The systemic administration of lethal toxin achieves a growth delay of human melanoma and neuroblastoma xenografts: assessment of receptor contribution.

Two of the three components of anthrax toxin, protective antigen (PA) and lethal factor (LF), together known as lethal toxin (LeTx), reportedly show anti-tumor activity in melanoma in vitro and in vivo. The growth inhibitory activity of LeTx in culture was determined in nine human cancer cell lines, including melanoma, neuroblastoma and adenocarcinoma cells, as well as in human umbilical vein endothelial cells (HUVEC). The contribution of the two known PA receptor proteins, ANTXR1/TEM8 and ANTXR2/CMG2, to the sensitivity of the cells was assessed.

Development of an in vivo antibody-mediated killing (IVAK) model, a flow cytometric method to rapidly evaluate therapeutic antibodies.

The efficacy and mechanism of action of therapeutic antibodies that target cancer cells have typically been evaluated using in vitro assays and long-term in vivo tumor models. To allow for a more efficient assessment of the function of candidate therapeutic antibodies, we have developed a flow cytometric-based method that rapidly and directly quantifies antibody-mediated killing in a short term in vivo assay. Target cells that express human CD52, including huCD52(+) splenocytes from huCD52 transgenic mice and Ramos cells, a CD52(+) human B cell lymphoma line, and CD52(-) reference cells were differentially labeled by using two fluorescent dyes to distinguish target and reference cell populations.

Preclinical safety and biodistribution of adenovirus-based cancer vaccines after intradermal delivery.

The recombinant adenoviral (Ad) vector is being considered as a cancer vaccine platform because it efficiently induces immune responses to tumor antigens by intradermal immunization. The aims of this study were to evaluate the potential toxicities and biodistribution after a single dose or six weekly intradermal doses of Ad2/gp100v2 and Ad2/MART-1v2, which encode tumor-associated antigens gp100 and MelanA/MART-1, respectively. The only dose-related toxicities associated with intradermal administration of these Ad vectors were inflammatory cell infiltrates in the draining lymph nodes and injection sites that persisted 83 days after administration.

Advantages of hydrophobic culture bags over flasks for the generation of monocyte-derived dendritic cells for clinical applications.

Dendritic cells (DC), potent antigen presenting cells capable of activating both naïve and primed T cells, are currently being pursued clinically in the development of cancer vaccines. Variations in the literature regarding DC source, culture conditions, maturation state, dose, and route of immunization make comparisons of clinical trial data difficult. In order to define and optimize the culture conditions for DC generation, we have performed a careful comparison of two culture methods, as well as different methods of DC maturation.