Pivotal Vaccine Efficacy Trials-Study Design Considerations from a Vaccine Trial Design Working Group.

Vaccine candidates for are approaching phase 3 clinical trials in the target population of young children living in low- and middle-income countries. Key study design decisions will need to be made to maximize the success of such trials and minimize the time to licensure and implementation. We convened an ad hoc working group to identify the key aspects of trial design that would meet the regulatory requirements to achieve the desired indication of prevention of moderate or severe shigellosis due to strains included in the vaccine.

Modified binding assay for improved sensitivity and specificity in the detection of residual pertussis toxin in vaccine preparations.

A binding assay was recently published that differentiates between pertussis toxin (PTx) and the pertussis toxoid (PTd) used in acellular pertussis vaccines based on the selective binding of PTx to fetuin and detection with a polyclonal antibody. We found that the assay specificity for PTx was affected by both pH and salt. A monoclonal antibody (mAb) was identified that eliminated specificity problems and improved the sensitivity to 0.

Early effects of lasonolide a on pancreatic cancer cells.

Lasonolide A, a novel polyketide-derived macrolide, was previously identified from an extract of the marine sponge Forcepia sp. in an assay for protein kinase C (PKC) inhibitors. Cytotoxicity testing and profiling of lasonolide A in the National Cancer Institute (NCI) 60 cell panel screen revealed that it was potent toward a broad range of cell lines and also suggested a unique mechanism of action.

Plakolide A, a new gamma-lactone from the marine sponge Plakortis sp.

Plakolide A (1), a new alpha-exomethylene-gamma-lactone isolated from the marine sponge Plakortis sp., was found to inhibit inducible nitric oxide synthase (iNOS) activity. The isolation, structure elucidation, and biological activity of plakolide A is described.

Tubulin polymerizing activity of dictyostatin-1, a polyketide of marine sponge origin.

Dictyostatin-1 had previously been isolated from a marine sponge of the genus Spongia sp. and described as a cytotoxic agent to murine and human cancer cells, but its mechanism of activity was unknown. In a routine screening assay used to detect cytotoxic compounds of marine origin, dictyostatin-1 was identified as a highly active component in an extract from a Lithistida sponge and exploration into its pharmacology was pursued.

Semisynthetic analogues of the microtubule-stabilizing agent discodermolide: preparation and biological activity.

A series of 12 semisynthetic discodermolide analogues, 2-13, have been prepared using natural (+)-discodermolide (1) and evaluated for in vitro cytotoxicity against cultured murine P-388 leukemia and A-549 human adenocarcinoma cells. These semisynthetic analogues showed a significant variation of cytotoxicity and confirmed the importance of the C-7 through C-19 molecular fragment for potency. Specifically, these analogues suggested the importance of the C-11 and C-17 hydroxyl groups and the C-13 double bond for the potency of discodermolide.

Five new discodermolide analogues from the marine sponge Discodermia species.

Discodermolide (1) and five new discodermolide analogues trivially named 2-epi-discodermolide (2), 2-des-methyldiscodermolide (3), 5-hydroxymethyldiscodermolate (4), 19-des-aminocarbonyldiscodermolide (5), and 9(13)-cyclodiscodermolide (6) have been isolated from marine sponges belonging to the genus Discodermia collected from the Caribbean Sea. The isolation, structure elucidation, and biological activities of 2-6 are described. The natural analogues, which were isolated in trace amounts, exhibited significant variation of cytotoxicity against the cultured murine P-388 leukemia and A-549 human adenocarcinoma cells and suggested the importance of the C(7) through C(17) moiety for potency against cultured tumor cell lines.