Antenatal care service delivery and factors affecting effective tetanus vaccine coverage in low- and middle-income countries: Results of the Maternal Immunisation and Antenatal Care Situational analysis (MIACSA) project.

OBJECTIVES: To map the integration of existing maternal tetanus immunization programmes within antenatal care (ANC) services for pregnant women in low- and middle-income countries (LMICs) and to identify and understand the challenges, barriers and facilitators associated with high performance maternal vaccine service delivery. DESIGN: A mixed methods, cross sectional study with four data collection phases including a desk review, online survey, telephone and face-to-face interviews and in country visits was undertaken between 2016 and 2018. Associations of different service delivery process components with protection at birth (PAB) and with country groups were established. PAB was defined as the proportion of neonates protected at birth against neonatal tetanus. Regression analysis and structural equation modelling was used to assess associations of different variables with maternal tetanus immunization coverage. Latent class analysis (LCA), was used to group country performance for maternal immunization, and to address the problem of multicollinearity. SETTING: LMICs. RESULTS: The majority of LMICs had a policy on recommended number of ANC visits, however most were yet to implement the WHO guidelines recommending eight ANC contacts. Countries that recommended > 4 ANC contacts were more likely to have high PAB > 90%. Passive disease surveillance was the most common form of disease surveillance performed but the maternal and neonatal morbidity and mortality indicators recorded differed between countries. The presence of user fees for antenatal care and maternal immunization was significantly associated with lower PAB (<90%). CONCLUSIONS: Recommendations include implementing the current WHO ANC guideline to facilitate increased opportunities for vaccination during each pregnancy. Improved utilisation of ANC services by increasing the demand side by increasing the quality of services, reducing any associated costs and supporting user fee exemptions, or the supply side can also enhance utilisation of ANC services which are positioned as an ideal platform for delivery of maternal vaccines.

Vaccine implementation factors affecting maternal tetanus immunization in low- and middle-income countries: Results of the Maternal Immunization and Antenatal Care Situational Analysis (MIACSA) project.

OBJECTIVES: To examine the characteristics of existing maternal tetanus immunization programmes for pregnant women in low- and middle-income countries (LMICs) and to identify and understand the challenges, barriers and facilitators associated with maternal vaccine service delivery that may impact the introduction and implementation of new maternal vaccines in the future. DESIGN: A mixed methods, cross sectional study with four data collection phases including a desk review, online survey, telephone and face-to-face interviews and in country visits. SETTING: LMICs. RESULTS: The majority of countries (84/95; 88%) had a maternal tetanus immunization policy. Countries with high protection at birth (PAB) were more likely to report tetanus toxoid-containing vaccine (TTCV) coverage targets > 90%. Less than half the countries included in this study had a TTCV coverage target of > 90%. Procurement and distribution of TTCV was nearly always the responsibility of the Expanded Programme on Immunization (EPI), however planning and management of maternal immunization was often shared between EPI and Maternal, Newborn and Child Health (MNCH) programmes. Receipt of TTCV at the same time as the antenatal care visit correlated with high PAB. Most countries (81/95; 85%) had an immunization safety surveillance system in place although only 11% could differentiate an adverse event following immunization (AEFI) in pregnant and non-pregnant women. CONCLUSIONS: Recommendations arising from the MIACSA project to strengthen existing services currently delivering maternal tetanus immunization in LMICs include establishing and maintaining vaccination targets, clearly defining responsibilities and fostering collaborations between EPI and MNCH, investing in strengthening the health workforce, improving the design and use of existing record keeping for immunization, adjusting current AEFI reporting to differentiate pregnant women and endeavoring to integrate the provision of TTCV within ANC services where appropriate.

Meeting Report: WHO consultation on considerations for regulatory expectations of Zika virus vaccines for use during an emergency.

On 1 February 2016, in the context of the ongoing Zika virus epidemic, the WHO declared that the recently reported clusters of microcephaly and other neurological disorders constituted a Public Health Emergency of International Concern (PHEIC). In response, WHO in collaboration with UNICEF and a working group of independent subject matter experts developed a Zika virus vaccine Target Product Profile (TPP) for use in an emergency, or in a future outbreak scenario. The drafting process of the Zika virus vaccine TPP included the opportunity for public comment, as well as consultation with epidemiologists, flavivirus vaccine subject matter experts, vaccine developers and global regulators to consider the regulatory expectations and potential emergency use pathways for a vaccine with the characteristics described in the TPP. This report summarizes an expert consultation held 6-7 June 2016 on the regulatory considerations for a Zika vaccine for emergency use.

Dengue research and training supported through the World Health Organization.

The rapidly increasing burden of dengue, the varied and often poorly understood factors contributing to its global spread, and the challenges of preventing and controlling it have led to a renewed call for more research and training on the disease. The main aims are to improve vector control, case management, and primary prevention through vaccine development. The World Health Organization (WHO), through its inter-departmental working group on dengue, is actively engaged in supporting and co-ordinating the major research activities. The dengue research initiatives of the Special Programme for Research and Training in Tropical Diseases (TDR), other departments at the WHO's Geneva headquarters, the WHO's regional and country offices, and the organization's dengue-affected member states are summarized in this article. This intensified effort, in close collaboration with other stakeholders, is contributing towards the goals of reversing the current epidemiological trends and of reducing the global burden posed by dengue in all of its forms.

Review on flavivirus vaccine development. Proceedings of a meeting jointly organised by the World Health Organization and the Thai Ministry of Public Health, 26-27 April 2004, Bangkok, Thailand.

In light of the continuous spread of human pathogenic flaviviruses, in particular the mosquito-transmitted species, vaccine development remains a high priority on the public health agenda. On 26-27 April 2004, a conference was held in Bangkok, Thailand, to review current status of flavivirus vaccine development and related issues, focussing on dengue (DEN) and Japanese encephalitis (JE). This event, co-sponsored by the World Health Organization (WHO) and the Thai Ministry of Public Health, reviewed the progress made with vaccine development, sero-epidemiological studies and other accompanying activities critical for vaccine development and vaccination. The considerable interest in and awareness of the flavivirus diseases and their prevention by public health decision makers, as well as the establishment of two dedicated programmes for dengue and Japanese encephalitis vaccine development raise hopes that new or improved vaccines will become available in the coming years.

Donor cell persistence and activation-induced unresponsiveness of peripheral CD8+ T cells.

We studied the impact of the duration of donor cell persistence on CD8+ T cell responsiveness after adoptive transfer of antigen-expressing lymphoid cells. Naive or immunized female mice were treated by adoptive transfer of spleen cells from mice ubiquitously expressing a lymphocytic choriomeningitis virus-derived cytotoxic T lymphocyte (CTL) epitope (gp33-41) either alone or in combination with the male H-Y antigen providing additional antigenic CTL and T helper cell determinants. Low doses of male spleen cells (or sorted B cells) primed CTL, while high doses of the same cells rendered them unresponsive. CTL unresponsiveness induced by high numbers of male spleen cells was dependent upon prolonged persistence of antigen-expressing donor cells. Unresponsive CTL reverted to a state of activation when the duration of donor cell chimerism was limited. Memory CTL could be rendered unresponsive if antigen-expressing donor cells were allowed to persist. These results suggest that, irrespective of the type of antigen-presenting cell and the functional state of the responding T cell, activation and unresponsiveness can represent two different outcomes critically determined by quantitative and kinetic differences of antigen persistence.

A protective cytotoxic T cell response to a subdominant epitope is influenced by the stability of the MHC class I/peptide complex and the overall spectrum of viral peptides generated within infected cells.

This study identifies instability of MHC class I/peptide complexes and intermolecular competition for MHC class I presentation as factors responsible for the subdominance of cytotoxic T lymphocyte (CTL) epitopes. This evidence is based on the characterization of a new CTL epitope derived from the glycoprotein (GP) of lymphocytic choriomeningitis virus (LCMV). This epitope, peptide GP117-125 (GP117) is presented to T cells by the mouse MHC class I molecule, H-2Db. In short-term experiments induction of GP117-specific CTL by vaccination rendered C57BL/6 mice only partially resistant to infection with wild-type LCMV (LCMV-WE) but completely resistant to challenge with a previously described LCMV variant. The variant virus, LCMV-8.7B23, bears point mutations within both known LCMV-GP, H-2 Db-restricted epitopes GP33-41 (GP33) and GP276-286 (GP276) resulting in a valine to leucine change at position 35 in peptide GP33 (V35L) and an asparagine to serine change at position 280 in peptide GP276 (N280S). Although variant peptide GP33/V35L stimulates a weak CTL response, GP276/N280S does not. Elution of peptide GP117 from both LCMV-WE- and LCMV-8.7B23-infected cells revealed that the difference in the capacity of GP117-specific CTL to protect against LCMV-WE and the virus variant LCMV-8.7B23 was due to differences in the level of GP117 presentation on the surface of both types of cells. Thus, it appears that the protective capacity of CTL specific for the subdominant epitope GP117 is influenced by the extent of presentation of other immunodominant peptide epitopes present within infected cells.

Antigen persistence and time of T-cell tolerization determine the efficacy of tolerization protocols for prevention of skin graft rejection.

We studied antigen-specific T-cell tolerization therapy using skin transplantation across a defined minor histocompatibility antigen difference. Specific tolerization protocols using short-lived peptide or long-lived spleen cells presenting the peptide as antigen prevented graft rejection without immunosuppression when started before or as long as 10 days after transplantation. Peptide-induced T-cell tolerance was transient, and antigen presentation by the graft was not sufficient to maintain tolerance. In contrast, transfer of antigen-expressing lymphoid cells induced long-lasting tolerance correlating with donor cell chimerism. These findings show that antigen-specific tolerization can induce graft acceptance even when begun after transplantation and that long-term graft survival depends on persistence of the tolerizing antigen.

Viral and bacterial infections interfere with peripheral tolerance induction and activate CD8+ T cells to cause immunopathology.

We studied the impact of various infectious and proinflammatory agents on the induction of peripheral T cell tolerance. Adoptive transfer of CD8+ T cells from lymphocytic choriomeningitis virus (LCMV) T cell receptor transgenic mice into LCMV antigen transgenic mice expressing the LCMV glycoprotein epitope (gp) 33-41 under control of a major histocompatibility complex class I promoter led to efficient induction of peripheral tolerance after a period of transient activation. If, however, the recipient mice were challenged with viral or bacterial infections or proinflammatory agents (lipopolysaccharide or Poly:IC) early after cell transfer, tolerance induction was prevented and instead, CD8+ T cell activation leading to vigorous expansion and generation of cytolytic activity ensued. This became manifest in significant immunopathology mainly involving destruction of the splenic architecture and lysis of antigen-expressing lymphocyte and macrophage populations. Important parameters involved in the activation of host-reactive T cells by nonspecific infectious agents included the presence, localization, and quantity of the specific transgene-encoded self-antigen; in contrast, CD4+ T cells were not required. In mice surviving the acute phase, the transferred CD8+ T cells persisted at high levels in an anergic state; they were unable to generate cytolytic activity in vitro or to control LCMV infection in vivo. These results impinge on our understanding of the role of infectious agents in graft verus host reactions towards minor histocompatibility antigens.

Bystander activation of cytotoxic T cells: studies on the mechanism and evaluation of in vivo significance in a transgenic mouse model.

Bystander activation, i.e., activation of T cells specific for an antigen X during an immune response against antigen Y may occur during viral infections. However, the low frequency of bystander-activated T cells has rendered it difficult to define the mechanisms and possible in vivo relevance of this nonspecific activation. This study uses transgenic mice expressing a major histocompatibility complex class I-restricted TCR specific for glycoprotein peptide 33-41 of lymphocytic choriomeningitis virus (LCMV) to overcome this limitation. CD8+ T cells from specific pathogen-free maintained, unimmunized "naive" TCR transgenic mice can differentiate into LCMV-specific cytolytic effector CTL during infections with vaccinia virus or Listeria monocytogenes in vivo or mixed lymphocyte culture in vitro. We show that in these model situations (a) nonspecifically activated CTL are able to confer antiviral protection in vivo, (b) bystander activation is largely independent of the expression of a second T cell receptor of different specificity, (c) bystander activation is not mediated by a broadly cross-reactive TCR, but rather by cytokines, (d) bystander activation can be mediated by cytokines such as IL-2, but not alpha/beta-IFN in vitro; (e) bystander activation is, overall, a rare event, occuring in vivo in roughly 1 in 200 of the LCMV-specific CTL during infection of TCR transgenic mice with vaccinia virus; (f) bystander activation does not have a significant functional impact on nontransgenic CTL memory under the conditions tested; and (g) even in the TCR transgenic situation, where unphysiologically high numbers of T cells of a single specificity are present, bystander activation is not sufficient to cause clinically manifest autoimmune disease in a transgenic mouse model of diabetes. We conclude that although bystander activation via cytokines may generate cytolytically active CTL from naive precursors, quantitative considerations suggest that this is usually not of major biological consequence.

Strictly transporter of antigen presentation (TAP)-dependent presentation of an immunodominant cytotoxic T lymphocyte epitope in the signal sequence of a virus protein.

Peptides presented by major histocompatibility complex (MHC) class I molecules are derived from intracellularly synthesized proteins. Cytosolic proteins are fragmented into peptides, which are subsequently transported via the transporter of antigen presentation (TAP) into the endoplasmic reticulum (ER), where they bind to MHC class I molecules. We have investigated the requirements for MHC class I presentation of the immunodominant gp33 cytotoxic T lymphocyte epitope of the lymphocytic choriomeningitis virus. This epitope is located within the leader peptide of the virus glycoprotein. Such an epitope is expected to be presented in a TAP-independent manner, since it is released into the ER by signal peptidase. Taking advantage of TAP1-/- mice, however, we show both in vitro and in vivo that, after virus infection, the presentation of the gp33 epitope is strictly dependent on a functional TAP heterodimer. The results are discussed with respect to peptide trimming processes in the ER.

A role for CD5 in TCR-mediated signal transduction and thymocyte selection.

CD5 is a transmembrane protein that is expressed on the surface of T cells and a subset of B cells. The absence of CD5 rendered thymocytes hyperresponsive to stimulation through the T cell antigen receptor (TCR) in vitro. Selection of T cells expressing three distinct transgenic TCRs was also abnormal in CD5-deficient mice. These observations indicate that CD5 can influence the fate of developing thymocytes by acting as a negative regulator of TCR-mediated signal transduction.

Identification of the genes encoding the IgM-alpha and Ig-beta components of the IgM antigen receptor complex by amino-terminal sequencing.

Beside the immunoglobulin (Ig) heavy and light chains the murine B cell receptor of the IgM class contains a heterodimer of two transmembrane proteins (IgM-alpha and Ig-beta). By N-terminal sequencing of IgM-alpha and Ig-beta we have identified the genes encoding these proteins as mb-1 and B29, respectively. Both genes are B cell specific and have been previously cloned from B minus T cell subtractive cDNA libraries. We have constructed expression vectors of the two genes and demonstrate that expression of the mb-1 and B29 genes can influence the surface expression of IgM in micron-transfected myeloma cells. From the known sequences of the IgM-alpha and Ig-beta proteins and from the results of previous transfection experiments with various vectors expressing the mu chain we have developed a structural model of the B cell antigen receptor of class IgM which we compare with that of the T cell antigen receptor.

Membrane IgM and IgD molecules fail to transduce Ca2+ mobilizing signals when expressed on differentiated B lineage cells.

We have measured Ca2+ mobilization in a panel of B lineage cell lines after stimulation with anti-Ig to assess whether membrane Ig transduces a functional signal in cells that are representative of immature, mature, or terminally differentiated stages. For these studies, three transfected cell lines which express the same IgM molecule (300-19 microns lambda 36/8, K46-17 microns lambda, and J558L microns lambda 3) as well as two lines expressing an identical IgD molecule (K46 delta m2.6 and J558L delta m8.8) were used. Cross-linking of membrane Ig on IgM+ or IgD+ lymphomas (K46-17 microns lambda or K46 delta m2.6) resulted in a Ca2+ mobilization response that is similar to that seen in mature, resting B cells. Both intracellular release and extracellular influx of Ca2+ were observed. In contrast, ligation of membrane Ig on an IgM+ pre-B cell line (300 - 19 microns lambda 36/8) induced extracellular influx of Ca2+ but no detectable intracellular release. Finally, cross-linking of membrane Ig on IgM+ or IgD+ plasmacytomas (J558L microns 3 or J558L delta m8.8) or an IgD+ B cell hybridoma (B1.8.delta 1) expressing an endogenous Ig gene, did not result in a detectable Ca2+ mobilization response. Importantly, stimulation of cells with the GTP-binding protein activator, aluminum fluoride, resulted in a comparable Ca2+ mobilization response in all cell lines. In view of the fact that aluminum fluoride induced a Ca2+ response in the terminally differentiated B cell lines, J558L microns 3, J558L delta m8.8, and B1.8.delta 1, it is likely that there is an alteration in the signal transduction cascade at some point proximal to GTP binding protein activation. This finding suggests that differentiation of the B cell is accompanied by the loss or alteration of one or more components that couple membrane Ig to subsequent signal transduction elements. Finally, it has previously been demonstrated that the IgM+ cell lines described above, express the recently described membrane Ig-associated protein, B34. Thus, it is apparent based on the fact that the J558L microns 3 cell line does not mobilize Ca2+ after stimulation with anti-Ig, that coexpression of B34 in association with membrane Ig does not constitute a functional receptor complex capable of activating GTP-binding proteins that in turn regulate Ca2+ mobilization.

Molecular components of the B cell antigen receptor complex of class IgD differ partly from those of IgM.

Two classes of immunoglobulin, IgM and IgD, are present as antigen receptors on the surface of mature B lymphocytes. We show here that IgD molecules are noncovalently associated in the B cell membrane with a heterodimer consisting of two proteins of 35 kd (IgD-alpha) and 39 kd (Ig-beta), respectively. The two novel proteins are not found in the IgD-expressing myeloma J558L delta m, which fails to bring IgD antigen receptor onto the cell surface. In a surface IgD positive variant line of this myeloma, however, membrane-bound IgD molecules are associated with the heterodimer, suggesting that the formation of an antigen receptor complex is required for surface IgD expression. We further demonstrate that the IgD-associated heterodimer differs partly from that of the IgM antigen receptor and that its binding to the heavy chain only requires the presence of the last constant domain and the transmembrane part of the delta m chain.

Molecular components of the B-cell antigen receptor complex of the IgM class.

The antigen receptors on mature B lymphocytes are membrane-bound immunoglobulins of the IgM and IgD classes whose cross-linking by polyvalent antigens results in B-cell proliferation and differentiation. How these membrane-bound immunoglobulin chains, which lack a cytoplasmic tail, generate a cell activation signal is not at present known. We now show that the IgM molecule is non-covalently associated in the membrane of B cells with two proteins of relative molecular mass 34,000 (Mr 34 K; IgM-alpha) and 39 K (Ig-beta) which form a disulphide-linked heterodimer. Surface expression of IgM seems to require the formation of an appropriate complex between IgM and the heterodimer. A transfection experiment indicates that IgM-alpha is the product of mb-1, a B-cell specific gene encoding a transmembrane protein with sequence homology to proteins of the T-cell antigen receptor-CD3 complex.