Frederick F. Becker

Polycyclic aromatic compounds as anticancer agents: Synthesis and biological evaluation of some chrysene derivatives

Synthesis and biological evaluation of new chrysene derivatives aimed at the development of anticancer agents were carried out.

Changes in cell surface charge and transmembrane potential accompanying neoplastic transformation of rat kidney cells

Free flow electrophoresis measurements have been used to determine the surface charge density of normal rat kidney (NRK) cells and a clone of NRK, designated as 6m2, that exhibit a transformed phenotype at 33 degrees C and a non-transformed phenotype at 39 degrees C. A clone of 6m2, designated 54-5A4, which is transformed at both 33 degrees C and 39 degrees C was also studied. A surface charge density of -1.42 microC/cm2 was obtained for the NRK and non-transformed 6m2 cells at 39 degrees C, whereas at 33 degrees C values of -1.85 and -1.78 microC/cm2 were determined for the transformed 6m2 and 54-5A4 cells, respectively. It was found that 72% of the increased charge that appeared on the transformed 6m2 cells compared with the non-transformed 6m2 cells was RNAase sensitive. The time-dependent decrease in surface charge that accompanied the shift of the 6m2 cells from their transformed to non-transformed state was found to mirror the increase in transmembrane potential previously reported using a fluorescent dye technique, and was also comparable to the reported temporal changes in their morphology and virally-coded protein content.

Suppression of in vitro chemical transformation by the carcinogenesis-promoting, viable yellow gene Avy.

The presence of the viable yellow Avy and lethal yellow Ay genes has been demonstrated to accelerate the process of tumorigenesis in mice bearing genetically, chemically or virally initiated cells. This promoting effect has been reported in the liver, lung, breast, bladder and skin. Although it has been demonstrated that the accelerated process is associated with systemic, pathophysiologic alterations such as an alteration in the lipogenic pathway, which in turn leads to obesity, alteration in glucose metabolism and/or random immunologic alterations, no examination of the in vitro tumorigenic susceptibility of the cells of animals bearing the yellow genes has yet been reported. In the current study, spontaneous and N-methyl-N-nitro-N-nitrosoguanidine (MNNG)-induced transformation was determined in skin-derived fibroblasts from C57BL/6N-Avy/a mice (Hy) and their black a/a litter mates (B1-). The growth rate of untreated fibroblasts was greater for those from the yellow mice than from the black, while susceptibility to MNNG toxicity was equivalent. However, the rate of spontaneous and chemically induced transformation was consistently and significantly higher in the cells obtained from the black a/a mice than in those from yellow, Avy/a litter mates. These findings, with others from the literature, suggest that the Avy gene may suppress transformation and carcinogenic susceptibility in specific cells, such as fibroblasts, while the systemic effects of the gene are promotional in other cells.

A Combined Dielectrophoretic and Field-Flow Fractionation Microsystem for Biomedical Separation and Analysis

The ability to separate and identify cells and other particulate matter is a fundamental requirement of microsystems designed for biomedical and other applications. Here we describe a method that combines dielectrophoresis and field-flow fractionation to separate and identify particles in a microfluidic environment. This method is applicable not only to the analysis of cellular and other particulate analytes but also to the detection of toxins using sensitized test particles. We show proof of principle by achieving differential separation of human peripheral blood mononuclear cell subtypes in a microsystem based on the method.

Diversity in rat strains and tumor lines of DNA fragments homologous to an amplified 5.8 kilobase Eco R1 fragment of Novikoff hepatoma cells

Abstract The nuclear DNA of several different rat strains and rat tumor lines have been analyzed with respect to Eco R1 fragments homologous to the amplified 5.8 kb Eco R1 fragment (fragment A) of Novikoff hepatoma cells. Two Eco R1 fragments, 4.8 and 4.4 kb, which hybridized to the 5.8 kb Eco R1 fragment, were found in all the genomes investigated. Although none of the examined genomes exhibited evidence of the same degree of amplification of fragment A related sequences as that of Novikoff hepatoma, several had Eco R1 fragments of various other sizes which were homologous to fragment A. These results indicate that the family of fragment A homologous sequences consists of two populations, the constant 4.8 and 4.4 kb fragments, and a second group of sequences which varies with respect to size.