Thomas F. Bumol

Comparative analysis of monoclonal antibody-drug conjugate binding by flow cytometry.

Flow cytometric methods for the evaluation of the cell surface binding properties of monoclonal antibody (MoAb)-drug/toxin conjugates defining tumor-associated antigens are presented. In these techniques, suspension cultures of solid human tumor cell lines are incubated with either varying dilutions of MoAb or MoAb-drug conjugates followed by FITC-conjugated anti-mouse immunoglobulin antibodies in an indirect assay or with FITC-conjugated MoAbs specific for the tumor target cell line in a competition assay. The amount of fluorescent probe bound is measured by flow cytometry and the mean fluorescence intensity determined. The relative binding capacity is quantified by linear regression of the mean fluorescence versus the concentration of primary antibody or antibody conjugate. The application of these techniques to several drug and toxin conjugates of MoAb KS1/4, which defines a human adenocarcinoma-associated antigen, demonstrates that these assays can be effectively utilized to monitor the effects of covalent chemical modification on a MoAbs antigen binding reactivity.

Biosynthesis and secretion of thrombospondin in human melanoma cells

A polyclonal antisera specific for human platelet thrombospondin (TSP) has been utilized to study the biosynthesis and secretion of TSP in the M21 human melanoma cell line. Pulse-chase indirect immunoprecipitation analysis reveal that human melanoma cells rapidly synthesize and secrete this platelet alpha-granule associated glycoprotein. Topographical analysis of the melanoma cell surface by indirect immunofluorescence indicate that the TSP molecules have no obvious extracellular organization. The implications of thrombospondin synthesis in the metastatic process of melanoma are discussed.

Antigenic Expression of Human Melanoma Cells in Serum-Free Medium

A human melanoma cell line, M14 , adapted to grow in serum free synthetic media was examined for its expression and secretion of several serologically defined melanoma associated antigens (MAA) previously described in this laboratory. Melanoma associated antigen expression and secretion was identical to that of M14 cells grown in parallel in serum supplemented medium. Spent synthetic media was found to be an enriched serum free source for the initial isolation of 100 kilodalton secreted glycoprotein MAA. M14 melanoma cells grown in synthetic media were also shown to be adaptable to the double agar clonogenic assay facilitating the examination of clonal heterogeneity in functional studies of MAA in melanoma tumor biology. Recent investigations from this laboratory have focused on characterizing human melanoma associated antigens (MAA) found either as secreted or cell surface associated glycoproteins in human melanoma cell lines. In these studies, monoclonal and polyclonal antiserums to melanoma cell components have been developed to specifically identify these MAAs immunochemically and provide a means to study the structural biochemistry of these determinants. At this time we have identified two antigens on which our research efforts are targeted: 1) a 100,000 dalton secreted glycoprotein (100K) common to melanoma, sarcoma and neuroblastoma tumor cell lines, and 2) a 250,000 dalton-high molecular weight component glycoprotein-proteoglycan complex which is thus far restricted to melanoma cells. The ultimate goal of our efforts is two-fold. Initially, we hope to develop schemes to isolate these melanoma associated antigens in sufficient quantities to obtain detailed structural information on these molecules, and secondly, we wish to implicate these glycoproteins in functional aspects of the biology of metastatic human melanoma in vitro.(ABSTRACT TRUNCATED AT 400 WORDS)