Pamela Burke

Enzyme-Linked Immunosorbent Assay for Measuring Antibodies to Pneumococcal Polysaccharides for the PNEUMOVAX 23 Vaccine: Assay Operating Characteristics and Correlation to the WHO International Assay

ABSTRACT The Merck pneumococcal (Pn) enzyme-linked immunosorbent assays (ELISAs) for measuring antibodies to 12 serotypes (serotypes 1, 3, 4, 6B, 7F, 8, 9V, 12F, 14, 18C, 19F, and 23F) were validated in 1999. Merck Laboratories developed the Pn assays using 10 μg/ml C polysaccharide, 100 μg/ml Pn polysaccharide (PnPs) 25, and 100 μg/ml PnPs 72 for preadsorption of samples, standards, and controls in order to improve the specificity to the Pn serotypes in the vaccine. The Pn assays utilize postimmunization sera obtained from subjects immunized with PNEUMOVAX 23 as standards for measuring immunoglobulin G concentrations in sera obtained from vaccine clinical trials with adults and infants. This material was calibrated to the Pn reference standard serum, 89SF, subjected to the Merck Pn ELISA adsorbants. Comparisons were made between the Merck Pn assay and the international Pn assay, showing moderate agreement between the two assay formats. This work describes the test procedures and operating characteristics of the Merck Pn assays and the results of experiments performed to compare the Merck Pn ELISAs to the international Pn ELISAs.

The Application of Molecular Biology to the Development of Novel Vaccines

In summary, we have shown that yeast is the preferred host for the expression of recombinant-derived hepatitis B vaccines, and that a yeast expression system which is productive, stable and scaleable can be developed for each of the three HBV envelope proteins. The versatility of regulated and integrated yeast expression systems in the production of foreign polypeptides with biomedical utility also has been highlighted. We also have shown that careful attention to the development of recombinant clones helps to optimize the entire production process leading to highly purified products which share many biochemical properties with the plasma-derived vaccine. Furthermore, immunization with PreS2 sequences is capable of protecting chimpanzees from HBV infection. The availability of PreS2 + S and PreS1 + PreS2 + S proteins expressed in yeast now provides the opportunity for establishing the relevance of such candidate vaccines in preventing human disease, thereby highlighting the utility of molecular biology in modern vaccine development.