Quality control of cervical cytology using a 3-type HPV mRNA test increases screening program sensitivity of cervical intraepithelial neoplasia grade 2+ in young Norwegian women-A cohort study.

Within 2021, Norway intends to complete implementation of HPV DNA-based primary screening for cervical cancer for women 34-69 years, while continue cytology-based screening for women 25-33 years. Over the recent years, the incidence of cervical cancer has increased by 30% among women younger than 40 years. In this subset of women, nearly 30% were diagnosed with a normal smear, as most recent smear, prior the cancer diagnosis. This observation demands quality control of normal smears. The aim of this study was to assess increase in program sensitivity of CIN2+ after follow-up of women with false negative Pap-smears testing positive for a 3-type (-16, -18, -45) HPV mRNA test in a cohort design over one screening interval. 521 women, aged 23-39 years, and no prior history of CIN1+ or HSIL, with an ASC-US or worse smear (ASC-US+) and 1444 women with normal screening cytology comprised the study cohorts. The positivity rate for the 3-type HPV mRNA was 1.9% (28/1444). Rescreening revealed 23 women with ASC-US, two women with LSIL, two women with ASC-H, and one woman with AGUS. If the HPV mRNA-positivity rate and histology findings from samples rescreened were applied to all women with normal cytology, an estimated increase in screening sensitivity of 16.4% (95% CI:15.3-17.5) for CIN2+ and 17.3% (95% CI:16.2-18.4) for CIN3+ were achieved. By rescreening less than 2% of women with normal cytology positive for a 3-type HPV mRNA test, we achieved a significant increase in screening program sensitivity.

5-type HPV mRNA versus 14-type HPV DNA test: test performance, over-diagnosis and overtreatment in triage of women with minor cervical lesions.

BACKGROUND: Repeat cytology and HPV testing is used in triage of women with minor cytological lesions. The objective of this study was to evaluate 14-type HPV DNA and 5-type HPV mRNA testing in delayed triage of women with ASC-US/LSIL. METHODS: We compared a DNA test (Roche Cobas 4800) and an 5-type mRNA test (PreTect HPV-Proofer). In total 564 women were included in the study. RESULTS: The sensitivity among solved cases for CIN3+ were 100 % (15/15) for both tests. The sensitivity for CIN2+ of the HPV DNA test was 100 % (38/38) relative to 79 % (30/38) for the 5-type HPV mRNA test. The corresponding estimates of specificity for CIN2+ among solved cases were 84 % (393/466; 95 % CI: 81-88) and 91 % (451/498; 95 % CI: 88-93). The positive predictive values for CIN3+ were 13.5 % (15/111) for DNA+ and 19.5 % (15/77) for 5-type mRNA+. Significantly more women screened with 5-type mRNA than DNA returned to screening (81 % vs 71 %, p < 0.01). Subsequently, significantly fewer women were referred for colposcopy/biopsies/treatment (19 % (105/564) vs 29 % (165/564), p < 0.01). CONCLUSIONS: 5-type HPV mRNA is more specific than 14-type HPV DNA in delayed triage of women with ASC-US/LSIL. The referral rate for colposcopy was 57 % higher for DNA+ relative to mRNA+ cases (165 vs 105), with the same detection rate of CIN3+, but the 5-type mRNA test had lower sensitivity for CIN2+. It is important to consider the trade-off between sensitivity and specificity of the diagnostic test when designing screening algorithms.

A fluorescence-based opsonophagocytosis assay to measure the functional activity of antibody to group B Streptococcus.

An in vitro assay designed to measure the functional activity of vaccine-induced antibody is a necessary component of any vaccine development program. Because traditional efficacy studies of vaccines to prevent neonatal diseases caused by group B Streptococcus (GBS) are unlikely given the effectiveness of current antibiotics and screen-based surveillance practices, the ability to efficiently and effectively measure functional antibody responses may be of particular importance. GBS, like other encapsulated bacterial pathogens, are susceptible to opsonization by specific antibody and complement and subsequent killing by the host's effector cells. The in vitro opsonophagocytosis and killing assay (OPA) mimics this in vivo defense strategy and has been used for decades to measure the functionality of natural and/or vaccine-induced GBS-specific antibody. Here we describe a fluorescence-based OPA (flOPA) that measures the ability of specific antibody to opsonize fixed, fluorescently labeled GBS or antigen-coated fluorescent microspheres for uptake by differentiated HL-60 cells in the presence of complement. Compared to the classical OPA, the flOPA is standardized with respect to effector cells, complement and antigenic targets. The GBS flOPA is also less time-intensive and has the potential to measure antibody to multiple antigens simultaneously. Quantitative functional antibody determinations using the flOPA may serve as a surrogate measure of GBS vaccine effectiveness in lieu of traditional phase 3 efficacy trials.

Deficiency of mannose-binding lectin greatly increases antibody response in a mouse model of vaccination.

Mannose-binding lectin (MBL), a pattern recognition innate immune molecule, selectively binds distinct chemical patterns, including carbohydrates expressed on Group B streptococcus (GBS). MBL interacts with IgM, resulting in the activation of MBL-associated serine proteases (MASPs), thus is initiating a lectin complement pathway. Complement proteins and IgM modulate production of antigen specific antibody. In this study, we investigated the relative effect of MBL in antibody response against tetanus toxoid-conjugated GBS polysaccharide vaccines (GBS PS-TT) by comparing wild type and null mice for MBL, complement 3 (C3), IgM, MBL/C3, and MBL/IgM. We found that GBS PS specific IgG response was upregulated in MBL deficient mice following immunization with GBS PS-TT but not GBS PS. B1 cells were expanded in peritonium but not in spleen of MBL null mice. The mechanisms of heightened IgG response in MBL null mice were related to C3, and share the same pathway with IgM.

Rational chemical design of the carbohydrate in a glycoconjugate vaccine enhances IgM-to-IgG switching.

Many pathogens are sheltered from host immunity by surface polysaccharides that would be ideal as vaccines except that they are too similar to host antigens to be immunogenic. The production of functional IgG is a desirable response to vaccines; because IgG is the only isotype that crosses the placenta, it is of particular importance in maternal vaccines against neonatal disease due to group B Streptococcus (GBS). Clinical studies found a substantially lower proportion of IgG-relative to IgM-among antibodies elicited by conjugates prepared with purified GBS type V capsular polysaccharide (CPS) than among those evoked by CPSs of other GBS serotypes. The epitope specificity of IgG elicited in humans by a conjugate prepared with type V CPS is for chemically desialylated type V CPS (dV CPS). We studied desialylation as a mechanism for enhancing the ability of type V CPS to induce IgM-to-IgG switching. Desialylation did not affect the structural conformation of type V CPS. Rhesus macaques, whose isotype responses to GBS conjugates match those of humans, produced functionally active IgG in response to a dV CPS-tetanus toxoid conjugate (dV-TT), and 98% of neonatal mice born to dams vaccinated with dV-TT survived lethal challenge with viable GBS. Targeted chemical engineering of a carbohydrate to create a molecule less like host self may be a rational approach for improving other glycoconjugates.

Functional activity of antisera to group B streptococcal conjugate vaccines measured with an opsonophagocytosis assay and HL-60 effector cells.

Conjugate vaccines against group B Streptococcus (GBS), which is a leading cause of bacterial disease among newborns and the elderly with underlying illnesses, have progressed from animal studies to phase 1 and 2 clinical trials in healthy adults. Due to the wide-spread use of antibiotics to treat at-risk deliveries, a phase 3 efficacy trial of a GBS vaccine to prevent neonatal disease in the United States is unlikely. A viable approach to assess a vaccine's efficacy is to use a surrogate of protection which in the case of GBS is the opsonizing activity of serum antibody. The opsonophagocytosis assay (OPA) measures the ability of serum antibody to opsonize GBS for killing by effector cells in the presence of complement. In this report we demonstrate that differentiated HL-60 cells can substitute for human peripheral blood leukocytes (hPMNLs) in the OPA. Antisera to GBS type Ia CPS and type III CPS conjugate vaccines opsonized homologous GBS for killing at effector cells to GBS ratios of 2-4:1 regardless of whether HL-60 or hPMNLs were used. These results represent the first important step in developing a standardized, high-throughput OPA that could be used to assess the functional activity of vaccine-induced antibody and potentially serve as a surrogate of efficacy.

Neither antibody to a group B streptococcal conjugate vaccine nor the vaccine itself is teratogenic in rabbits.

Group B Streptococcus (GBS) is a leading cause of human neonatal bacterial disease, resulting in pneumonia, sepsis, meningitis and sometimes, death. Supportive preclinical studies of GBS capsular polysaccharide (CPS)-protein conjugate vaccines have led to several phase 1 and phase 2 trials in healthy, non-pregnant adults, which demonstrated that the vaccines, produced at the Channing Laboratory, were safe and immunogenic. However, evaluation of the safety and immunogenicity of a GBS conjugate vaccine administered to pregnant women demanded that it be manufactured under current good manufacturing practices (cGMP) and that it undergo developmental toxicity evaluation. In this report, we describe a GBS type III CPS-tetanus toxoid (III-TT) vaccine lot 3-1-96 manufactured and vialed under cGMP and our evaluation of the effect of this vaccine and of GBS type III CPS-specific antibody on conception and early- and late-stage fetal development in rabbits. III-TT lot 3-1-96 was compositionally similar to prototype III-TT lot 91-1, produced under non-GMP, and was potent in a mouse maternal vaccination-neonatal pup challenge model of GBS disease. Four groups of 30 female rabbits each were randomized to receive III-TT lot 3-1-96 vaccine, saline-alum, or combinations of these treatments before and after insemination. The dose of conjugated CPS on a weight basis was 1 microg/kg, mimicking the anticipated actual human dose. Based on the weight of the rabbits, this was 20- to 100-fold greater than the expected human dose. Does were pre-assigned to deliver litters naturally or have their kits delivered by Caesarean-section at gestation day 29, to assess late fetal development. Sera from does and kits were collected, and the presence of type III CPS-specific IgG was confirmed by quantitative ELISA. Based on all assessments, GBS type III-TT lot 3-1-96, nor antibody to it did not affect embryo fetal viability, sex ratio, growth or cause malformations (i.e., it was non-teratogenic). In addition, that III-TT lot 3-1-96 was found to be safe and immunogenic in two clinical studies involving healthy non-pregnant adults supports a clinical evaluation of this vaccine in pregnant women.

Recombinant group B streptococcus Beta C protein and a variant with the deletion of its immunoglobulin A-binding site are protective mouse maternal vaccines and effective carriers in conjugate vaccines.

Immunogenic vaccines against group B Streptococcus (GBS) have been created by coupling the GBS capsular polysaccharides (CPS) to carrier proteins. The GBS beta C protein (BCP) serves as an effective carrier while inducing protective immunity against BCP-expressing strains. BCP also binds human immunoglobulin A (IgA), a characteristic that may be undesirable for use in humans. Here, we examined the immunogenicity and protective efficacy of a recombinant GBS BCP (rBCP), an rBCP modified to eliminate its IgA-binding site (rBCP(DeltaIgA)), and their corresponding GBS serotype III CPS conjugates (III-rBCP and III-rBCP(DeltaIgA)). Deletion of the IgA-binding site or conjugation to CPS did not alter antigenic BCP epitopes. Recombinant proteins and conjugates elicited specific, high-titered IgG in mice. Antisera to rBCP, rBCP(DeltaIgA), III-rBCP, and III-rBCP(DeltaIgA) opsonized GBS strains A909 (Ia/BCP(+)) and H36B (Ib/BCP(+)) for killing by HL-60 cells; antiserum to III-rBCP and III-rBCP(DeltaIgA) also opsonized strain M781 (III/BCP(-)). Vaccination of female mice with either rBCP or rBCP(DeltaIgA) protected approximately 40% of their pups challenged with GBS strain A909. Pups born to III-rBCP- or III-rBCP(DeltaIgA)-vaccinated dams survived at rates of 56% and 66%, respectively. Over 90% of pups born to dams that received the type III CPS conjugates survived challenge with GBS strain M781. In summary, rBCP and rBCP(DeltaIgA) proteins and the conjugates containing them were immunogenic in mice, inducing both CPS- and protein-specific functional IgG. These results suggest that the rBCP(DeltaIgA) could be used as a carrier to augment the immunogenicity of the CPS while expanding coverage to GBS strains bearing BCP.

Immune response of healthy women to 2 different group B streptococcal type V capsular polysaccharide-protein conjugate vaccines.

BACKGROUND: Infections caused by group B streptococcal (GBS) type V are increasingly common. Capsular polysaccharide (CPS)-protein conjugate GBS vaccines are immunogenic in healthy adults, but type V vaccines have not previously been tested. METHODS: Thirty-five healthy, nonpregnant women were randomized to receive an intramuscular dose of GBS type V CPS-tetanus toxoid (TT) vaccine (n=15), GBS type V CPS-cross-reactive material (CRM(197)) conjugate vaccine (n=15), or placebo (n=5) (double-masked design). Levels of serum antibodies to type V CPS were measured by ELISA, and functional activity was measured by opsonophagocytosis. RESULTS: The vaccines were well tolerated. Significant increases in type V CPS-specific immunoglobulin G (IgG) were elicited by both vaccines, peaking at 4-8 weeks and persisting for 26 weeks. Four-fold or greater increases in type V CPS-specific IgG concentrations were noted in postimmunization serum samples obtained from 93% of subjects in each vaccine group. These concentrations persisted in > or =85% of conjugate-vaccine recipients 104 weeks later. Type V CPS-specific immunoglobulin M was a dominant isotype of immune response to each conjugate. Postimmunization serum samples promoted opsonophagocytic killing of GBS type V in vitro, whereas those from placebo recipients did not. CONCLUSION: GBS type V conjugate vaccines are safe and immunogenic and would be appropriate for inclusion in a candidate multivalent GBS vaccine.

Critical role of the complement system in group B streptococcus-induced tumor necrosis factor alpha release.

Group B Streptococcus (GBS) is a major cause of newborn sepsis and meningitis and induces systemic release of tumor necrosis factor alpha (TNF-alpha), believed to play a role in morbidity and mortality. While previous studies have shown that GBS can induce TNF-alpha release from monocytes and macrophages, little is known about the potential modulating effect of plasma or serum on GBS-induced TNF-alpha release, and there are conflicting reports as to the host receptors involved. In a human whole-blood assay system, GBS type III COH-1 potently induced substantial monocyte TNF-alpha release in adult peripheral blood and, due to a higher concentration of monocytes, 10-fold-greater TNF-alpha release in newborn cord blood. Remarkably, GBS-induced TNF-alpha release from human monocytes was enhanced approximately 1000-fold by heat-labile serum components. Experiments employing C2-, C3-, or C7-depleted serum demonstrated that C3 activation via the alternative pathway is crucial for potent GBS-induced TNF-alpha release. Accordingly, whole blood from C3-deficient mice demonstrated significantly reduced GBS-induced TNF-alpha release. Preincubation with human serum enhanced the TNF-alpha-inducing activity of GBS in a C3- and factor B-dependent manner, implying deposition of complement components via the alternative pathway. GBS-induced TNF-alpha release was inhibited by monoclonal antibodies directed against each of the components of CR3 and CR4: the common integrin beta subunit CD18 and the alpha subunits CD11b (of CR3) and CD11c (of CR4). Blood derived from CR3 (CD11b/CD18)-deficient mice demonstrated a markedly diminished TNF-alpha response to GBS. We conclude that the ability of plasma and serum to greatly amplify GBS-induced TNF-alpha release reflects the activity of the alternative complement pathway that deposits fragments on GBS and thereby enhances CR3- and CR4-mediated monocyte activation.

Construction of designer glycoconjugate vaccines with size-specific oligosaccharide antigens and site-controlled coupling.

Coupling of carbohydrate antigens to protein carriers is a typical approach to enhancing the immunogenicity of carbohydrate-based vaccines. Glycoconjugates with well-defined structures are needed for studies defining the structural variables that govern antibody responses. We report a chemical strategy for preparation of an array of glycoconjugates containing saccharides of desired molecular sizes by selective depolymerization of bacterial polysaccharides and chemically controlled site-specific coupling. As an example, we synthesized and evaluated an oligosaccharide-based vaccine against type III group B Streptococcus.

Impaired antibody response to group B streptococcal type III capsular polysaccharide in C3- and complement receptor 2-deficient mice.

Group B Streptococcus (GBS) is the foremost bacterial cause of serious neonatal infections. Protective immunity to GBS is mediated by specific Abs to the organism's capsular polysaccharide Ags. To examine the role of complement in the humoral immune response to type III GBS capsular polysaccharide (III-PS), mice deficient in C3 or in CD21/CD35 (i.e., complement receptors 1 and 2; CR1/CR2) were immunized with III-PS. Mice deficient in C3 or Cr2 had an impaired primary immune response to III-PS. The defective response was characterized by low IgM levels and the lack of an isotype switch from IgM to IgG Ab production. Compared with wild-type mice, C3- and Cr2-deficient mice exhibited decreased uptake of III-PS by follicular dendritic cells within the germinal centers and impaired localization of III-PS to the marginal zone B cells. Complement-dependent uptake of capsular polysaccharide by marginal zone B cells appears necessary for an effective immune response to III-PS. The normal immune response in wild-type mice may require localization of polysaccharide to marginal zone B cells with subsequent transfer of the Ag to follicular dendritic cells.

Induction of cross-reactive antibodies by immunization of healthy adults with types Ia and Ib group B streptococcal polysaccharide-tetanus toxoid conjugate vaccines.

Types Ia and Ib group B streptococcal (GBS) capsular polysaccharides (PSs) are structural isomers but are antigenically distinct. Immunization of healthy adults with GBS type Ia PS-tetanus toxoid (Ia-TT) or Ib-TT glycoconjugate vaccines induced > or = 4-fold increases in specific immunoglobulin G to the heterologous PS in more than two-thirds of subjects. Ib-TT vaccine-induced IgG bound with substantially higher affinity to homologous (Ib) than to heterologous (Ia) PS and promoted opsonophagocytic killing of GBS type Ib but not type Ia organisms. The failure of the Ib-TT- and Ia-TT-induced human antibodies to kill bacteria of the cross-reactive serotype contrasts with the results of previous studies in animals. Inhibition enzyme-linked immunosorbent assays demonstrated that Ib-TT-induced IgG to the homologous PS bound mainly to native Ib PS, whereas the cross-reactive antibodies recognized both native and derivative PSs. These results indicate that GBS Ia and Ib PSs should be included in a multivalent conjugate vaccine to prevent GBS disease.

Type III group B streptococcal polysaccharide induces antibodies that cross-react with Streptococcus pneumoniae type 14.

Covalent linkage of a bacterial polysaccharide to a protein greatly enhances the carbohydrate's immunogenicity and its binding to solid surfaces in immunoassays. These findings have spurred the development of glycoconjugate vaccines to prevent serious bacterial infections as well as the use of glycoconjugates as coating antigens in bioassays. We evaluated sera from women immunized with unconjugated group B streptococcal (GBS) type III (GBS III) polysaccharide (IIIPS) or with IIIPS covalently linked to tetanus toxoid to assess specificity, sensitivity, and parallelism in dilution curves in two GBS III enzyme-linked immunosorbent assays (ELISAs). One assay used IIIPS mixed with methylated human serum albumin (IIIPS + mHSA) as the coating antigen, and the other used IIIPS covalently linked to HSA (III-HSA). Each coating antigen was associated with a highly specific GBS III bioassay. The sensitivity was higher in the III-HSA ELISA, in which conjugated IIIPS is bound to the plates. Parallelism in titration curves was observed in the III-HSA but not in the IIIPS + mHSA ELISA. The excellent correlation between the concentrations of GBS IIIPS-specific immunoglobulin G (IgG) and the opsonophagocytic activity of these antibodies indicated that the III-HSA assay can predict functionality of vaccine-induced IgG against GBS III disease. The structure of the repeating unit of the capsular polysaccharide of GBS III differs from that of Streptococcus pneumoniae type 14 (Pn14 PS) only by the presence on GBS III of a sialic acid residue at the end of the side chain. The majority of healthy adults responding to GBS III vaccines with a fourfold or greater increase in GBS III-specific IgG antibodies developed antibodies cross-reacting with Pn14 PS (i.e., desialylated GBS IIIPS). The proportion of GBS vaccine responders who developed IgG to the desialylated IIIPS did not depend on whether IIIPS was given in the unconjugated or conjugated form. When present, these vaccine-induced cross-reacting antibodies conferred in vitro antibody-mediated opsonophagocytosis and killing of both GBS III and Pn14, two pathogens that cause invasive disease in young infants.