Activation of human B lymphocytes after immunization with pneumococcal polysaccharides

T-independent responses to polysaccharides in humans mobilize marginal zone B cells prediversified against gut bacterial antigens

Marginal zone (MZ) B cells are one of the main actors of T-independent (TI) responses in mice. To identify the B cell subset(s) involved in such responses in humans, we vaccinated healthy individuals with Pneumovax, a model TI vaccine. By high-throughput repertoire sequencing of plasma cells (PCs) isolated 7 days after vaccination and of different B cell subpopulations before and after vaccination, we show that the PC response mobilizes large clones systematically, including an immunoglobulin M component, whose diversification and amplification predated the pneumococcal vaccination. These clones could be mainly traced back to MZ B cells, together with clonally related IgA+ and, to a lesser extent, IgG+CD27+ B cells. Recombinant monoclonal antibodies isolated from large PC clones recognized a wide array of bacterial species from the gut flora, indicating that TI responses in humans largely mobilize MZ and switched B cells that most likely prediversified during mucosal immune responses against bacterial antigens and acquired pneumococcal cross-reactivity through somatic hypermutation.

Production and efficacy of a low-cost recombinant pneumococcal protein polysaccharide conjugate vaccine

Streptococcus pneumoniae is the leading cause of bacterial pneumonia. Although this is a vaccine preventable disease, S. pneumoniae still causes over 1 million deaths per year, mainly in children under the age of five. The biggest disease burden is in the developing world, which is mainly due to unavailability of vaccines due to their high costs. Protein polysaccharide conjugate vaccines are given routinely in the developed world to children to induce a protective antibody response against S. pneumoniae. One of these vaccines is Prevnar13, which targets 13 of the 95 known capsular types. Current vaccine production requires growth of large amounts of the 13 serotypes, and isolation of the capsular polysaccharide that is then chemically coupled to a protein, such as the diphtheria toxoid CRM197, in a multistep expensive procedure. In this study, we design, purify and produce novel recombinant pneumococcal protein polysaccharide conjugate vaccines in Escherichia coli, which act as mini factories for the low-cost production of conjugate vaccines. Recombinant vaccine efficacy was tested in a murine model of pneumococcal pneumonia; ability to protect against invasive disease was compared to that of Prevnar13. This study provides the first proof of principle that protein polysaccharide conjugate vaccines produced in E. coli can be used to prevent pneumococcal infection. Vaccines produced in this manner may provide a low-cost alternative to the current vaccine production methodology.

Inflammatory Markers and Immune Response to Pneumococcal Vaccination in HIV-Positive and -Negative Adults

Background

Members of the Tumor Necrosis Factor (TNF)-superfamily have speculated roles in the response against T-independent type II antigens (TI-II) including pneumococcal polysaccharides (PPS). Dysregulation in their expression is associated with an enhanced risk for pneumococcal disease in neonates but their expression in other high-risk populations including HIV-positive individuals remains to be elucidated.

Objective

To investigate signals that contribute towards PPS-response and identify potential anomalies that may account for diminished serological response in HIV-positive individuals post Pneumovax (PPV23) immunization.

Methods

Markers of inflammation, C-reactive protein (CRP), IL-6, sCD27 and sCD30, were assessed in HIV-positive and -negative individuals as potential predictors of PPV23 response. Serum levels of B cell activating factor (BAFF), transmembrane activator and calcium-modulator and cytophilin ligand interactor (TACI), B cell maturation antigen (BCMA) and B cell expression of BAFF-R, TACI, BCMA, CD40 and CD21 were assessed in total (unselected) and PPS23F (antigen)-specific B cells of PPV23 immunized HIV-positive and -negative individuals.

Results

CRP, sCD27, sCD30 and BAFF were significantly elevated in the serum of HIV-positive individuals but did not adversely affect PPV23 response. Assessment of PPS-specific B cells revealed enhanced TACI and reduced BAFF-R expression compared to unselected B cells in HIV-positive and -negative individuals. Surface TACI was similar but soluble TACI was significantly lower in HIV-positive compared to HIV-negative individuals.

Conclusion

Current studies highlight a potential role for TACI in PPV23 response based on its enhanced expression on PPS-specific B cells. Although surface levels of TACI were similar, diminished soluble TACI (sTACI) in HIV-positive compared to HIV-negative individuals could potentially decrease BAFF responsiveness and Ig response. A better understanding of the role of TNF receptors could contribute to the design of improved pneumococcal vaccines.

Trial Registration

ClinicalTrials.gov NCT02515240

Response to Pneumococcal Polysaccharide Vaccination in Newly Diagnosed HIV-Positive Individuals

BACKGROUND

Newly diagnosed HIV-positive individuals are 35 to 100-fold more susceptible to Streptococcus pneumoniae infection compared to non-infected individuals. Therefore, the 23-valent pneumococcal polysaccharide vaccine (PPV23) has previously been recommended, though efficacy and effectiveness of vaccination remains controversial. Early severe B cell dysfunction is a central feature of HIV infection. The specific nature of the immune cells involved in the production of protective antigen-specific antibodies in HIV-positive individuals remains to be elucidated.

OBJECTIVES

Evaluate the antibody and antigen-specific B cell response to the 23-valent pneumococcal polysaccharide vaccine in newly diagnosed HIV-positive patients. Moreover, determine if newly diagnosed patients with CD4<200 cells/μl benefit from 6-12 months of HAART, allowing partial viral suppression and immune reconstitution, prior to immunization.

METHODS

Newly diagnosed HIV-positive patients with CD4>200 cells/μl and CD4<200 cells/μl were immunized with PPV23. Patients with CD4<200 cells/μl received either immediate or delayed immunization following 6-12 months of HAART. Antibody responses, opsonophagocytic activity and phenotypic analysis of pneumococcal polysaccharide-specific B cells were studied.

RESULTS

Newly diagnosed HIV-positive patients demonstrated CD4-dependent increases in antibody and opsonophagocytic titers thought to be commensurate with protection. Functional opsonophagocytic titers of patients with CD4<200 cells/μl immunized immediately compared to patients with CD4<200 cells/μl receiving HAART for 6-12 months were not significantly different. Pneumococcal polysaccharide-specific B cells were distributed evenly between IgM memory and switched memory B cells for all groups, but IgM memory B cells were significantly lower than in HIV-negative individuals.

CONCLUSIONS

Despite CD4-dependent pneumococcal polysaccharide-specific deficiencies in newly diagnosed HIV-positive patients, vaccination was beneficial based on opsonophagocytic titers for all newly diagnosed HIV-positive groups. In HIV-positive patients with CD4<200 cells/μl, 6-12 months of HAART did not improve opsonophagocytic titers or antibody concentrations. Based on these findings, immunization with the 23-valent pneumococcal polysaccharide vaccine should not be delayed in newly diagnosed HIV-positive patients with CD4<200 cells/μl.

Response to Pneumococcal Polysaccharide Vaccination in HIV-Positive Individuals on Long Term Highly Active Antiretroviral Therapy

Background and objectives

Streptococcus pneumoniae continues to cause serious infections in HIV-positive individuals in the era of highly active anti-retroviral therapy. This led to the recommendation to revaccinate HIV-positive individuals with PPV23 five years after primary vaccination. The benefits of revaccination and the impact of long term highly active anti-retroviral therapy (HAART) on antigen-specific B cell reconstitution have remained unclear thus far and were investigated.

Design and methods

We assessed antibody levels, opsonophagocytic activity and phenotype of pneumococcal polysaccharide (PPS) specific-B cells post-revaccination in long term HAART cohorts stratified according to CD4 count as group A (CD4>200) and group B (CD4<200). Anti-PPS IgG, IgM and functional antibody response against vaccine serotypes 14 and 23F were measured by ELISA and opsonophagocytic assay followed by phenotypic analysis of PPS14 and 23F-specific B cells using fluorescently labeled PPS.

Results

Significant increases in total and functional antibody titers were noted in groups A and B post-vaccination concomitant with significant rise in PPS-specific IgM memory B cells, a critical B cell subset required for protection against PPS although the overall response remained significantly diminished compared to HIV-negative volunteers.

Conclusion

Comparable increases in opsonophagocytic titers between study groups A and B concomitant with a comparable rise in PPS-specific IgM memory B cells indicate revaccination to be beneficial regardless of the degree of CD4 T cell reconstitution. These findings emphasize the importance of defining effective vaccination practices amongst high-risk individuals.

The immune response to pneumococcal polysaccharides 14 and 23F among elderly individuals consists predominantly of switched memory B cells

The phenotype of B cells that respond to vaccination with the purified pneumococcal polysaccharide (PPS) has been a topic of debate. We have recently identified the phenotype of cells from healthy young volunteers as CD27(+)IgM(+) B cells. However, the PPS-responding B-cell population has not yet been identified in high-risk populations, such as elderly individuals. Previous studies have shown that elderly individuals have a lower percentage of immunoglobulin M memory B cells than healthy young adults. In this study, we directly characterized the phenotype of PPS-specific B cells before and after vaccination with PPS vaccine (PPV) in elderly adults, using fluorescently labeled PPS14 and PPS23F. In contrast to our observations in healthy young volunteers, the PPS-responding B-cell population consisted primarily of switched memory (CD27(+)IgM(-)) B cells. In concurrence with these findings, postvaccination immunoglobulin M concentrations were not significantly increased in this population, and the opsonophagocytic response was decreased, compared with that in young adults. These findings identify a significant shift in the phenotype of the B-cell population in response to PPV among elderly individuals.

Phenotypic analysis of pneumococcal polysaccharide-specific B cells

The phenotype of B cells responsible for the production of anti-pneumococcal polysaccharide Ab has been unclear. Although individuals that respond poorly to the 23-valent pneumococcal polysaccharide (PPS) vaccine, Pneumovax, such as children <2 y, the asplenic, and a subset of common variable immunodeficiency patients, are profoundly deficient or lack IgM memory cells (CD27(+)IgM(+)), they are also deficient in the switched memory (CD27(+)IgM(-)) compartment. Direct characterization of PPS-specific B cells has not been performed. In this study, we labeled PPS14 and PPS23F with fluorescent markers. Fluorescently labeled PPS were used in FACSAria flow cytometry to characterize the phenotype of PPS-specific B cells obtained from 18 young adults pre- and postimmunization with Pneumovax. The labeled PPS were capable of inhibiting binding of Ab to the native PPS. Similarly, the native PPS were able to inhibit binding of PPS-specific B cells in a flow cytometric assay demonstrating specificity and functionality. Phenotypic analysis of unselected B cells, pre- and postimmunization, demonstrated a predominance of naive CD27(-)IgM(+) cells accounting for 61.5% of B cells. Likewise, the PPS-specific B cells obtained preimmunization consisted primarily of naive, CD27(-) B cells, 55.4-63.8%. In contrast, the PPS-specific B cells obtained postimmunization were predominantly IgM memory cells displaying the CD27(+)IgM(+), 54.2% for PPS14 and 66% for PPS23F, significantly higher than both unselected B cells and PPS-specific B cells. There was no significant difference in switched memory B cell populations (CD27(+)IgM(-)) between groups. These results suggest a dominant role of IgM memory cells in the immune response to pneumococcal polysaccharides.

Plasma and memory B-cell kinetics in infants following a primary schedule of CRM 197-conjugated serogroup C meningococcal polysaccharide vaccine

The induction of persistent protective levels of pathogen-specific antibody is an important goal of immunization against childhood infections. However, antibody persistence is poor after immunization in infancy versus later in life. Serogroup C meningococci (MenC) are an important cause of bacteraemia and meningitis in children. The use of protein-polysaccharide conjugate vaccines against MenC has been associated with a significant decline in the incidence of invasive disease. However, vaccine effectiveness is negligible by more than 1 year after a three-dose priming series in infancy and corresponds to a rapid decline in antibody following an initial immune response. The cellular mechanisms underlying the generation of persistent antibody in this age group are unclear. An essential prelude to larger studies of peripheral blood B cells is an understanding of B-cell kinetics following immunization. We measured MenC- and diphtheria-specific plasma and memory B-cell kinetics in infants receiving a CRM(197) (cross-reactive material; mutant diphtheria toxoid)-conjugated MenC vaccine at 2, 3 and 4 months of age. Plasma cell responses were more delayed after the first dose when compared with the rapid appearance of plasma cells after the third dose. Memory B cells were detectable at all time-points following the third dose as opposed to the low frequency seen following a first dose. This study provides data on B-cell kinetics following a primary schedule of immunization in young infants upon which to base further studies of the underlying cellular mechanism of humoral immunity.

Serotype-specific and age-dependent generation of pneumococcal polysaccharide-specific memory B-cell and antibody responses to immunization with a pneumococcal conjugate vaccine

Glycoconjugate vaccines have dramatically reduced the incidence of encapsulated bacterial diseases in toddlers under 2 years of age, but vaccine-induced antibody levels in this age group wane rapidly. We immunized adults and 12-month-old toddlers with heptavalent pneumococcal conjugate vaccine to determine differences in B-cell and antibody responses. The adults and 12-month-old toddlers received a pneumococcal conjugate vaccine. The toddlers received a second dose at 14 months of age. The frequencies of diphtheria toxoid and serotype 4, 14, and 23F polysaccharide-specific plasma cells and memory B cells were determined by enzyme-linked immunospot assay. The toddlers had no preexisting polysaccharide-specific memory B cells or serum immunoglobulin G (IgG) antibody but had good diphtheria toxoid-specific memory responses. The frequencies of plasma cells and memory B cells increased by day 7 (P < 0.0001) in the adults and the toddlers following a single dose of conjugate, but the polysaccharide responses were significantly lower in the toddlers than in the adults (P = 0.009 to <0.001). IgM dominated the toddler antibody responses, and class switching to the IgG was serotype dependent. A second dose of vaccine enhanced the antibody and memory B-cell responses in the toddlers but not the ex vivo plasma cell responses. Two doses of pneumococcal conjugate vaccine are required in toddlers to generate memory B-cell frequencies and antibody class switching for each pneumococcal polysaccharide equivalent to that seen in adults.

Microbes, immunoregulation, and the gut

Two distinct, but rapidly converging, areas of research (the hygiene hypothesis and the study of probiotic/prebiotic effects) have emphasised the need to understand, and ultimately to manipulate, our physiological interactions with commensal flora, and with other transient but harmless organisms from the environment that affect immunoregulatory circuits. The story began with allergic disorders but now inflammatory bowel disease is increasingly involved.

Generation of migratory antigen-specific plasma blasts and mobilization of resident plasma cells in a secondary immune response

Maintenance of protective humoral immunity depends on the generation and survival of antibody-secreting cells. The bone marrow provides niches for long-term survival of plasma cells generated in the course of systemic immune responses in secondary lymphoid organs. Here, we have analyzed migratory human plasma blasts and plasma cells after secondary vaccination with tetanus toxin. On days 6 and 7 after immunization, CD19(+)/CD27(high)/intracellular immunoglobulin G(high) (IgG(high))/HLA-DR(high)/CD38(high)/CD20(-)/CD95(+) tetanus toxin-specific antibody-secreting plasma blasts were released in large numbers from the secondary lymphoid organs into the blood. These cells show chemotactic responsiveness toward ligands for CXCR3 and CXCR4, probably guiding them to the bone marrow or inflamed tissue. At the same time, a population of CD19(+)/CD27(high)/intracellular IgG(high)/HLA-DR(low)/CD38(+)/CD20(-)/CD95(+) cells appeared in the blood in large numbers. These cells, with the phenotype of long-lived plasma cells, secreted antibodies of unknown specificity, not tetanus toxoid. The appearance of these plasma cells in the blood indicates successful competition for survival niches in the bone marrow between newly generated plasma blasts and resident plasma cells as a fundamental mechanism for the establishment of humoral memory and its plasticity.

Invasive pneumococcal disease in the immunocompromised host

A normal constituent of the human upper respiratory flora, Streptococcus pneumoniae also produces respiratory tract infections that progress to invasive disease at high rates in specific risk groups. The individual factors that contribute to the development of invasive pneumococcal disease in this distinct minority of persons, include immune (both specific and innate), genetic, and environmental elements. Specific defects in host responses may involve age, deficiencies in levels of antibodies and complement factors, and splenic dysfunction. Combinations of these immune defects contribute to the increased rates of invasive pneumococcal disease in patients with sickle cell disease, nephrotic syndrome, neoplasms, and underlying medical conditions such as diabetes and alcoholic liver disease. The number of risk factors are greatest and the rates of invasive disease are highest in patients with HIV-1 infection, which has emerged as a major risk factor for serious S. pneumoniae infection worldwide.

Salivary anti-capsular antibodies in infants and children immunised with Streptococcus pneumoniae capsular polysaccharides conjugated to diphtheria or tetanus toxoid

Saliva samples of infants and children immunised with pneumococcal vaccines were analysed for anti-polysaccharide (PS) antibodies against the Streptococcus pneumoniae (Pnc) vaccine serotypes 6B, 14, 19F, and 23F. The children received Pnc conjugate vaccine (1, 3, or 10 micrograms of PSs conjugated to diphtheria or tetanus toxoid) or placebo at 2, 4, and 6 months. At 7 months of age salivary PS antibodies were detected rarely. All children received Pnc conjugate or PS vaccine at 14 months of age. At 15 months, both IgA and IgG anti-Pnc PS were found, anti-19F and anti-14 antibodies occurring most frequently and in the highest concentrations. IgA was in the secretory form and predominantly IgA1. A negative dose dependency was observed in IgA anti-19F response. In general, no clear differences in salivary antibody responses were found between the children primed with conjugate vaccine in infancy and those who received their first Pnc vaccine at 14 months of age, suggesting that priming with Pnc conjugate vaccines does not lead to remarkable mucosal memory responses.

Rapid loss of specific antibodies after pneumococcal vaccination in patients with human immunodeficiency virus-1 infection

Pneumococcal infections are frequently observed in patients with human immunodeficiency virus (HIV) infection and active immunization has been recommended as prophylaxis in this patient group. We studied 103 out-patients with asymptomatic or mildly symptomatic HIV infection with respect to specific IgG and IgG2 pneumococcal antibodies before and after vaccination with a 23-valent pneumococcal polysaccharide vaccine. A significant increase ( > 2-fold) in IgG and IgG2 antibody levels was observed after 1 month in 69/103 patients (67%) with no correlation with the CD4 cell count at the time of vaccination. The response rate was not influenced by concurrent treatment with anti-retroviral monotherapy, or by age or gender. After immunization a strong correlation between IgG and IgG2 anti-pneumococcal antibodies was demonstrated. Nevertheless, 12 months after vaccination the specific antibody titres were not significantly different from pre-vaccination values. In conclusion, antibodies induced by pneumococcal vaccination in patients with HIV infection have a short duration. This raises the question as to whether vaccination will have any impact on clinical end-point in this group of patients.

Deficient IgA1 immune response to nasal cholera toxin subunit B in primary IgA nephropathy

Twelve IgA nephropathy (IgAN) patients and 18 controls were immunized with novel protein antigens, cholera toxin subunit B (CTB) via the nasal route and keyhole limpet hemocyanin (KLH) subcutaneously. Antibody secreting cells and antibody response in body fluids were determined by ELISPOT assay and ELISA, respectively. Analysis of variance showed, in contrast to controls (P < 0.001), no CTB-specific IgA response in the nasal washes of patients with IgAN. Significantly lower numbers of CTB-specific antibody-secreting cells in peripheral blood (P < 0.001) and CTB-specific antibodies in plasma (P < 0.005) were found in IgAN, both restricted to the IgA1 subclass. The proportions of CTB-specific IgA1-secreting cells in bone marrow aspirates correlated significantly with the corresponding ratios in plasma, with significantly lower values (P < 0.005) in IgAN as compared to controls. These results support the existence of a "mucosa-bone marrow axis" in humans, but no dysregulation of this axis was found in IgAN. The deficient mucosal IgA immune response to CTB observed in this study after primary mucosal immunization indicates that patients with IgAN have a defective immune response when challenged intranasally. These patients may depend on more frequent and/or prolonged antigen encounter at mucosal sites before efficient mucosal immunity is established. Repeated seeding of antigen-specific cells to secondary lympoid organs could result secondarily in the relative hyperresponsiveness found in IgAN upon reactivation by parenteral immunization.

A novel strategy for generating monoclonal antibodies from single, isolated lymphocytes producing antibodies of defined specificities

We report a novel approach to the generation of monoclonal antibodies based on the molecular cloning and expression of immunoglobulin variable region cDNAs generated from single rabbit or murine lymphocytes that were selected for the production of specific antibodies. Single cells secreting antibodies for a specific peptide either from gp116 of the human cytomegalovirus or from gp120 of HIV-1 or for sheep red blood cells were selected using antigen-specific hemolytic plaque assays. Sheep red blood cells were coated with specific peptides in a procedure applicable to any antigen that can be biotinylated. Heavy- and light-chain variable region cDNAs were rescued from single cells by reverse transcription-PCR and expressed in the context of human immunoglobulin constant regions. These chimeric murine and rabbit monoclonal antibodies replicated the target specificities of the original antibody-forming cells. The selected lymphocyte antibody method exploits the in vivo mechanisms that generate high-affinity antibodies. This method can use lymphocytes from peripheral blood, can exploit a variety of procedures that identify individual lymphocytes producing a particular antibody, and is applicable to the generation of monoclonal antibodies from many species, including humans.

Peripheral blood antibody-secreting cells in the evaluation of the immune response to an oral vaccine

Specific antibody-secreting cells (ASC) appear in the blood as a response to oral vaccination in humans. Based on information from animal experiments, these cells are believed to be migrating to the mucosa. This review summarizes a series of studies aimed at a detailed characterization of the ASC response to a prototype oral vaccine Salmonella typhi Ty21a, with respect to its kinetics, Ig-class distribution, antigen specificity, influence of the administration route and nature of the antigen, and the corresponding antibody responses in serum. Different vaccine formulations as well as dosage schedules are compared, and the response to booster immunization is described. The response manifested by ASC in blood is shown to be independent from serum antibody responses. Moreover, it is shown to parallel with the results obtained for protection in field trials. Finally, some data on the homing receptor expression of these cells are presented, giving further evidence for the mucosal homing of these cells. The ASC assay offers a practical means for assessing immune response to oral vaccines in humans. It can be used as a laboratory parameter correlated with protection conferred by an oral typhoid vaccine. It can even be applied to measure active mucosal immunity, i.e., protective immunity by showing the relative reduction of the ASC response to an oral dose of live vaccine.

Deficient antipneumococcal polysaccharide responses in HIV-seropositive patients

In a prospective study, serological responses and opsonic activity towards Streptococcus pneumoniae were measured in 60 HIV-infected patients and 25 controls after the administration of the 23-valent pneumococcal vaccine (PneumovaxR). Serum samples were collected before vaccination and at weeks 1, 2, 4, and 12 after vaccination and were tested for the presence of antibodies against a mixture of capsular polysaccharide antigens (pool) and against type 3 and type 4 antigens (PS3 and PS4), using an ELISA. A serological response was defined as a two-fold or greater increase in serum titer after vaccination. Opsonophagocytosis was measured in patients with a definite response against PS3. Generally, prevaccination antipneumococcal antibody titers were clearly higher in HIV-infected patients than in healthy controls. After vaccination, antipool antibody responses were found in 76% of vaccinated patients; 24% of the patients were non-responders. In patients with more than 0.300 x 10(9) CD4 + cells per liter the percentage of responders was 94%; in patients with fewer than 0.300 x 10(9) CD4 + cells per liter this percentage was 68% (P < 0.05). The antipool response in control subjects was 92%. A serological response to PS3 and PS4 was found in 29% and 49% of the patients, respectively, and was correlated with CD4 + cell count. In controls, these percentages were 48% and 92%, respectively. In 30% of responding patients, antibody titers dropped already to prevaccination levels by week 12 after vaccination. Opsonophagocytosis was not significantly improved by vaccination, probably because of a relatively high preexisting opsonic activity. Although prevaccination conditions may have had an important influence on the study outcome, the results are not in favor of a significant beneficial effect of vaccination with PneumovaxR on antibody formation in HIV-infected patients. This raises further questions as to the relevance of pneumococcal vaccination in this population.

Human circulating specific antibody-forming cells after systemic and mucosal immunizations: differential homing commitments and cell surface differentiation markers

Circulating spontaneous antibody-secreting cells (ASC) induced by mucosal and systemic immunizations in human volunteers have been characterized with respect to differentiation stage and homing commitments. Irrespective of the immunization route, the large majority of ASC co-expressed CD19 and HLA-DR, which are normally lost during the transition of plasmablasts to plasmocytes, as well as CD38, a marker of activated B cell blasts, expressed also by plasmocytes. However, these cells expressed neither CD28, a molecule acquired by plasmocytes, nor CD22 and CD37, which are lost during the transition of plasmablasts to plasmocytes. Therefore, the large majority of ASC found in peripheral blood after oral and parenteral immunizations are terminally differentiated B cells, but not fully differentiated plasmocytes. As a whole, the mucosally derived ASC population seemed to be more homogenously differentiated. CD25 was detected on few ASC, whereas ASC expressing CD71 were more numerous, especially among systemically derived ASC. Almost all ASC expressed the adhesion molecules CD44 and alpha 4-integrins, irrespective of immunization route. However, virtually all systemically derived ASC expressed L-selectin, recognizing the peripheral lymph node addressin, whereas only a minority of mucosally induced blood ASC expressed L-selectin. These studies are the first to demonstrate in humans that circulating precursors of mucosal B cell immunoblasts utilize organ-specific recognition mechanisms distinct from those of corresponding systemic B cells and appear to be more advanced in the B lineage maturation pathway. Specialization of receptor expression could explain both the unification of immune responses in diverse mucosal sites and the physiologic segregation of mucosal from non-mucosal immune mechanisms in humans.

Impaired antibody levels to tetanus toxoid and pneumococcal polysaccharides in acute leukemias

Antibody levels to the protein antigen tetanus toxoid (TTx) and the carbohydrate antigens pneumococcal capsular polysaccharides (PCP) were studied by enzyme immunoassay in 14 patients with acute lymphocytic leukemia (ALL) and 32 patients with acute non lymphocytic leukemia (ANLL) before and three weeks after initiation of chemotherapy. The antibody levels to TTx were significantly lower in ALL patients than in controls. This was associated with elevated levels of sCD8 (soluble CD8) in the serum of 12 out of the 14 ALL patients. Patients with ANLL had normal antibody levels before chemotherapy. After chemotherapy ANLL patients with septic complications had a reduced increase of antibody titers to TTx than patients without sepsis. The average antibody titers to PCP decreased in patients with sepsis, while they increased slightly in patients without sepsis. We conclude that in contrast to ANLL patients ALL patients have preexisting decreased antibody levels to thymus dependent protein antigens, while antibody levels to thymus independent carbohydrate antigens are normal in both types of leukemias.

Antibody response correlates with septic complications following esophagectomy for cancer

Correlations between preoperative antibody response and postoperative septic complications were examined in patients with esophageal cancer. Thirty-three patients and 9 age-matched controls were immunized with 23-valent pneumococcal polysaccharide (PPS) vaccine, and serum anti-PPS IgG, IgA, and IgM were measured. Of 28 patients undergoing transthoracic esophagectomy, 9 had postoperative septic complications (SCP) and 19 did not (SCN). Median titers of anti-PPS IgG-producing capacity were 158 ELISA units (EU) (interquartile range, 71-1,862 EU) in the SCP group and 1,349 EU (interquartile range, 741-2,951 EU) in the SCN group (P = 0.01). No significant differences in anti-PPS IgA and IgM were found between the two groups. These results indicated that low antibody response to polysaccharides is associated with the occurrence of postoperative septic complications in patients with esophageal cancer. Thus, a preoperative evaluation of antibody-producing capacity may serve to predict these complications.

T cell-dependent activity of ganglioside GM1-specific B cells in Guillain-Barré syndrome and multifocal motor neuropathy in vitro

Synthesis of anti-ganglioside GM1 antibodies of the IgM class by peripheral blood mononuclear cells (PBMNC) from patients with immune-mediated neuropathies and motor neuron diseases and from normal controls was stimulated by Pokeweed mitogen (PWM) in vitro. In patients with acute Guillain-Barré syndrome or multifocal motor neuropathy and high serum titers of IgM anti-ganglioside GM1 antibodies this culture response was greatly enhanced as compared to controls and already detectable in unstimulated cultures. Limiting dilution analysis demonstrated high frequencies of GM1-specific B cells in these patients. Anti-ganglioside GM1 antibodies of the IgG and IgA class were only produced by PBMNC from patients with Guillain-Barré syndrome corresponding to serum titers. In cultures taken at intervals over 6 months in vitro B cell activity for IgM, IgG and IgA anti-ganglioside GM1 antibodies in two Guillain-Barré syndrome patients declined accompanied by clinical improvement and falling serum titers. We conclude that GM1-specific PWM-responsive B cells pre-exist in peripheral blood and respond to T cell-dependent stimulation in Guillain-Barré syndrome and multifocal motor neuropathy.

Methicillin-resistant Staphylococcus aureus infections following esophageal surgery in patients with impaired defense mechanisms

This study was conducted to determine whether or not compromised host defense mechanisms prior to surgery are related to postoperative infections with methicillin-resistant Staphylococcus aureus (MRSA). Neutrophil cytocidal activities, serum complement and immunoglobulin levels, the in vivo antibody-producing capacity against pneumococcal polysaccharide (PPS), and cell-mediated immunity (CMI) were evaluated in 22 patients who underwent esophagectomy for esophageal cancer between 1989 and 1990. Postoperatively, nine patients developed MRSA infections. Anti-PPS IgG was found to be significantly lower in patients with MRSA infections than in those without (P < 0.01). All the patients with MRSA infections showed a titer < 600 EU, while all but one of the non-infected patients showed a titer > 600 EU. Impairment in other components of the defense mechanisms, apart from a partial deficiency of CMI, did not differ between the groups. Thus, a preoperative evaluation of the antibody-producing capacity may serve to predict the development of MRSA-related infections following major surgery such as esophagectomy.

Secondary Vibrio cholerae-specific cellular antibody responses following wild-type homologous challenge in people vaccinated with CVD 103-HgR live oral cholera vaccine: changes with time and lack of correlation with protection

Peripheral blood immunoglobulin A antibody-secreting-cell (ASC) responses are thought to reflect the mucosal immune response to locally presented antigens. We evaluated the ASC response to cholera toxin (CT) and Inaba lipopolysaccharide (LPS) in 26 North American volunteers following immunization with a single oral dose of live attenuated Vibrio cholerae O1 vaccine strain CVD 103-HgR and again upon homologous wild-type challenge with V. cholerae classical Inaba 569B. Challenge occurred at either 7, 30, or 180 days after vaccination. The CT and LPS ASC responses of volunteers following vaccination (83 and 55%, respectively) were similar in magnitude and frequency to those of unvaccinated controls following wild-type challenge (80 and 60%, respectively [0.1 < or = P < or = 0.9]). The responses were primarily immunoglobulin A. Vaccinated volunteers challenged within 30 days of vaccination had reduced or nondetectable CT and LPS ASC responses. Challenge at 6 months resulted in a heightened ASC response to LPS, confirming the existence of mucosal memory. ASC responses to CT upon challenge at 6 months were detectable but not different from that seen following primary immunization, suggesting that secondary ASC responses to different antigens from a single vaccine operate independently. In spite of these variable ASC responses, the vaccine efficacy was 100% following challenge for all vaccinees. V. cholerae-specific ASC responses following antigenic reexposure gave information on the presence of mucosal B memory cells but did not correlate with protective immunity. As such, these ASC assays will have limited usefulness for evaluating vaccine responders in vaccine field trials in cholera-endemic areas where prior V. cholerae O1 exposure is unknown.

Human anti-pneumococcal polysaccharide antibodies are secreted by the CD5- B cell lineage

To determine whether human antibody responses to T cell-independent pneumococcal polysaccharide antigens are derived from CD5+ or CD5- B cells, we utilized an ELISPOT assay to detect individual anti-polysaccharide antibody-secreting cells. Human anti-type IV pneumococcal polysaccharide antibody-secreting cells were found in the CD5- B cell subpopulation. An EBV transformed anti-pneumococcal antibody-secreting B cell line was also CD5-. The ontogeny of CD5 expressing B cells correlated with the age at which polysaccharide responsiveness is acquired (generally around age 2 years in humans). The CD5- B cell subset represents only 25-30% of the B cells in young children, but this fraction increases throughout childhood to a plateau of 70-80% of the B cells in adults. These results support the hypothesis that the developmental change in responsiveness to T cell-independent polysaccharide antigens in humans is associated with maturation of the CD5- B cell subset.

Secretion of Toxoplasma gondii-specific antibody in vitro by peripheral blood mononuclear cells as a new marker of acute toxoplasmosis

Antigen-specific antibody secretion in vitro by peripheral blood mononuclear cells (PBMC) reflects an in vivo stimulation of the immune system by the antigen. Primary infection of immunocompetent patients with T. gondii causes an acute infection followed by chronic toxoplasmosis. We examined in vitro anti-Toxoplasma antibody production by PBMC during the acute and chronic phases of toxoplasmosis. PBMC from patients with acute or chronic toxoplasmosis and seronegative subjects were cultured for up to 6 days. Anti-Toxoplasma antibodies were assayed in supernatants by ELISA and immunoblotting. Anti-Toxoplasma antibodies were detected in supernatants of PBMC from 29 pregnant women who seroconverted during gestation. PBMC from 17 patients who had chronic toxoplasmosis and PBMC from 10 seronegative healthy controls did not secrete Toxoplasma-specific antibodies. This in vitro antibody secretion was spontaneous, active and transient since it disappeared between 11 and 24 weeks after seroconversion. Anti-Toxoplasma antibody secretion by PBMC from patients with acute toxoplasmosis is consistent with an in vivo stimulation of the immune system by T. gondii antigens. Our results represent a new approach for studying the immunological response during T. gondii infection and could have important implications for the diagnosis of acute and re-activated toxoplasmosis.

In Vitro Activation of Human T Lymphocytes by Haemophilus influenzae Type b Capsular Polysaccharides

Polyribosilribitolphosphate (PRP), the capsular polysaccharide from Haemophilus influenzae type b, is a T-cell-independent type 2 antigen. In vitro culture of adult peripheral blood T cells with 15 micrograms/ml PRP leads to induction of interleukin-2 receptor (IL-2R) expression on up to 10% of T cells. These cells are CD4+ and carry the alpha beta T-cell receptor. PRP, at concentrations above 1-5 micrograms/ml, can also induce in vitro proliferation of both adult and neonatal T cells. We conclude that PRP acts as a human T-cell mitogen. The in vitro proliferative response as well as IL-2R expression was studied in T cells derived from adults after vaccination with native PRP, with PRP conjugated to a carrier protein, or with diphtheria toxoid. Vaccination with conjugated PRP decreased the doses of PRP required for in vitro induction of IL-2R expression and T-cell proliferation. This indicates that vaccination with PRP conjugated to a carrier protein improves the in vitro T-cell response to PRP activation.

An improved haemolytic plaque assay for the detection of cells secreting antibody to bacterial antigens

Recent advances in the development of conjugate polysaccharide vaccines for human use have stimulated interest in the use of assays detecting antibody-secreting cells (AbSC) with specificity for bacterial antigens. Here we present improved haemolytic plaque-forming cell (PFC) assays detecting AbSC with specificity for tetanus and diphtheria toxoid as well as for Haemophilus influenzae type b and pneumococcal capsular polysaccharides. These assays were found to be less time consuming, more economical and yielded 1.9-3.4-fold higher plaque numbers than traditional Jerne-type PFC assays. In the case of anti-polysaccharide AbSC of the IgG isotype, the increase was as high as 7.4-11.8 times. Evidence is presented that the pronounced improvement in the detection of the latter is due to the presence of aggregating anti-IgG antibody from the beginning of the assay. It is proposed that in the case of low affinity of anti-polysaccharide antibodies aggregation of secreted monomeric antibody (IgG) is critical for plaque formation and increases the avidity of binding to target cells.

Antibody responses to Haemophilus influenzae type B vaccines in men with human immunodeficiency virus infection

BACKGROUND

Persons with human immunodeficiency virus (HIV) infection are at increased risk for serious infections caused by Haemophilus influenzae, yet there are few data on their antibody responses to the H. influenzae type b vaccines.

METHODS

We evaluated antibody responses in 248 men who were randomly assigned to receive a single dose of either the H. influenzae type b polysaccharide (PRP) vaccine or the polysaccharide-mutant diphtheria toxoid conjugate vaccine (PRP-CRM). The subjects were stratified into four groups: seronegative men (67 subjects), men with asymptomatic HIV infection (79), men with symptomatic HIV infection (47), and men with the acquired immunodeficiency syndrome (AIDS) (55).

RESULTS

Before immunization, the subjects with AIDS had the lowest PRP-antibody titers; 40 percent had titers below the putative protective level (less than 0.15 micrograms per milliliter). In the seronegative subjects, those with asymptomatic HIV infection, and those with symptomatic HIV infection, the PRP-CRM vaccine led to a threefold greater increase in geometric mean antibody titers than did the PRP vaccine (P less than 0.01). However, the subjects with AIDS had a greater antibody response to the PRP vaccine. The antibody response of HIV-seropositive men to the PRP-CRM vaccine correlated significantly with the number of CD4 lymphocytes (r = 0.47, P less than 0.0001, as compared with r = -0.01 for the PRP vaccine). In these HIV-infected men, both vaccines elicited the dominant anti-PRP idiotype described previously in populations not infected with HIV.

CONCLUSIONS

Immunization with the PRP-CRM conjugate vaccine early in the course of HIV infection is likely to confer protection against disease caused by H. influenzae type b.

The immune response in the rat to Streptococcus pneumoniae type 3 and type 4 capsular polysaccharide. Detection by double immunocytochemical staining of antibody-containing cells in situ and ELISA

Two different methods have been used to study immune responses in the rat to Streptococcus pneumoniae type 3 and type 4 capsular polysaccharides (PPS). First, for simultaneous detection of the specificity and isotype of anti-PPS antibody-containing cells (ACC) in cryostat sections of lymphoid tissue, a double immunocytochemical method was developed. This method is a combination of a three-step immunoperoxidase method to demonstrate specific anti-PPS ACC as bright red cells and a two-step immunophosphatase method to detect the isotype of ACC as blue cells. Double positive cells appear violet. Using this staining procedure, the detection of antigen was also possible. Second, to study the anti-PPS response in serum, an ELISA procedure was modified. In this ELISA, polyvinylchloride microtiter plates are coated directly with type-specific pneumococcal polysaccharide. After intraperitoneal (i.p.) immunization of rats with PPS-3 or PPS-4, both antigen (PPS) and specific ACC could be detected. Specific ACC were found in the spleen and mesenteric lymph nodes. In the spleen, the specific ACC were found in the red pulp, marginal zone, outer PALS, and follicles. Most of these ACC were IgM-positive and to a lesser extent IgG-positive and IgA-positive. However, specific ACC in mesenteric lymph nodes were predominantly of the IgA isotype, with only few IgM or IgG positive cells. The anti-PPS response in serum, as measured by the ELISA, consisted mainly of IgM antibodies with small amounts of IgG and IgA. Both methods were found to be valuable in studies of immune responses against bacterial polysaccharides.

Influence of prevaccination immunity on the human B-lymphocyte response to a Haemophilus influenzae type b conjugate vaccine

The purpose of this study was to investigate whether preexisting immunity to components of a polysaccharide-protein conjugate influences the B-lymphocyte response to vaccination with the conjugate. Thirty-two healthy adults were vaccinated once or twice with a conjugate (PRP-D) consisting of Haemophilus influenzae type b capsular polysaccharide (PRP) and diphtheria toxoid (DT), and the response was related to the prevaccination levels of PRP and DT antibodies. Positive correlations were found between increases in plasma PRP (median, 32.0 micrograms/ml) and DT (1.14 IU/ml) antibodies and numbers of circulating PRP and DT antibody-secreting cells (AbSC) (postvaccination days 6 to 9). The B-cell responses (antibody response and AbSC) to both PRP and DT correlated positively with prevaccination levels of anti-DT. DT AbSC appeared earlier (peak, day 7) than PRP AbSC (peak, day 8). Individuals whose PRP AbSC peaked early (day 7) had higher prevaccination anti-DT levels than those who peaked later (P less than 0.05). In contrast, the prevaccination levels of anti-PRP did not correlate significantly with the magnitude of the antibody or AbSC response and did not affect the kinetics of the AbSC. Following revaccination with PRP-D, small increases in the level of PRP antibodies (median, 2.9 micrograms/ml; n = 11) were found; no significant increase in the level of DT antibodies was seen. The numbers of PRP AbSC were lower (P = 0.04) and peaked earlier (day 7) than after the first vaccination. The isotype pattern of PRP AbSC, which was dominated by immunoglobulin A (IgA) after the first vaccination, now showed a more equal distribution between IgG and IgA AbSC. It is concluded that after immunization with PRP-D both the magnitude and the kinetics of the antipolysaccharide B-cell response are influenced by prevaccination immunity to the carrier molecule.

Recombinant human interleukin 6 (rhIL-6) promotes the terminal differentiation of in vivo-activated human B cells into antibody-secreting cells

Antigen-activated peripheral blood B cells were induced by parenteral immunization of healthy individuals with a polyvalent pneumococcal vaccine, or diphtheria toxoid. Seven to nine days after immunization, high frequencies of antigen-specific antibody-secreting cells, representing in vivo activated lymphoblastoid B cells, were detectable in peripheral blood or spleen. The B cell-enriched fractions were stimulated for 7 days with different concentrations of rhIL-6. Both the frequency of antibody-secreting cells and the secreted amount of antibody to the immunizing antigen were increased by rhIL-6 in a dose-dependent fashion. Stimulation with rhIL-6 did not alter the isotype distribution of antibody-secreting cells. A polyclonal anti-IL-6 serum completely abrogated the stimulatory effect of rhIL-6 on the in vitro antibody secretion. Fluorescence-activated cell sorter analysis revealed that 25-29% of cells in the large B cell fraction which presumably contained the in vivo activated cells bore the IL-6 receptor. Thus, rhIL-6 enhances the terminal differentiation of in vivo activated B cells into antibody-secreting plasma cells.

Analysis of the spontaneous in vitro anti-HIV-1 antibody secretion by peripheral blood mononuclear cells in HIV-1 infection

We studied the spontaneous in vitro secretion of anti-HIV-1 antibodies by peripheral blood mononuclear cells (PBMC) from HIV-1-infected patients. Specific antibody production was detected in supernatants of PBMC cultures using an ELISA; HIV-1 specificity was confirmed by antigen adsorption and Western blotting. This antibody secretion was found to be an active phenomenon and was not due to a release of plasma antibodies passively adsorbed onto the cell membranes. In all positive supernatants, anti-HIV-1-secreted antibodies were directed against env-encoded antigens and many supernatants also contained antibodies to pol- and gag-encoded antigens. PBMC from all HIV-1-infected patients tested (140 adults and 18 infants) secreted anti-HIV-1 antibodies. This production was found during all the clinical stages of HIV-1 infection. Our results suggest that this spontaneous HIV-1-specific antibody secretion represents a marker of HIV-1 infection. Detection of these antibodies could be a valuable tool for early confirmation of HIV-1 infection in neonates born to HIV-1-seropositive mothers.

Cytomegalovirus-specific B cell activation as a potential marker for the diagnosis of cytomegalovirus infection

In vitro secretion of antibodies to cytomegalovirus was investigated by analysis of peripheral blood mononuclear cell culture supernatants from subjects infected with cytomegalovirus. Patients with primary or recurrent cytomegalovirus infection showed transient in vitro cytomegalovirus-specific antibody secretion. A high proportion of patients infected with human immunodeficiency virus and sero-positive for cytomegalovirus showed in vitro cytomegalovirus-specific antibody secretion. All peripheral blood mononuclear cell cultures from patients with symptomatic human immunodeficiency virus infection were found to secrete in vitro antibodies to cytomegalovirus, despite the fact that isolation of cytomegalovirus from some of these patients was not achieved. In human immunodeficiency virus-infected patients, in vitro secretion of anti-cytomegalovirus antibodies appeared to be persistent. In vitro cytomegalovirus-specific antibody secretion by peripheral blood lymphocytes probably reflects an in vitro cytomegalovirus-specific B cell activation. This new assay could be considered an interesting method for detecting both acute or chronic cytomegalovirus infection, with potential use in routine laboratory practice.

Antibody-secreting peripheral blood lymphocytes induced by immunization with a conjugate consisting of Streptococcus pneumoniae type 12F polysaccharide and diphtheria toxoid

Healthy adult volunteers were injected either with one of two conjugates composed of Streptococcus pneumoniae type 12F polysaccharide (Pn12F) covalently coupled to diphtheria toxoid or with Pn12F alone (as a component of Pnu-Imune, a 23-valent pneumococcus vaccine). The conjugates induced Pn12F-specific antibody-secreting cells in peripheral blood with numbers and isotype distribution similar to those induced by Pnu-Imune, with immunoglobulin A (IgA) as the predominant isotype. The conjugates also elicited high numbers of diphtheria toxoid-specific antibody-secreting cells of the IgG class. There was no distinct booster effect, since a second dose of the conjugates induced antibody-secreting cells at significantly lower numbers than after the first dose. In contrast to the cell numbers, the conjugate vaccines induced higher increases of IgA1 Pn12F antibodies in serum than did Pnu-Imune. However, neither the conjugates nor Pnu-Imune induced a secretory antibody response. Antibody levels in serum and saliva correlated poorly with the frequency of antigen-specific antibody-secreting cells. Circulating antibody-secreting cells present 7 days postimmunization were probably not responsible for the high increase of antibodies in serum but rather represented a population of in vivo-activated B cells with the ability to disseminate the humoral response from the antigen recognition site to distant locations of antibody production.

Antibacterial polysaccharide antibody deficiency after allogeneic bone marrow transplantation

Allogeneic bone marrow-engrafted adults immunized with meningococcal types A and C and pneumococcal type 14 polysaccharide antigens showed only low antibody titers of the IgM class, no antibody titers of the IgG or IgA classes, and no bactericidal activity in vitro. The analytical isoelectrofocusing showed the appearance of a restricted pattern of clonotypes in a minority of subjects. These observations are consistent with the hypothesis that B cells in bone marrow transplant patients express some characteristics of neonatal B cells and suggest that polysaccharide-protein conjugates, rather than isolated polysaccharide, might be utilized in the setting of bone marrow transplantation.

Quantitation of antibody-secreting cells in the blood after vaccination with Haemophilus influenzae type b conjugate vaccine

The human B-lymphocyte response to protein-conjugated polysaccharide antigens has not previously been studied at the cellular level. In order to do so, we developed and evaluated haemolytic plaque-forming cell assays detecting Haemophilus influenzae type b (Hib) capsular polysaccharide-specific antibody-secreting cells (AbSC) of the isotypes IgM, IgG, and IgA. The appearance of AbSC in the blood after vaccination of adults with diphtheria toxoid-conjugated Hib polysaccharide was investigated. AbSC were detected from post-vaccination day 5 to day 14. IgA was the predominant isotype among these cells. IgM AbSC peaked slightly earlier (median day 7) than IgG and IgA AbSC (both day 8). On post-vaccination day 8 the numbers of AbSC were: IgA, 1217/10(6) mononuclear cells (median); IgG, 211; and IgM, 30 (n = 11). Similar isotype distribution has earlier been found after vaccination with pure capsular polysaccharides from Hib and pneumococci. The predominance of IgA AbSC in response to both conjugate and pure polysaccharide vaccines is probably due to reactivation of the same clones of IgA-committed memory B cells originally primed at the mucosa by natural exposure to the polysaccharide or cross-reacting antigens.

Antibody response to pneumococcal polysaccharide vaccine in myasthenia gravis: effect of therapeutic plasmapheresis

The removal of specific antibody in experimental animals has been reported to result in a subsequent increase in antibody to levels equal to (rebound) or exceeding those existing prior to removal (overshoot). Anecdotal reports suggest that rebound antibody synthesis after plasmapheresis may occur in humans with autoimmune disorders. We measured the antibody response to 12 pneumococcal polysaccharide antigens in patients with myasthenia gravis (MG) receiving a variety of therapies in order to determine whether the T-cell-independent IgG response to these antigens was augmented by plasmapheresis. MG patients receiving no immunotherapy or receiving prednisone had pre- and post-immunization titers similar to those of control patients. MG patients receiving prednisone and chronic plasmapheresis had higher pre-immunization titers than did other patient groups and had significantly higher post-immunization titers against multiple pneumococcal serogroups. Aggregate post-immunization geometric mean titers were more than three-fold higher in the plasmapheresis group as compared with other MG treatment groups. Enhancement of antibody response by plasmapheresis was abolished by the concomitant administration of azathioprine. Antibody rebound and overshoot after antibody removal may have important implications for the therapy of immune disorders by plasmapheresis.

Direct activation of human B lymphocytes by Candida albicans-derived mannan antigen

We have studied the activation of human resting B cells by a carbohydrate antigen, mannan, with a polymannose branched repetitive structure. Mannan has been extracted from the cell wall of the Candida albicans yeast. For this purpose, dense G0 B lymphocytes were purified from tonsils. Mannan antigen was shown to trigger B cell activation, since an increase of cell volume and RNA synthesis occurred. B cell proliferation was observed following addition of recombinant interleukin 2, but not following addition of recombinant interleukin 4 or low-molecular-weight BCGF. The B cell activation appears to be mannan-specific since B cells obtained from mannan-sensitized subjects but not from unsensitized subjects were responsive. The observation that mannan antigen can directly activate specific dense B lymphocytes can be related to the previous observation that the in vitro anti-mannan antibody production does not require a cognate T-B cell interaction.

The negative surface charge density is a maturation marker of human B lymphocytes

Small resting B lymphocytes were highly enriched and completely depleted of all preactivated large B lymphocytes using countercurrent centrifugal elutriation and free flow electrophoresis. They required T lymphocytes, monocytes, and a mitogen to produce antibodies after 5 days of preincubation. Large activated B lymphocytes were obtained in cell fractions which were free of resting ones. They produced antibodies even in the absence of a mitogen. Two groups were distinguished, differing in their stage of differentiation and their negative surface charge density. The cells of one group had an electrophoretic mobility (EM) like resting B lymphocytes ranging from 0.85 to 0.99 X 10(-4) (cm2 V-1 s-1). They took 2 to 3 days of preincubation before they started to secrete antibodies. Interleukin 2 and pokeweed mitogen enhanced their antibody production capability. The cells of the other group had an EM between 0.99 and 1.13 X 10(-4) (cm2 V-1 s-1). They secreted antibodies even during the first day of incubation. The quantity of the antibodies which they produced depended only on the blood donor. It could not be influenced by a mitogen or by interleukin 2. The study shows that large B lymphocytes with high negative surface charge density are in a later maturation stage than those with lower negative surface charge density.

The common mucosal immune system and current strategies for induction of immune responses in external secretions

The selective induction of antibodies in external secretions is desirable for the prevention of various systemic as well as predominantly mucosa-restricted infections. An enormous surface area of mucosal membranes is protected primarily by antibodies that belong, in many species, to the IgA isotype. Such antibodies are produced locally by large numbers of IgA-containing plasma cells distributed in subepithelial spaces of mucosal membranes and in the stroma of secretory glands. In humans and in some animal species, plasma-derived IgA antibodies do not enter external secretions in significant quantities and systemically administered preformed IgA antibodies would be of little use for passive immunization. Systemic administration of microbial antigens may boost an effective S-IgA immune response only in a situation whereby an immunized individual had previously encountered the same antigen by the mucosal route. Local injection of antigen in the vicinity of secretory glands is usually accompanied by an undesirable concomitant systemic response and frequently requires the addition of adjuvants that are unacceptable for administration in humans. Immunization routes that involve ingestion or possibly inhalation of antigens lead to the induction of not only local but also generalized immune responses manifested by the parallel appearance of S-Iga antibodies to ingested or inhaled antigens in secretions of glands distant from the site of immunization. Based on extensive studies in animal models as well as in humans, convincing evidence is available that antigen-sensitized and IgA-committed precursors of plasma cells from GALT are disseminated to the gut, other mucosa-associated tissues, and exocrine glands. However, due to the limited absorption of desired antigens from the gut lumen of orally immunized individuals, repeated large doses of antigens are required for an effective S-IgA response. Novel antigen delivery systems for the stimulation of such responses are currently being examined in several laboratories. Live attenuated or genetically manipulated bacteria expressing other microbial antigens have also been used for selective colonization of gut-associated lymphoid tissues. Unique antigen packaging and the use of adjuvants suitable for oral administration hold promise for an efficient antigen delivery to critical tissues in the intestine and deserve extensive exploration. The oral immunization route appears to have many advantages over systemic immunization.(ABSTRACT TRUNCATED AT 400 WORDS)

Impaired anti-pneumococcal antibody response in patients with AIDS-related persistent generalized lymphadenopathy

Pre- and post-immunization serum antibodies to pneumococcal polysaccharides (PPS) and tetanus toxoid (TT) were measured in 25 patients with persistent generalized lymphadenopathy and serum antibodies to the human immunodeficiency virus (HIV). The increase in post-immunization anti-PPS antibodies was lower than 40% in 16/25 patients. Isotype analysis indicated that the IgM, IgA, IgG2, but not the IgG1 antibody responses were lower in patients that in healthy controls, whereas pre-immunization values were similar. For TT, no difference was found between the patients and the healthy group in total and IgG1 antibody response whereas IgG4 response was lower in patients. No significant association was found between the defect in anti-PPS antibody response and associated thrush or constitutional symptoms or other immunological parameters. These findings suggest that defective response to a thymo-independent polysaccharide antigen is a distinctive consequence of HIV infection.

Vaccination-induced activation of human blood T cells suppressing pneumococcal polysaccharide-specific B cells

In order to study the regulation of the human B cell response to pneumococcal polysaccharides (PPS), anti-PPS-secreting cells (SC) and Ig-SC were quantitated in unstimulated and EBV-stimulated cultures of blood mononuclear cells (MNC) established before and one and two weeks after vaccination. In unstimulated cultures established one week after vaccination, significant numbers of anti-PPS-SC were detected; however, they were observed only in cultures depleted of T cells (mean: 62/10(6)), suggesting the presence of T cells suppressing in vivo-activated PPS-specific B cells. In EBV-stimulated cultures depleted of T cells, low numbers of anti-PPS-SC were observed before the vaccination, and the numbers of these cells increased significantly two weeks after the immunization (from 28 to 48/10(6)). In contrast, the numbers of anti-PPS-SC and total Ig-SC decreased in EBV-stimulated cultures of unseparated MNC established after the vaccination, suggesting T cell-mediated suppression. The findings were not explained by changes in the numbers of blood T helper (Leu 3+) or T suppressor (Leu 2+) cells following the vaccination. Possibly the vaccination induces the appearance in the blood of activated suppressor cells responsible for the suppression of B cells in unstimulated and EBV-stimulated cultures.

Vaccination-induced circulation of human B cells secreting type-specific antibodies against pneumococcal polysaccharides

Indirect plaque-forming cell assays detecting B cells secreting antibodies against capsular pneumococcal polysaccharide (PPS) antigens are described. In healthy adult volunteers the total number of B cells secreting IgM antibodies against the antigens in a polyvalent PPS vaccine reached a maximum in the blood 6 days after in vivo immunization (mean: 552/10(6) mononuclear cells), whereas the highest concentration of IgG and IgA antibody-secreting cells (SC) were detected 7 days after immunization (means: 628 and 1691/10(6]. B cells secreting antibodies to PPS type 3 (PPS3), PPS8, PPS18C and C-polysaccharide (CPS)--a cell wall antigen common to all pneumococci--constituted 9%, 16%, 6% and 5% (means) of the total number of antibody SC respectively. While the majority of the anti-PPS-SC secreted IgA antibodies, the anti-CPS-SC almost exclusively secreted IgG. Pre-vaccination concentrations of anti-PPS were generally low in contrast to antibodies against CPS, which were present in high concentrations in all individuals. The discrepancy in the Ig class of the antibody SC is probably related to the difference in the pre-vaccination immunity against PPS and CPS.

Tolerance to cryptococcal polysaccharide in cured cryptococcosis patients: failure of antibody secretion in vitro

Ten patients cured of cryptococcosis and 14 normal volunteers were immunized with subcutaneous injections of cryptococcal polysaccharide (CPS). Peripheral mononuclear cells cultured from the volunteers 7 days post-immunization secreted significant amounts of IgM, IgA and IgG antibody to CPS in vitro. In cell cultures obtained 7 days after immunization of patients, nine of 10 had neither IgM nor IgG antibody response to CPS, and eight lacked anti-CPS IgA. Depletion of T lymphocytes from patients' cell cultures did not promote specific antibody secretion to CPS by B cells. The intense, prolonged antigenaemia with CPS that accompanies cryptococcosis may be responsible for the failure of cured patients to have circulating anti-CPS-secreting cells after immunization.

Quantitation of blood lymphocytes secreting antibodies to pneumococcal polysaccharides after in vivo antigenic stimulation

An indirect plaque-forming cell assay detecting B cells secreting IgM, IgG and IgA antibodies against pneumococcal polysaccharides (PPS) is described. The numbers of anti-PPS-secreting cells (SC) and Ig-SC in the blood of normal persons immunized with a polyvalent PPS vaccine were quantitated. Anti-PPS-SC were recorded from the fourth to the twelfth post-vaccination day, and the maximum number was found between days 6 and 9. Quantitatively IgA anti-PPS-SC outnumbered the IgM and IgG anti-PPS-SC. Concomitant with the increase in the numbers of antibody-SC an increase in polyclonally activated IgM-, IgG- and IgA-SC was recorded. The specific anti-PPS-antibody-SC constituted 20-80% of the total numbers of Ig-SC from the sixth to the ninth post-vaccination day.