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Mycobacterium tuberculosis remains a major global health threat. In this report, the M72/AS01 E vaccine provided approximately 50% protection against progression to active tuberculosis disease in adults.

Abstract Background The herpes zoster subunit vaccine (HZ/su), consisting of varicella-zoster virus glycoprotein E (gE) and AS01B Adjuvant System, was highly efficacious in preventing herpes zoster in the ZOE-50 and ZOE-70 trials. We present immunogenicity results from those trials. Methods Participants (ZOE-50: ≥50; ZOE-70: ≥70 years of age) received 2 doses of HZ/su or placebo, 2 months apart. Serum anti-gE antibodies and CD4 T cells expressing ≥2 of 4 activation markers assessed (CD42+) after stimulation with gE-peptides were measured in subcohorts for humoral (n = 3293) and cell-mediated (n = 466) immunogenicity. Results After vaccination, 97.8% of HZ/su and 2.0% of placebo recipients showed a humoral response. Geometric mean anti-gE antibody concentrations increased 39.1-fold and 8.3-fold over baseline in HZ/su recipients at 1 and 36 months post-dose 2, respectively. A gE-specific CD42+ T-cell response was shown in 93.3% of HZ/su and 0% of placebo recipients. Median CD42+ T-cell frequencies increased 24.6-fold (1 month) and 7.9-fold (36 months) over baseline in HZ/su recipients and remained ≥5.6-fold above baseline in all age groups at 36 months. The proportion of CD4 T cells expressing all 4 activation markers increased over time in all age groups. Conclusions Most HZ/su recipients developed robust immune responses persisting for 3 years following vaccination. Clinical Trials Registration NCT01165177; NCT01165229. The herpes zoster subunit vaccine, consisting of varicella-zoster virus glycoprotein E and the AS01B Adjuvant System, stimulated specific antibody and CD4 T-cell responses in >90% of recipients which, in most, persisted for the 36-month duration of the study.

IntroductionRespiratory syncytial virus (RSV) causes acute respiratory tract infection (ARTI) and reinfects adults throughout life, posing a risk for hospitalization in older adults (>60 years) with frailty and comorbidities.MethodsTo investigate serum and mucosal antibodies for protection against RSV infections, baseline serum samples were compared for RSV-pre- and -post-fusion (F) binding, and RSV-A2 neutralizing IgG antibodies between symptomatic RSV-ARTI ( N = 30), non-RSV (RSV negative) ARTI ( N = 386), and no ARTI ( N = 338). Mucosal RSV-pre-F IgA and IgG levels, as well as serum RSV-G IgG antibodies, were analyzed to determine their association with protection from symptomatic RSV-ARTI in a subset study.ResultsUsing a receiver operating characteristic (ROC) analysis, we established thresholds of 1.4- to 1.6-fold change (FC) for RSV-pre-F and -post-F, and RSV-A2 neutralizing IgG antibodies, respectively, enabling the identification of asymptomatic RSV cases with high sensitivity and specificity (>80% and >90%, respectively). As a result, serum RSV-pre-F, RSV-G IgG, and mucosal pre-F binding IgA antibodies showed correlations with protection against symptomatic RSV infection. RSV-pre-F IgG antibodies were correlated with protection from RSV infections irrespective of the symptoms.DiscussionThis study provides insights into antibody-mediated protection for symptomatic RSV infection in a community-dwelling older-adult population and establishes a threshold to identify asymptomatic RSV infection using a data-driven approach.

Licensed influenza virus vaccines target the head domain of the hemagglutinin (HA) glycoprotein which undergoes constant antigenic drift. The highly conserved HA stalk domain is an attractive target to increase immunologic breadth required for universal influenza virus vaccines. We tested the hypothesis that immunization with a pandemic influenza virus vaccine boosts pre-existing anti-stalk antibodies. We used chimeric cH6/1, full length H2 and H18 HA antigens in an ELISA to measure anti-stalk antibodies in recipients participating in clinical trials of A/H1N1, A/H5N1 and A/H9N2 vaccines. The vaccines induced high titers of anti-H1 stalk antibodies in adults and children, with higher titers elicited by AS03-adjuvanted vaccines. We also observed cross-reactivity to H2 and H18 HAs. The A/H9N2 vaccine elicited plasmablast and memory B-cell responses. Post-vaccination serum from vaccinees protected mice against lethal challenge with cH6/1N5 and cH5/3N4 viruses. These findings support the concept of a chimeric HA stalk-based universal influenza virus vaccine. clinicaltrials.gov: NCT02415842. Influenza vaccine: boosting immunity to hemagglutinin stalk domains The head domain of influenza virus hemagglutinin (HA), the main target of licensed influenza virus vaccines, undergoes constant antigenic drift. The HA stalk domain, on the other hand, is highly conserved and is thus an attractive target for developing universal influenza vaccine formulations. Raffael Nachbagauer and colleagues now show that vaccination with pandemic influenza virus vaccines boosts pre-existing antibody responses to HA stalk domains in pediatric cohorts. Analysis of serum from individuals immunized with pandemic vaccines A/H1N1, A/H5N1 and A/H9N2, revealed basal levels of anti-stalk antibodies that were increased following immunization. The elicited antibodies had neutralization properties, and plasmablast responses from peripheral blood immune cells recovered from vaccinated individuals were also recorded. These findings support pandemic vaccines as a potential strategy towards universal influenza virus vaccines by expanding pre-existing antibodies against conserved HA stalk structures.

Background The differentiation of CD8 + T lymphocytes following priming of naïve cells is central in the establishment of the adaptive immune response. Yet, the molecular events underlying this process are not fully understood. MicroRNAs have been recently shown to play a key role in the regulation of haematopoiesis in mouse, but their implication in peripheral lymphocyte differentiation in humans remains largely unknown. Methods In order to explore the potential implication of microRNAs in CD8 + T cell differentiation in humans, microRNA expression profiles were analysed using microarrays and quantitative PCR in several human CD8 + T cell subsets defining the major steps of the T cell differentiation pathway. Results We found expression of a limited set of microRNAs, including the miR-17~92 cluster. Moreover, we reveal the existence of differentiation-associated regulation of specific microRNAs. When compared to naive cells, miR-21 and miR-155 were indeed found upregulated upon differentiation to effector cells, while expression of the miR-17~92 cluster tended to concomitantly decrease. Conclusions This study establishes for the first time in a large panel of individuals the existence of differentiation associated regulation of microRNA expression in human CD8 + T lymphocytes in vivo , which is likely to impact on specific cellular functions.

The stalk of the influenza virus hemagglutinin (HA) is an attractive target for antibody-based universal influenza virus vaccine development. While antibodies that target this part of the virus can be neutralizing, it has been shown in recent years that Fc receptor-mediated effector functions are of significant importance for the protective effect of anti-stalk antibodies. Several assays to measure Fc-Fc receptor interaction-based effector functions like antibody-dependent cellular cytotoxicity and antibody-dependent cellular phagocytosis exist, but they suffer from limitations such as low throughput and high run-to-run variability. Reporter assays for antibody-dependent cellular cytotoxicity based on reporter cells that express luciferase upon engagement of human FcγRIIIa with the Fc of antigen-bound antibodies have been developed as well. These reporter assays can be used in a higher throughput setting with limited run-to-run assay variability but since they express only one Fc receptor, their biological relevance is unclear. Here we optimized an antibody-dependent cellular cytotoxicity reporter assay to measure the activity of antibodies to the conserved stalk domain of H1 hemagglutinin. The assay was then correlated to a CD107a-based degranulation assay, and a strong and significant correlation could be observed. This data suggests that the FcγRIIIa-based reporter assay is a good substitute for functional assays, especially in settings where larger sample numbers need to be analyzed.

Dok1 is an abundant Ras-GTPase-activating protein-associated tyrosine kinase substrate that negatively regulates cell growth and promotes migration. We now find that IκB kinase β (IKKβ) associated with and phosphorylated Dok1 in human epithelial cells and B lymphocytes. IKKβ phosphorylation of Dok1 depended on Dok1 S439, S443, S446, and S450. Recombinant IKKβ also phosphorylated Dok1 or Dok1 amino acids 430-481 in vitro. TNF-α, IL-1, γ radiation, or IKKβ overexpression phosphorylated Dok1 S443, S446, and S450in vivo, as detected with Dok1 phospho-S site-specific antisera. Moreover, Dok1 with S439, S443, S446, and S450mutated to A was not phosphorylated by IKKβ in vivo. Surprisingly, mutant Dok1 A439, A443, A446, and A450differed from wild-type Dok1 in not inhibiting platelet-derived growth factor-induced extracellular signal-regulated kinase 1/2 phosphorylation or cell growth. Mutant Dok1 A439, A443, A446, and A450also did not promote cell motility, whereas wild-type Dok1 promoted cell motility, and Dok1 E439, E443, E446, and E450further enhanced cell motility. These data indicate that IKKβ phosphorylates Dok1 S439S443and S446S450after TNF-α, IL-1, or γ-radiation and implicate the critical Dok1 serines in Dok1 effects after tyrosine kinase activation.

One strategy to develop a universal influenza virus vaccine is to redirect the immune system to the highly conserved haemagglutinin stalk domain by sequentially administering vaccines expressing chimeric (c) haemagglutinins with a conserved stalk domain and divergent head domain, to which humans are naive. We aimed to assess the reactogenicity, safety, and immunogenicity of adjuvanted and unadjuvanted investigational supra-seasonal universal influenza virus vaccines (SUIVs) in healthy young adults. In this observer-masked, randomised, controlled, phase 1–2 trial, we recruited adults aged 18–39 years with no clinically significant conditions from six centres in Belgium and the USA. Participants were randomly assigned to ten equally sized groups via an online system with the MATerial Excellence programme. Vaccines contained heterosubtypic group 1 H8, H5, or H11 haemagglutinin heads, an H1 haemagglutinin stalk, and an N1 neuraminidase (cH8/1N1, cH5/1N1, and cH11/1N1; haemagglutinin dose 15 μg/0·5 mL), administered on days 1 and 57, with a month 14 booster. SUIVs were evaluated in the sequences: cH8/1N1–placebo–cH5/1N1, cH5/1N1–placebo–cH8/1N1, or cH8/1N1–cH5/1N1–cH11/1N1, adjuvanted with either AS03 or AS01, or not adjuvanted. The last group received inactivated quadrivalent influenza vaccine (IIV4)–placebo–IIV4. Primary outcomes were safety (analysed in the exposed population) and immunogenicity in terms of the anti-H1 stalk humoral response at 28 days after vaccination (analysed in the per-protocol population, defined as participants who received the study vaccines according to the protocol). This trial is registered with ClinicalTrials.gov, NCT03275389. Between Sept 25, 2017, and March 26, 2020, 507 eligible participants were enrolled. 468 (92%) participants received at least one dose of study vaccine (exposed population), of whom 244 (52%) were included in the per-protocol population at final analysis at month 26. The safety profiles of all chimeric vaccines were clinically acceptable, with no safety concerns identified. Injection-site pain was the most common adverse event, occurring in 84–96% of participants receiving an adjuvanted SUIV or non-adjuvanted IIV4 and in 40–50% of participants receiving a non-adjuvanted SUIV. Spontaneously reported adverse events up to 28 days after vaccination occurred in 36–60% of participants, with no trends observed for any group. 17 participants had a serious adverse event, none of which were considered to be causally related to the vaccine. Anti-H1 stalk antibody titres were highest in AS03-adjuvanted groups, followed by AS01-adjuvanted and non-adjuvanted groups, and were higher after cH8/1N1 than after cH5/1N1 and after a two-dose primary schedule than after a one-dose schedule. Geometric mean concentrations by ELISA ranged from 21 938·1 ELISA units/mL (95% CI 18 037·8–26 681·8) in the IIV4–placebo–IIV4 group to 116 596·8 ELISA units/mL (93 869·6–144 826·6) in the AS03-adjuvanted cH8/1N1–cH5/1N1–cH11/1N1 group 28 days after the first dose and from 15 105·9 ELISA units/mL (12 007·7–19 003·6) in the non-adjuvanted cH5/1N1–placebo–cH8/1N1 group to 74 639·7 ELISA units/mL (59 986·3–92 872·6) in the AS03-adjuvanted cH8/1N1–cH5/1N1–cH11/1N1 group 28 days after the second dose. The stalk domain seems to be a rational target for development of a universal influenza virus vaccine via administration of chimeric haemagglutinins with head domains to which humans are naive. GlaxoSmithKline Biologicals.

Approximately 10 years after vaccination with the recombinant zoster vaccine (RZV), an interim analysis of this follow-up study of the ZOE-50/70 trials demonstrated that efficacy against herpes zoster remained high. Moreover, the safety profile remained clinically acceptable, suggesting that the clinical benefit of the RZV in ≥50-year-olds is sustained up to 10 years.