Karen Lingnau

Interferon-Regulatory Factor 4 Is Essential for the Developmental Program of T Helper 9 Cells

Interferon-regulatory factor 4 (IRF4) is essential for the development of T helper 2 (Th2) and Th17 cells. Herein, we report that IRF4 is also crucial for the development and function of an interleukin-9 (IL-9)-producing CD4(+) T cell subset designated Th9. IRF4-deficient CD4(+) T cells failed to develop into IL-9-producing Th9 cells, and IRF4-specific siRNA inhibited IL-9 production in wild-type CD4(+) T cells. Chromatin-immunoprecipitation (ChIP) analyses revealed direct IRF4 binding to the Il9 promoter in Th9 cells. In a Th9-dependent asthma model, neutralization of IL-9 substantially ameliorated asthma symptoms. The relevance of these findings is emphasized by the fact that the induction of IL-9 production also occurs in human CD4(+) T cells accompanied by the upregulation of IRF4. Our data clearly demonstrate the central function of IRF4 in the development of Th9 cells and underline the contribution of this T helper cell subset to the pathogenesis of asthma.

Ag85B-ESAT-6 adjuvanted with IC31® promotes strong and long-lived Mycobacterium tuberculosis specific T cell responses in naïve human volunteers.

Though widely used, the BCG vaccine has had little apparent effect on rates of adult pulmonary tuberculosis. Moreover, the risk of disseminated BCG disease in immunocompromised individuals means that improved TB vaccines ideally need to be able to efficiently prime mycobacterially-naïve individuals as well as boost individuals previously vaccinated with BCG. Protective immunity against Mycobacterium tuberculosis is thought to depend on the generation of a Th1-type cellular immune response characterized by interferon-gamma (IFN-gamma) production. In the present study, we monitored safety and IFN-gamma responses in healthy TB-naïve humans receiving an entirely novel vaccine, composed of the fusion protein Ag85B-ESAT-6, administered at 0 and 2 months either as recombinant protein alone or combined with two concentrations of the novel adjuvant IC31. Vaccination did not cause local or systemic adverse effects besides transient soreness at the injection site, but it elicited strong antigen-specific T cell responses against H1 and both the Ag85B and the ESAT-6 components. These strong responses persisted through 2.5 years of follow-up, indicating the induction of a substantial memory response in the vaccine recipients.

Ag85B–ESAT-6 adjuvanted with IC31® promotes strong and long-lived Mycobacterium tuberculosis specific T cell responses in volunteers with previous BCG vaccination or tuberculosis infection

New TB vaccines are urgently needed because of the apparent lack of effect of the BCG vaccine on rates of adult contagious pulmonary tuberculosis and the risk of disseminated BCG disease in immunocompromised individuals. Since BCG appears to protect children, the primary target for vaccine development is a booster vaccine for adults but such vaccines ideally need to be able to efficiently prime mycobacterially naïve individuals as well as boost individuals previously vaccinated with BCG and those latently infected with TB. Protective immunity against Mycobacterium tuberculosis depends mainly on the generation of a Th1-type cellular immune response characterized by interferon-gamma (IFN-γ) production. In the present study, we monitored safety and IFN-γ responses in healthy BCG-vaccinated and prior or latently TB-infected individuals receiving a novel vaccine composed of the fusion protein Ag85B-ESAT-6 combined with the adjuvant IC31(®), administered at 0 and 2 months. Vaccination caused few local or systemic adverse effects besides transient soreness at the injection site, but it elicited strong antigen-specific T cell responses against Ag85B-ESAT-6 and both the Ag85B and ESAT-6 components, that could be augmented by second vaccination. The strong responses persisted through 32 weeks of follow-up, indicating the induction of a persistent memory response in the vaccine recipients.

The novel adjuvant IC31® strongly improves influenza vaccine-specific cellular and humoral immune responses in young adult and aged mice

The compromised immune responses in the elderly as well as the threat of pandemic influenza necessitate the development of improved influenza vaccines. This study provides evidence that IC31, a two-component synthetic adjuvant signalling through TLR-9, augments humoral and cellular immune responses to seasonal influenza vaccines. Experiments performed in young adult mice showed increased HI titres and higher levels of IgG2a antibodies that were accompanied by the induction of IFN-gamma producing CD4(+) T cells after single vaccination with reduced doses of vaccine antigens, even 200 days after single immunisation. Importantly, similar effects were seen in aged mice, although most pronounced upon booster immunisation. Thus, IC31 fulfils important criteria of novel influenza vaccine adjuvants.

IC31® and IC30, novel types of vaccine adjuvant based on peptide delivery systems

Toll-like receptor (TLR) agonists have a proven potential to become the adjuvants of the next generation when admixed and formulated with all kinds of vaccine compositions. The quality and magnitude of a vaccine-induced immune response is often strongly facilitated by TLR agonists, with the result that protection is increased and expanded toward type 1-driven immunity. DNA oligodeoxynucleotides bind to TLR9 and have been tested in a variety of vaccine settings with encouraging results. Combining oligodeoxynucleotides with poly-L-arginine (IC30) or certain artificial antimicrobial peptides dramatically improves and synergizes with the adjuvant action of TLR9 agonists, a notion that has prompted the development of IC31®, an adjuvant with a promising profile in both preclinical and clinical trials.

Poly-L-arginine synergizes with oligodeoxynucleotides containing CpG-motifs (CpG-ODN) for enhanced and prolonged immune responses and prevents the CpG-ODN-induced systemic release of pro-inflammatory cytokines.

This study describes an entirely synthetic vaccine composed of antigenic peptides (T cell epitopes), oligodeoxynucleotides containing CpG-motifs (CpG-ODN) and poly-L-arginine (pR). CpG-ODN are known to be potent inducers of predominantly type 1-like immune responses, while polycationic amino acids, like pR, facilitate the uptake of antigens into antigen presenting cells (APCs). We demonstrate that the application of peptides and pR/CpG-ODN results in strongly enhanced peptide-specific immune responses as compared to the application of peptides with either of the immunomodulators alone. High numbers of antigen-specific T cells can be observed even after only one injection of the vaccine for a remarkably long period of time (at least 372 days). Furthermore, the potentially harmful systemic release of pro-inflammatory cytokines induced upon injection of CpG-ODN is inhibited. Thus, the combined application of CpG-ODN and pR may represent a novel vaccine strategy in humans.

Adult-Like Anti-Mycobacterial T Cell and In Vivo Dendritic Cell Responses Following Neonatal Immunization with Ag85B-ESAT-6 in the IC31® Adjuvant

Background With the exception of some live vaccines, e.g. BCG, subunit vaccines formulated with “classical” adjuvants do not induce similar responses in neonates as in adults. The usual neonatal profile is characterized by lower levels of TH1-associated biomarkers. This has hampered the development of new neonatal vaccines for diseases that require early protection. Tuberculosis is one of the major targets for neonatal immunization. In this study, we assessed the immunogenicity of a novel candidate vaccine comprising a mycobacterial fusion protein, Ag85B-ESAT-6, in a neonatal murine immunization model. Methods/Findings The Ag85B-ESAT-6 fusion protein was formulated either with a classical alum based adjuvant or with the novel IC31® adjuvant. Following neonatal or adult immunization, 3 parameters were studied in vivo: (1) CD4+ T cell responses, (2) vaccine targeting/activation of dendritic cells (DC) and (3) protection in a surrogate mycobacterial challenge model. Conversely to Alum, IC31® induced in both age groups strong Th1 and Th17 responses, characterized by multifunctional T cells expressing IL-2 and TNF-α with or without IFN-γ. In the draining lymph nodes, a similarly small number of DC contained the adjuvant and/or the antigen following neonatal or adult immunization. Expression of CD40, CD80, CD86 and IL-12p40 production was focused on the minute adjuvant-bearing DC population. Again, DC targeting/activation was similar in adults and neonates. These DC/T cell responses resulted in an equivalent reduction of bacterial growth following infection with M. bovis BCG, whereas no protection was observed when Alum was used as adjuvant. Conclusion Neonatal immunization with the IC31®- adjuvanted Ag85B-ESAT-6 subunit vaccine elicited adult-like multifunctional protective anti-mycobacterial T cell responses through the induction of an adult pattern of in vivo DC activation.

Protective anti-mycobacterial T cell responses through exquisite in vivo activation of vaccine-targeted dendritic cells.

Vaccine efficacy largely depends upon DC targeting and activation. The most potent TLR soluble ligands induce diffuse DC activation, which may be associated with marked pro‐inflammatory responses and possibly adverse effects. This raises the concern that effective vaccine adjuvants may similarly rely on widespread DC activation. Using a promising candidate vaccine against tuberculosis (fusion protein of Ag85B and 6‐kDa early secretory antigenic target (ESAT‐6)) formulated in the potent IC31® adjuvant, DC targeting and activation was studied in vivo, following the fate of antigen and adjuvant in the draining lymph nodes, to define the magnitude of DC targeting/activation required in vivo to induce protective vaccine responses. Unexpectedly, protective IFN‐γ‐mediated Ag85B‐ESAT‐6/IC31® responses were associated to the activation of a minute population (less than 0.3%) of CD11c+ lymph node DC, without detectable systemic pro‐inflammatory responses. This activated peripheral tissue‐derived DC population, characterized by enhanced CD80, CD86, CD40 and IL‐12p40 expression, was only identified when focusing on adjuvant‐ or antigen‐labeled CD11c+ DC, which were found to support T cell proliferation. Immunization with aluminum hydroxide adjuvant (Alum) resulted in a similar proportion of antigen‐associated DC but without detectable enhancement of CD80, CD86, CD40 or IL‐12p40 expression. Thus, potent protective IFN‐γ‐producing responses may be elicited by the exquisite activation of a minute number of in vivo targeted DC.

First in humans: a new molecularly defined vaccine shows excellent safety and strong induction of long-lived Mycobacterium tuberculosis-specific Th1-cell like responses.

Tuberculosis (TB) remains a major killer worldwide. The only available TB-vaccine, the nearly century-old Mycobacterium bovis BCG, has had only a limited effect on TB incidence. Therefore, developing new TB vaccines is a key priority, and the first new generation TB vaccines are now being tested in clinical trials. Here we describe the development and first testing in humans of a novel, wholly synthetic TB subunit vaccine. This vaccine has proven safe and highly immunogenic in all species in which it was tested, including mice, guinea pigs, non-human primates and humans. Most encouragingly, following vaccination in humans, strong IFN-γ responses persisted through at least 2½ years of follow-up, indicating induction of a substantial memory response by this new TB vaccine. These findings encourage further preclinical and clinical studies with TB subunit vaccines and cellular immunity-stimulating new adjuvants.

IC31, a two-component novel adjuvant mixed with a conjugate vaccine enhances protective immunity against pneumococcal disease in neonatal mice.

IC31® is a novel adjuvant which combines the immunostimulatory effects of an 11‐mer antibacterial peptide (KLKL5KLK) and a synthetic oligodeoxynucleotide (ODN1a) which is a Toll‐like receptor 9 agonist without containing cytosine phosphate guanine (CpG) motifs. The effects of IC31® on neonatal immune response to vaccination have not been reported. Neonatal mice were immunized once or twice with a Streptococcus pneumoniae serotype 1 polysaccharide conjugate containing Tetanus Toxoid (Pnc1‐TT) carrier protein, with or without IC31® or CpG‐ODN. IC31® significantly enhanced IgG1, IgG2a and IgG2b antibodies (Ab) to the serotype 1 polysaccharide. One dose of Pnc1‐TT and low dose IC31® elicited high Ab levels that protected the neonatal mice completely from bacteraemia and significantly reduced lung infection following i.n. challenge with serotype 1 pneumococcal strain. One‐sixth of an adult murine dose of IC31® was sufficient and optimal for induction of protective immunity in neonatal mice. Two doses of Pnc1‐TT with or without adjuvants protected the neonatal mice completely, but more rapid Ab response was observed when IC31® was given with the Pnc1‐TT. IC31® is a promising new adjuvant for neonatal vaccinations, rapidly enhancing protective humoral responses when combined with Pnc1‐TT.