Sendai virus recombinant vaccine expressing a secreted, unconstrained respiratory syncytial virus fusion protein protects against RSV in cotton rats.

The respiratory syncytial virus (RSV) is responsible for as many as 199000 annual deaths worldwide. Currently, there is no standard treatment for RSV disease and no vaccine. Sendai virus (SeV) is an attractive pediatric vaccine candidate because it elicits robust and long-lasting virus-specific B cell and T cell activities in systemic and mucosal tissues. The virus serves as a gene delivery system as well as a Jennerian vaccine against its close cousin, human parainfluenza virus type 1. Here we describe the testing of a recombinant SeV (SeVRSV-Fs) that expresses an unconstrained, secreted RSV-F protein as a vaccine against RSV in cotton rats. After a single intranasal immunization of cotton rats with SeVRSV-Fs, RSV-specific binding and neutralizing antibodies were generated. These antibodies exhibited cross-reactivity with both RSV A and B isolates. RSV-F-specific IFN-γ-producing T cells were also activated. The SeVRSV-Fs vaccine conferred protection against RSV challenge without enhanced immunopathology. In total, results showed that an SeV recombinant that expresses RSV F in an unconstrained, soluble form can induce humoral and cellular immunity that protects against infection with RSV.

Incidence and serotype distribution of invasive group B streptococcal disease in young infants: a multi-country observational study.

BACKGROUND: Group B Streptococcus (GBS) is a leading cause of serious infection in very young infants. Robust incidence data from many geographic regions, including Latin America and Asia, are however lacking. METHODS: A multicenter, hospital-based observational study was performed in Panama, Dominican Republic, Hong Kong and Bangladesh. All represented urban, tertiary referral hospitals, except Bangladesh. GBS cases (microbiological isolation from normally sterile sites in infants aged 0-89 days) were collected over 12 months. RESULTS: At 2.35 (95% CI: 1.74-3.18) cases per 1000 live births, the incidence of early onset GBS disease (EOD) was highest in the Dominican Republic, compared with 0.76 (95% CI: 0.41-1.39) in Hong Kong and 0.77 (95% CI: 0.44-1.35) in Panama, while no cases were identified in Bangladesh. Over 90% of EOD cases occurred on the first day of life, with case fatality ratios ranging from 6.7% to 40%, varying by center, age of onset and clinical presentation. Overall, 90% of GBS (EOD and late onset disease) was due to serotypes Ia, Ib and III. CONCLUSIONS: The incidence rate of early onset GBS infection reported in Dominican Republic was not dissimilar from that described in the United States prior to screening and intrapartum antibiotic prophylaxis, while the incidence in Hong Kong was higher than previously reported in the Asian region. The failure to identify GBS cases in Bangladesh highlights a need to better understand the contribution of population, healthcare and surveillance practice to variation in reported incidence. Overall, the identified disease burden and serotype distribution support the need for effective prevention methods in these populations, and the need for community based surveillance studies in rural areas where access to healthcare may be challenging.

Long-term outcome of EBV-specific T-cell infusions to prevent or treat EBV-related lymphoproliferative disease in transplant recipients.

T-cell immunotherapy that takes advantage of Epstein-Barr virus (EBV)-stimulated immunity has the potential to fill an important niche in targeted therapy for EBV-related cancers. To address questions of long-term efficacy, safety, and practicality, we studied 114 patients who had received infusions of EBV-specific cytotoxic T lymphocytes (CTLs) at 3 different centers to prevent or treat EBV(+) lymphoproliferative disease (LPD) arising after hematopoietic stem cell transplantation. Toxicity was minimal, consisting mainly of localized swelling at sites of responsive disease. None of the 101 patients who received CTL prophylaxis developed EBV(+) LPD, whereas 11 of 13 patients treated with CTLs for biopsy-proven or probable LPD achieved sustained complete remissions. The gene-marking component of this study enabled us to demonstrate the persistence of functional CTLs for up to 9 years. A preliminary analysis indicated that a patient-specific CTL line can be manufactured, tested, and infused for $6095, a cost that compares favorably with other modalities used in the treatment of LPD. We conclude that the CTL lines described here provide safe and effective prophylaxis or treatment for lymphoproliferative disease in transplantation recipients, and the manufacturing methodology is robust and can be transferred readily from one institution to another without loss of reproducibility.

Safety and immunogenicity of an intranasal sendai virus-based vaccine for human parainfluenza virus type I and respiratory syncytial virus (SeVRSV) in adults.

SeVRSV is a replication-competent Sendai virus (SeV)-based vaccine carrying the respiratory syncytial virus (RSV) fusion protein (F) gene. Unmanipulated, non-recombinant SeV is a murine parainfluenza virus type 1 (PIV-1) and serves as a Jennerian vaccine for human PIV-1 (hPIV-1). SeV protects African green monkeys (AGM) from infection after hPIV-1 challenge. The recombinant SeVRSV additionally targets RSV and protects AGM from lower respiratory infections after RSV challenge. The present study is the first to report on the safety, viral genome detection, and immunogenicity following SeVRSV vaccination of healthy adults. Seventeen and four healthy adults received intranasal SeVRSV and PBS, respectively, followed by six months of safety monitoring. Virus genome (in nasal wash) and vaccine-specific antibodies (in sera) were monitored for two and four weeks, respectively, post-vaccination. The vaccine was well-tolerated with only mild to moderate reactions that were also present in the placebo group. No severe reactions occurred. As expected, due to preexisting immunity toward hPIV-1 and RSV in adults, vaccine genome detection was transient. There were minimal antibody responses to SeV and negligible responses to RSV F. Results encourage further studies of SeVRSV with progression toward a clinical trial in seronegative children. Abbreviations: AE-adverse event; SAE-serious adverse event; SeV-Sendai virus; RSV-respiratory syncytial virus; PIV-1-parainfluenza virus-type 1; hPIV-1-human parainfluenza virus-type 1; F-RSV fusion protein; SeVRSV-recombinant SeV carrying the RSV F gene; Ab-antibody; MSW-medically significant wheezing; NOCMC-new onset chronic medical condition, mITT-modified Intent to Treat; ALRI-acute lower respiratory tract infection.

How Basic Immunological Principles May Instruct the Design of a Successful HIV-Type 1 Vaccine.

This article is dedicated to Dr. Peter Doherty. While Peter continues to make groundbreaking discoveries in the field of immunology, he also provides outstanding scientific mentorship to his trainees. Here we contemplate our past training with Peter, Peter's teachings of basic immunological principles, and how basic principles may instruct the design of a successful human immunodeficiency virus-type 1 vaccine.

HIV-1 vaccine development: tackling virus diversity with a multi-envelope cocktail.

A major obstacle to the design of a global HIV-1 vaccine is viral diversity. At present, data suggest that a vaccine comprising a single antigen will fail to generate broadly reactive B-cell and T-cell responses able to confer protection against the diverse isolates of HIV-1. While some B-cell and T-cell epitopes lie within the more conserved regions of HIV-1 proteins, many are localized to variable regions and differ from one virus to the next. Neutralizing B-cell responses may vary toward viruses with different i) antibody contact residues and/or ii) protein conformations while T-cell responses may vary toward viruses with different (i) T-cell receptor contact residues and/or (ii) amino acid sequences pertinent to antigen processing. Here we review previous and current strategies for HIV-1 vaccine development. We focus on studies at St. Jude Children's Research Hospital (SJCRH) dedicated to the development of an HIV-1 vaccine cocktail strategy. The SJCRH multi-vectored, multi-envelope vaccine has now been shown to elicit HIV-1-specific B- and T-cell functions with a diversity and durability that may be required to prevent HIV-1 infections in humans.

HIV-1 envelope T cell epitope "hotspots " among mice and humans and among CD4+ and CD8+ T cell subpopulations.

HIV-1-specific T cell responses correlate with control of infection and disease, thus encouraging a full understanding of the peptides and antigen-processing mechanisms that govern T cell activation. We have previously demonstrated that CD4(+) T cell epitopes cluster nonrandomly within envelope protein "hotspot" regions. The current study was initiated to determine whether envelope-specific CD8(+) T cells might share epitope "hotspots" with the CD4(+) T cell population. Identification of CD8(+) T cell determinants by ELISPOT assays with peripheral blood mononuclear cells from four HIV-1-infected individuals, in conjunction with a survey of determinants in the Los Alamos database, revealed similarities among "hotspot" positions for CD4(+) and CD8T(+) cells within mice and humans. These results emphasized the important influence that envelope peptide position may have on antigen processing, and the consequent impact such processing may have on HIV-1-specific CD4(+) and CD8(+) T-cell activities.

Maternal Immunization With an Investigational Trivalent Group B Streptococcal Vaccine: A Randomized Controlled Trial.

OBJECTIVE: To evaluate the safety and immunogenicity of an investigational trivalent group B streptococcal vaccine in pregnant women and antibody transfer to their newborns. METHODS: The primary outcome of this observer-blind, randomized study was to estimate placental antibody transfer rates at birth. Secondary outcomes included measurement of serotype-specific antibodies at screening, 30 days postvaccination, at delivery, and 91 days postpartum, infant antibody levels at 3 months of age, the potential effect on routine infant diphtheria vaccination at 1 month after the third infant series dose, and safety in mother and infant participants through at least 5 months postpartum. Sample size was based on 60 participants in the vaccine group giving a probability of observing at least one adverse event of 90% if the actual rate of the event was 3.8%. RESULTS: From September 2011 to October 2013, 86 pregnant women were allocated in a 3:2 ratio to receive an investigational group B streptococcal vaccine containing glycoconjugates of serotypes Ia, Ib, and III or placebo. Demographics were similar across groups. Transfer ratios were 66-79% and maternal geometric mean concentrations increased 16-, 23-, and 20-fold by delivery against serotypes Ia, Ib, and III, respectively, Women with no detectable antibodies at inclusion had lower responses than those with detectable antibodies. Three months after birth, infant antibody concentrations were 22-25% of birth levels. Antidiphtheria geometric mean concentrations were similar across groups. In the vaccine and placebo groups, 32 of 51 women (63%) and 26 of 35 women (74%) reported adverse effects, respectively. CONCLUSION: The investigational vaccine was well-tolerated without safety signals in recipients and their infants or interference with routine infant diphtheria vaccination, although further studies on safety and effectiveness are needed. The investigational vaccine was immunogenic for all serotypes, particularly among women with detectable antibody levels at baseline. Antibody transfer to neonates was at similar levels to other maternally administered polysaccharide vaccines. CLINICAL TRIAL REGISTRATION: ClinicalTrials.gov, www.clinicaltrials.gov, NCT01446289.

HIV vaccine rationale, design and testing.

A central obstacle to the design of a global HIV vaccine is viral diversity. Antigenic differences in envelope proteins result in distinct HIV serotypes, operationally defined such that antibodies raised against envelope molecules from one serotype will not bind envelope molecules from a different serotype. The existence of serotypes has presented a similar challenge to vaccine development against other pathogens. In such cases, antigenic diversity has been addressed by vaccine design. For example, the poliovirus vaccine includes three serotypes of poliovirus, and Pneumovax presents a cocktail of 23 pneumococcal variants to the immune system. It is likely that a successful vaccine for HIV must also comprise a cocktail of antigens. Here, data relevant to the development of cocktail vaccines, designed to harness diverse, envelope-specific B-cell and T-cell responses, are reviewed.

Recombinant Sendai virus as a novel vaccine candidate for respiratory syncytial virus.

Respiratory syncytial virus (RSV) is among the most important and serious pediatric respiratory diseases, and yet after more than four decades of research an effective vaccine is still unavailable. This review examines the role of the immune response in reducing disease severity; considers the history of RSV vaccine development; and advocates the potential utility of Sendai virus (a murine paramyxovirus) as a xenogenic vaccine vector for the delivery of RSV antigens. The immunogenicity and protective efficacy of RSV-recombinant Sendai virus vectors constructed using reverse genetics is examined. RSV-recombinant Sendai virus is easy to grow (i.e., achieves extremely high titers in eggs), is easy to administer (intranasal drops), and elicits both B- and T-cell responses leading to protection from RSV challenge in a small-animal model. Unmodified Sendai virus is currently being studied in clinical trials as a vaccine for its closely related human cognate (human parainfluenza virus type 1). Sendai virus may prove an enormously valuable vaccine platform, permitting the delivery of recombinants targeting important pediatric respiratory pathogens, RSV chief among them.

T cell epitope "hotspots" on the HIV Type 1 gp120 envelope protein overlap with tryptic fragments displayed by mass spectrometry.

Our previous work has shown that immunodominant T-helper cell epitopes cluster within distinct fragments on a single face of the HIV envelope gp120 protein. We show in this report that the general positions of immunodominant epitopes are shared by T cells derived from BALB/c, C57BL/6, and CB6F1 mice, yet the precise peptides recognized by the responding T cell populations may differ. In addition, we find that gp120 peptides displayed by tryptic digestion and mass spectrometry of a purified HIV envelope protein share location with peptides defined as immunodominant T cell targets. Results are consistent with the suggestion that gp120 peptide location influences antigen processing, which, in turn, influences the specificity of immunodominant T cells.

CD8+ T-cells: are they sufficient to prevent, contain or eradicate HIV-1 infection?

The prevention of HIV-1 by vaccination has proven to be a formidable task. In an ongoing endeavor to end the HIV-1 pandemic, scientists seek vaccines that will elicit quantitatively and qualitatively robust B-cell and T-cell activities. Given that cytotoxic T-lymphocytes (CTL) play a substantial role in the immunological control of immunodeficiency virus infections, this review will focus on vaccines designed to elicit HIV-1-specific CTL. Vaccine approaches using various HIV-1 proteins or specific CTL determinants, partnered with diverse delivery systems and adjuvants will be discussed. Lessons from studies with other virus models (e.g. gamma herpes virus and influenza virus) will also be examined. Since CTL contribute to the success of vaccines in other model systems, an understanding of the strengths and possible limitations of these cells may be critical to future successes in the HIV-1 vaccine field.

Application of the polyvalent approach to HIV-1 vaccine development.

One major obstacle to the design of a global HIV-1 vaccine is viral diversity. Presently, data suggest that a single antigen will not suffice to generate broadly reactive neutralizing antibodies to protect all individuals against all subtypes of HIV-1 infection. While some of the neutralizing epitopes are identified in the constant regions of the HIV-1 envelope (Env) glycoprotein, many are localized to variable regions and differ conformationally from one virus to the next. The successes of polyvalent vaccine approaches against other antigenically variable pathogens encourage adoption of the same approach for HIV-1 vaccine design. The critical question is which envelope antigens should be combined in a vaccine cocktail to provide maximum protection against HIV-1. A review of the existing human vaccines based on the polyvalent principle is included here to provide a historical perspective for the current effort of developing a polyvalent HIV-1 vaccine. Data generated from several groups actively working on candidate polyvalent HIV-1 vaccines are summarized. Information presented in this review highlights the potential and importance of the polyvalent vaccine approach for the future development of an effective HIV-1 vaccine.

The HIV pandemic: a forgotten crisis?

The devastation caused by HIV and AIDS has touched virtually every world region. One concern is that the unrelenting nature of the HIV pandemic fosters a disposition, not of fear and determination, but of tolerance and complacency.

Clade, Country and Region-specific HIV-1 Vaccines: Are they necessary?

Today, scientists are often encouraged to custom-design vaccines based on a particular country or clade. Here, we review the scientific literature and then suggest that the overwhelming endeavor to produce a unique vaccine for every world region or virus subtype may not be necessary.

Safety and immunogenicity of an intranasal Sendai virus-based human parainfluenza virus type 1 vaccine in 3- to 6-year-old children.

Human parainfluenza virus type 1 (hPIV-1) is the most common cause of laryngotracheobronchitis (croup), resulting in tens of thousands of hospitalizations each year in the United States alone. No licensed vaccine is yet available. We have developed murine PIV-1 (Sendai virus [SeV]) as a live Jennerian vaccine for hPIV-1. Here, we describe vaccine testing in healthy 3- to 6-year-old hPIV-1-seropositive children in a dose escalation study. One dose of the vaccine (5 × 10(5), 5 × 10(6), or 5 × 10(7) 50% egg infectious doses) was delivered by the intranasal route to each study participant. The vaccine was well tolerated by all the study participants. There was no sign of vaccine virus replication in the airway in any participant. Most children exhibited an increase in antibody binding and neutralizing responses toward hPIV-1 within 4 weeks from the time of vaccination. In several children, antibody responses remained above incoming levels for at least 6 months after vaccination. Data suggest that SeV may provide a benefit to 3- to 6-year-old children, even when vaccine recipients have preexisting cross-reactive antibodies due to previous exposures to hPIV-1. Results encourage the testing of SeV administration in young seronegative children to protect against the serious respiratory tract diseases caused by hPIV-1 infections.

Inhibition of ex vivo-expanded cytotoxic T-lymphocyte function by high-dose cyclosporine.

BACKGROUND: Donor-derived, ex vivo-expanded cytotoxic T lymphocytes (CTL) can provide stem-cell transplantation (SCT) patients with a renewed capacity for virus-specific immune surveillance. Because SCT patients are often treated with cyclosporine (CsA), we questioned whether ex vivo-expanded CTL were susceptible to inhibition by this immunosuppressive drug. METHODS: Human Epstein-Barr virus (EBV)-specific CTL were established by cultivating T cells for at least 5 weeks with interleukin (IL)-2 and irradiated, autologous EBV-transformed B-lymphoblastoid cell lines (LCL). In some cases, CsA was added during the last week of T-cell expansion. Effectors were then tested for cytotoxicity toward their targets in a chromium-release assay or by coculture with viable, unlabeled targets, in the presence or absence of CsA. Alloreactive CTL were similarly expanded and tested against major histocompatibility complex-mismatched stimulator cells. RESULTS: CsA had a marginal effect on CTL function when added at concentrations greater than or equal to 250 ng/mL during the 4- to 6-hour chromium release assay. However, exposure of CTL to CsA for 1 week before assay reduced lytic function significantly. When the CTL lines were cocultured with viable targets in the presence of CsA, effectors were unable to eliminate their targets, which ultimately dominated the culture. CONCLUSIONS: We suggest that the activity of ex vivo-expanded CTL may be significantly compromised in the presence of high-dose CsA in vivo, particularly if CTL are administered for the purpose of long-term virus-specific immune surveillance.

A five-residue HIV envelope helper T cell determinant: does this peptide-MHC interaction leave the binding groove half empty?

High-resolution structures have revealed major pockets in the MHC class II peptide binding groove within a region designated Pl-P9. The region can accommodate 9-mer peptides, consistent with the observation that minimal core helper T (Th) cell determinants are usually eight or nine residues in size. Here we describe mouse Th cell hybridomas that are specific for a core peptide of only five residues (NPIIL) in the HIV envelope glycoprotein. Effective Th cell stimulation requires that these MHC class II Ia(b)-presented peptides contain amino acids flanking the minimal pentamer, but the flanking residues may be located on either the N or C terminus. To explain these findings, we suggest that mini-Th cell epitopes may effectively associate with MHC when only five (or possibly fewer) of the P1-P9 positions are filled. The remaining positions may be empty, or may be associated with a second, perhaps unrelated, peptide moiety.

Do the immunosuppressive drugs used as treatment for graft-versus-host disease directly inhibit lymphoid tumor cell growth?

Hematopoietic stem cell transplantation (HSCT) is a curative treatment for certain leukemias and lymphomas that prove resistant to standard chemotherapy. The immunosuppressive drugs prednisone and cyclosporin A (CsA) are routinely used during HSCT to prevent or treat graft-versus-host disease (GVHD) or to inhibit antibody-mediated inflammation. However, little is known about the direct impact of prednisone and CsA on the growth of malignant lymphoid cells in the setting of HSCT. To address this issue, we measured tumor cell growth in vitro and in vivo after treatment with prednisone and CsA, used separately, together, and in combination with irradiation. Our results showed that: (i) combinations of CsA and prednisone inhibited the growth of a variety of lymphoid tumors in vitro, particularly in combination with irradiation, and (ii) tumor size was significantly reduced in a mouse B-lymphoid tumor model following CsA or CsA plus prednisone treatments, with or without HSCT.

Sendai virus-based RSV vaccine protects against RSV challenge in an in vivo maternal antibody model.

Respiratory syncytial virus (RSV) is the cause of significant morbidity and mortality among infants, and despite decades of research there remains no licensed vaccine. SeVRSV is a Sendai virus (SeV)-based live intranasal vaccine that expresses the full length RSV fusion (F) gene. SeV is the murine counterpart of human parainfluenza virus type 1. Given that the target population of SeVRSV is young infants, we questioned whether maternal antibodies typical of this age group would inhibit SeVRSV vaccine efficacy. After measuring SeV- and RSV-specific serum neutralizing antibody titers in human infants, we matched these defined titers in cotton rats by the passive transfer of polyclonal or monoclonal antibody products. Animals were then vaccinated with SeVRSV followed by a 3 month rest period to allow passively transferred antibodies to wane. Animals were finally challenged with RSV to measure the de novo vaccine-induced immune responses. Despite the presence of passively-transferred serum neutralizing antibodies at the time of vaccination, SeVRSV induced immune responses that were protective against RSV challenge. The data encourage advancement of SeVRSV as a candidate vaccine for the protection of children from morbidity and mortality caused by RSV.