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ABSTRACT: Opsonophagocytic killing assays (OPAs) are important in vitro surrogate markers of protection in vaccine studies of Streptococcus pneumoniae. We have previously reported the development of a 4-fold multiplexed OPA (MOPA) for the 13 serotypes in Prevnar 13. Because new conjugate vaccines with increased valence are being developed, we developed 4-fold MOPAs for an additional 13 serotypes: serotypes 6C and 6D, plus the 11 serotypes contained in Pneumovax but not in Prevnar 13. A high level of nonspecific killing (NSK) was observed for three serotypes (10A, 15B, and 33F) in multiple batches of baby rabbit complement. The NSK could be reduced by preadsorbing the complement with encapsulated, as well as unencapsulated, pneumococcal strains. The MOPA results compared well with the results of single-serotype OPA for all serotypes except for serotype 3. For serotype 3, the results obtained from the MOPA format were ~40% higher than those of the single-serotype format. Interassay precision of MOPA was determined with 5 serum samples, and the coefficient of variation was generally <30% for all serotypes. MOPA was also specific for all serotypes except for serotype 20; i.e., free homologous polysaccharide (PS), but not unrelated PS, could completely and efficiently inhibit opsonization. However, serotype 20 PS from ATCC could efficiently inhibit opsonization of one serotype 20 target strain but not three other type 20 target strains even at a high (>80 mg/liter) PS concentration. This suggests the presence of serologic heterogeneity among serotype 20 strains.
Clinical and vaccine immunology: CVI 04/2012; 19(6):835-41. · 2.37 Impact Factor
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Erin W Norcross,
Melissa E Sanders,
Quincy C Moore,
Sidney D Taylor,
Nathan A Tullos,
Rhonda R Caston,
Sherrina N Dixon,
Moon H Nahm, Robert L Burton,
Hilary Thompson,
Larry S McDaniel,
Mary E Marquart
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ABSTRACT: The purpose of this study was to determine whether active immunization against pneumolysin (PLY), or polysaccharide capsule, protects against the corneal damage associated with Streptococcus pneumoniae keratitis.
New Zealand White rabbits were actively immunized with Freund's adjuvant mixed with pneumolysin toxoid (ψPLY), Pneumovax 23 (PPSV23; Merck, Whitehouse Station, NJ), or phosphate-buffered saline (PBS), before corneal infection with 10⁵ colony-forming units (CFU) of S. pneumoniae. Serotype-specific rabbit polyclonal antisera or mock antisera were passively administered to rabbits before either intravenous infection with 10¹¹ CFU S. pneumoniae or corneal infection with 10⁵ CFU of S. pneumoniae.
After active immunization, clinical scores of corneas of the rabbits immunized with ψPLY and Freund's adjuvant were significantly lower than scores of the rabbits that were mock immunized with PBS and Freund's adjuvant or with PPSV23 and Freund's adjuvant at 48 hours after infection (P ≤ 0.0010), whereas rabbits immunized with PPSV23 and Freund's adjuvant failed to show differences in clinical scores compared with those in mock-immunized rabbits (P = 1.00) at 24 and 48 hours after infection. Antisera from rabbits actively immunized with PPSV23 and Freund's adjuvant were nonopsonizing. Bacterial loads recovered from infected corneas were higher for the ψPLY- and PPSV23-immunized rabbits after infection with WU2, when compared with the mock-immunized rabbits (P ≤ 0.007). Conversely, after infection with K1443, the ψPLY-immunized rabbits had lower bacterial loads than the control rabbits (P = 0.0008). Quantitation of IgG, IgA, and IgM in the sera of ψPLY-immunized rabbits showed high concentrations of PLY-specific IgG. Furthermore, anti-PLY IgG purified from ψPLY-immunized rabbits neutralized the cytolytic effects of PLY on human corneal epithelial cells. Passive administration of serotype-specific antisera capable of opsonizing and killing S. pneumoniae protected against pneumococcal bacteremia (P ≤ 0.05), but not against keratitis (P ≥ 0.476).
Active immunization with pneumococcal capsular polysaccharide and Freund's adjuvant fails to produce opsonizing antibodies, and passive administration of serotype specific opsonizing antibodies offers no protection against pneumococcal keratitis in the rabbit, whereas active immunization with the conserved protein virulence factor PLY and Freund's adjuvant is able to reduce corneal inflammation associated with pneumococcal keratitis, but has variable effects on bacterial loads in the cornea.
Investigative ophthalmology & visual science 11/2011; 52(12):9232-43. · 3.43 Impact Factor
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Charles E Rose,
Sandra Romero-Steiner, Robert L Burton,
George M Carlone,
David Goldblatt,
Moon H Nahm,
Lindsey Ashton,
Mitch Haston,
Nina Ekström,
Raili Haikala, [......],
Nathalie Durant,
Jan T Poolman,
Phil Fernsten,
Xinhong Yu,
Branda T Hu,
Kathrin U Jansen,
Milan Blake,
Elles R Simonetti,
Peter W M Hermans,
Brian D Plikaytis
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ABSTRACT: Antibody-mediated killing of Streptococcus pneumoniae (pneumococcus) by phagocytes is an important mechanism of protection of the human host against pneumococcal infections. Measurement of opsonophagocytic antibodies by use of a standardized opsonophagocytic assay (OPA) is important for the evaluation of candidate vaccines and required for the licensure of new pneumococcal conjugate vaccine formulations. We assessed agreement among six laboratories that used their own optimized OPAs on a panel of 16 human reference sera for 13 pneumococcal serotypes. Consensus titers, estimated using an analysis-of-variance (ANOVA) mixed-effects model, provided a common reference for assessing agreement among these laboratories. Agreement was evaluated in terms of assay accuracy, reproducibility, repeatability, precision, and bias. We also reviewed four acceptance criterion intervals for assessing the comparability of protocols when assaying the same reference sera. The precision, accuracy, and concordance results among laboratories and the consensus titers revealed acceptable agreement. The results of this study indicate that the bioassays evaluated in this study are robust, and the resultant OPA values are reproducible for the determination of functional antibody titers specific to 13 pneumococcal serotypes when performed by laboratories using highly standardized but not identical assays. The statistical methodologies employed in this study may serve as a template for evaluating future multilaboratory studies.
Clinical and vaccine immunology: CVI 11/2010; 18(1):135-42. · 2.37 Impact Factor
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ABSTRACT: Research involving bacterial pathogens often requires enumeration of bacteria colonies. Here, we present a low-cost, high-throughput colony counting system consisting of colony counting software and a consumer-grade digital camera or document scanner. We demonstrate that this software, called "NICE" (NIST's Integrated Colony Enumerator), can count bacterial colonies as part of a high-throughput multiplexed opsonophagocytic killing assay used to characterize pneumococcal vaccine efficacy. The results obtained with NICE correlate well with the results obtained from manual counting, with a mean difference of less than 3%. NICE is also rapid; it can count colonies from multiple reaction wells within minutes and export the results to a spreadsheet for data processing. As this program is freely available from NIST, NICE should be helpful in bacteria colony enumeration required in many microbiological studies, and in standardizing colony counting methods.
Cytometry Part A 02/2010; 77(8):790-7. · 3.73 Impact Factor
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ABSTRACT: In vitro opsonophagocytosis killing assay (OPA) is widely accepted to quantitate Streptococcus pneumococcal antibodies to serotype-specific pneumococcal capsular polysaccharide (PS). A titer estimation method is needed for large scale data generated by OPA, and it is one component of OPA standardization. In order to improve the reliability of OPA results, we developed a nonlinear fitting method using the Levenberg-Marquardt algorithm with an option of a robust procedure to estimate titers of OPA data. Performance of the proposed method was evaluated by comparing precision and accuracy of titer estimation with traditional methods used in the literature by analyzing real experimental data sets. Goodness-of-fit to experimental data for the two model-based methods was also assessed. We conclude that the four-parameter logistic model is an alternative choice for titer estimation of OPA data. Computer software using the statistical language R and Microsoft Excel was developed to implement our calculation algorithm for OPA data.
Journal of Biopharmaceutical Statistics 02/2008; 18(2):307-25. · 1.34 Impact Factor
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ABSTRACT: Opsonophagocytic killing assays (OPAs) are essential for developing and improving pneumococcal vaccines. There is a need for a high-throughput, reliable, standardized, and fully characterized OPA for pneumococcal antibodies. To meet the need, we have developed and characterized a fourfold multiplexed OPA (MOPA4) against 13 serotypes (1, 3, 4, 5, 6A, 6B, 7F, 9V, 14, 18C, 19A, 19F, and 23F) of pneumococci. Thirteen target bacteria were made resistant to only one of the following antibiotics: optochin, streptomycin, spectinomycin, and trimethoprim. Following optimization of assay conditions, accuracy of MOPA4 was determined by testing 30 sera from old adults in the MOPA4 and the single-serotype assays. The opsonization titers obtained with both assays agreed well (r(2) > 0.95). Although 22 (out of 390; approximately 6%) results differed more than twofold, the differences were not reproducible. The assay was specific: preabsorbing test sera with homologous polysaccharide (PS) completely abrogated opsonic activity, but a pool of unrelated PS (5 mug/ml of each) had no effect. Intra- and interassay coefficients of variation were 10 and 22%, respectively. MOPA4 results were unaffected by having different target pneumococcal serotypes in each assay group. Also, HL60 cell-to-bacteria ratios could be varied twofold without affecting the results. We conclude that MOPA4 is sensitive, accurate, specific, precise, and robust enough for large-scale clinical studies. Furthermore, MOPA4 should allow evaluation of multivalent pneumococcal vaccines with the limited volume of serum typically available from young children.
Clinical and Vaccine Immunology 10/2006; 13(9):1004-9. · 2.55 Impact Factor
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ABSTRACT: Ex vivo expanded Epstein-Barr virus (EBV)-specific T cells have been successfully applied clinically for adoptive immunotherapy. However, the role of CD4(+) T cells in the therapeutic T-cell culture has not been established for the reconstitution of EBV-specific immunity. We isolated and characterized CD4(+) T-cell lines from the ex vivo T-cell cultures. Monoclonal line PD-F4 and oligoclonal lines ND-R4 and TD-B4 were CD3(+)CD4(+)CD8(-). Cytolytic tests with targets of mismatched major histocompatibility complex (MHC) and anti-MHC antibodies confirmed that the cytotoxicity of these CD4(+) cells was restricted by MHC class II. Single cells of ND-R4 expressed interferon-gamma (IFN-gamma, or interleukin 4 (IL-4), but rarely coexpressed these 2 cytokines. In contrast, PD-F4 coexpressed IFN-gamma, IL-2, and IL-4. Kinetic studies with PD-F4 showed that expression of the 3 cytokines plateaued 5 hours upon stimulation and was then drastically reduced, with a pattern consistent with independent modulation and differential off-cycle signal requirements. The cytotoxicity of these CD4(+) cells was largely resistant to brefeldin A, an inhibitor for cytolytic pathways by Fas-ligand family molecules. Although sensitive to concanamycin A and ethyleneglycotetraacetic acid, which inhibit cytotoxicity by granule exocytosis, the CD4(+) cytotoxic T lymphocytes (CTLs) did not express perforin, suggesting a cytotoxic mechanism independent of perforin although involving exocytosis. Flow cytometric analysis showed that the CD4(+) CTLs expressed granulysin, a recently identified cytolytic molecule associated with exocytotic cytolytic granules. These data suggested that CD4(+) T cells in the therapeutic B-lymphoblastoid cell lines-primed T-cell culture are diverse in producing T(H)1 and T(H)2 cytokines, and may exert specific cytotoxicity via exocytosis of granulysin.
Blood 06/2002; 99(9):3302-9. · 9.90 Impact Factor
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