot’. The potential uses of such information are enormous, and the data mining tools are becoming more sophisticated to handle the complex data generated. We now face the exciting prospect of gaining in depth knowledge as to exactly what vaccines do to the immune system as a whole, and identifying molecular signatures and biomarkers that can predict immediate and long term outcomes of vaccination. The challenge now is to carry out the studies and generate the much needed data
Sex-Differential Non-Vaccine-Specific Immunological Effects of Diphtheria-Tetanus-Pertussis and Measles Vaccination
Vaccines can have nontargeted heterologous effects that manifest as increased protection against nonvaccine infections, as described for measles vaccine (MV), or increased susceptibility to infections and death, as described following diphtheria-tetanus-whole cell pertussis (DTP) vaccination. The mechanisms are unknown, and high-quality immunological studies are lacking. This study was designed to investigate the heterologous effects of MV and DTP in 302 Gambian infants. The results support a sex-differential immunosuppressive effect of DTP on innate proinflammatory responses and T-cell immunity. Males but not females receiving MV had enhanced proinflammatory innate responses. The results point to modified signaling via Toll-like receptor 4 (TLR4) as a possible mechanism for the effects on innate immunity. When both vaccines were administered together, purified protein derivative responses were enhanced in females but downregulated in males. Collectively, these data indicate immunological effects that could account for heterologous effects of MV and DTP, to take forward into prospective trials
Transcriptional profiling technology for studying vaccine responses: An untapped goldmine
There is much that we do not understand about the immune mechanisms whereby vaccines exert their specific and non-specific effects. Most studies take the reductionist approach of examining vaccine responses at the humoral or cellular level. Whole human transcriptional profiling is becoming more accessible, and provides a picture of the entire immune response to vaccination in a single ‘snapshot’. The potential uses of such information are enormous, and the data mining tools are becoming more sophisticated to handle the complex data generated. We now face the exciting prospect of gaining in depth knowledge as to exactly what vaccines do to the immune system as a whole, and identifying molecular signatures and biomarkers that can predict immediate and long term outcomes of vaccination. The challenge now is to carry out the studies and generate the much needed data
Sex-differential impact of human cytomegalovirus infection on in vitro reactivity to toll-like receptor 2, 4 and 7/8 stimulation in Gambian infants
Human cytomegalovirus (HCMV) infection rates approach 100% by the first year of life in low-income countries. It is not known if this drives changes to innate immunity in early life and thereby altered immune reactivity to infections and vaccines. Given the panoply of sex differences in immunity, it is feasible that any immunological effects of HCMV would differ in males and females. We analysed ex vivo innate cytokine responses to a panel of toll-like receptor (TLR) ligands in 108 nine-month-old Gambian males and females participating in a vaccine trial. We found evidence that HCMV suppressed reactivity to TLR2 and TLR7/8 stimulation in females but not males. This is likely to contribute to sex differences in responses to infections and vaccines in early life and has implications for the development of TLR ligands as vaccine adjuvants. Development of an effective HCMV vaccine would be able to circumvent some of these potentially negative effects of HCMV infection in childhood
Negative Correlation between Circulating CD4+FOXP3+CD127− Regulatory T Cells and Subsequent Antibody Responses to Infant Measles Vaccine but Not Diphtheria–Tetanus–Pertussis Vaccine Implies a Regulatory Role
Regulatory T cells (Tregs) play a key homeostatic role by suppressing immune responses. They have been targeted in mouse and human cancer studies to improve vaccine immunogenicity and tumor clearance. A number of commercially available drugs and experimental vaccine adjuvants have been shown to target Tregs. Infants have high numbers of Tregs and often have poor responses to vaccination, yet the role Tregs play in controlling vaccine immunogenicity has not been explored in this age group. Herein, we explore the role of CD4 + FOXP3 + CD127 − Tregs in controlling immunity in infant males and females to vaccination with diphtheria–tetanus–whole cell pertussis (DTP) and/or measles vaccine (MV). We find correlative evidence that circulating Tregs at the time of vaccination suppress antibody responses to MV but not DTP; and Tregs 4 weeks after DTP vaccination may suppress vaccine-specific cellular immunity. This opens the exciting possibility that Tregs may provide a future target for improved vaccine responses in early life, including reducing the number of doses of vaccine required. Such an approach would need to be safe and the benefits outweigh the risks, thus further research in this area is required
Negative Correlation between Circulating CD4+FOXP3+CD127− Regulatory T Cells and Subsequent Antibody Responses to Infant Measles Vaccine but Not Diphtheria–Tetanus–Pertussis Vaccine Implies a Regulatory Role
Regulatory T cells (Tregs) play a key homeostatic role by suppressing immune responses. They have been targeted in mouse and human cancer studies to improve vaccine immunogenicity and tumor clearance. A number of commercially available drugs and experimental vaccine adjuvants have been shown to target Tregs. Infants have high numbers of Tregs and often have poor responses to vaccination, yet the role Tregs play in controlling vaccine immunogenicity has not been explored in this age group. Herein, we explore the role of CD4 + FOXP3 + CD127 − Tregs in controlling immunity in infant males and females to vaccination with diphtheria–tetanus–whole cell pertussis (DTP) and/or measles vaccine (MV). We find correlative evidence that circulating Tregs at the time of vaccination suppress antibody responses to MV but not DTP; and Tregs 4 weeks after DTP vaccination may suppress vaccine-specific cellular immunity. This opens the exciting possibility that Tregs may provide a future target for improved vaccine responses in early life, including reducing the number of doses of vaccine required. Such an approach would need to be safe and the benefits outweigh the risks, thus further research in this area is required
The effect of placental malaria infection on cord blood and maternal immunoregulatory responses at birth.
Placental malaria (PM), a frequent infection of pregnancy, provides an ideal opportunity to investigate the impact on immune development of exposure of the foetal immune system to foreign Ag. We investigated the effect of PM on the regulatory phenotype and function of cord blood cells from healthy Gambian newborns and peripheral blood cells from their mothers, and analyzed for effects on the balance between regulatory and effector responses. Using the gold standard for classifying PM we further distinguished between resolved infection and acute or chronic PM active at the time of delivery. We show that exposure to malarial Ag in utero results in the expansion of malaria-specific FOXP3(+) Treg and more generalized FOXP3(+) CD4(+) Treg in chronic and resolved PM, alongside increased Th1 pro-inflammatory responses (IFN-gamma, TNF-alpha, IFN-gamma:IL-10) in resolved PM infection only. These observations demonstrate a clear effect of exposure to malarial Ag in foetal life on the immune environment at birth, with a regulatory response dominating in the newborns with ongoing chronic PM, while those with resolved infection produce both regulatory and inflammatory responses. The findings might explain some of the adverse effects on the health of babies born to women with PM
Malaria vaccines in the eradication era: current status and future perspectives
The challenge to eradicate malaria is an enormous task that will not be achieved by current control measures, thus an efficacious and long-lasting malaria vaccine is required. The licensing of RTS, S/AS01 is a step forward in providing some protection, but a malaria vaccine that protects across multiple transmission seasons is still needed. To achieve this, inducing beneficial immune responses while minimising deleterious non-targeted effects will be essential. Areas covered: This article discusses the current challenges and advances in malaria vaccine development and reviews recent human clinical trials for each stage of infection. Pubmed and ScienceDirect were searched, focusing on cell mediated immunity and how T cell subsets might be targeted in future vaccines using novel adjuvants and emerging vaccine technologies. Expert commentary: Despite decades of research there is no highly effective licensed malaria vaccine. However, there is cause for optimism as new adjuvants and vaccine systems emerge, and our understanding of correlates of protection increases, especially regarding cellular immunity. The new field of heterologous (non-specific) effects of vaccines also highlights the broader consequences of immunization. Importantly, the WHO led Malaria Vaccine Technology Roadmap illustrates that there is a political will among the global health community to make it happen