PROPERTIES OF ACATALASIC CELLS GROWING IN VITRO

Acatalasia, a disease due to homozygosity for a Mendelian gene, is characterized by the absence of the enzyme catalase from the tissues of the human body. Red cells from heterozygotes have enzyme activities about one-half normal. In this paper, the development of cell lines from skin biopsies on an affected homozygote, a heterozygote, and eight control patients is described. The cell type is the euploid "fibroblast." It was found that acatalasic cells lacked the enzyme, even after growing for many months in a medium rich in catalase. The control lines all had mean catalase activities double or more that of the heterozygous line. Selection experiments, in which the growth of cells exposed for 20 minutes to varying concentrations of hydrogen peroxide was measured, did not provide a system for preferentially eliminating acatalasic cells. Certain other experiments bearing on the enzymatic defect in this disease were performed

Studies on the xanthine oxidase activity of mammalian cells

Xanthine oxidase in man is confined to but a few tissues and is absent from cultured cell strains. In rodents, however, the enzyme is more widely distributed among the tissues and can be demonstrated in most cell lines. Rodents possess the enzyme uricase and are therefore able to carry purine catabolism one step further than man. Preliminary results suggest that uricase is restricted to but a few rodent tissues and is absent from cultured rodent cells. Hence it may be that in each species only the final enzyme of purine catabolism is tissue restricted. In other experiments, mammalian cells were grown in the presence of compounds known to induce xanthine oxidase in a eukaryotic fungus (Aspergillus nidulans) . These compounds did not induce the enzyme in mammalian cells.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/44184/1/10528_2004_Article_BF00487339.pd