INTRINSIC CELLULAR-RESISTANCE TO OXAZAPHOSPHORINES EXHIBITED BY A HUMAN COLON-CARCINOMA CELL-LINE EXPRESSING RELATIVELY LARGE AMOUNTS OF A CLASS-3 ALDEHYDE DEHYDROGENASE

A cultured human colon carcinoma cell line, viz. colon C, exhibiting intrinsic cellular resistance to mafosfamide mediated by relatively elevated levels of a cytosolic class-3 aldehyde dehydrogenase was identified. Colon C cells were found to be much less sensitive/more resistant (about 10-fold as judged by LC(90) values) to mafosfamide than were two other cultured human colon carcinoma cell lines, viz. RCA and HCT 116b, and, as compared to the barely detectable aldehyde dehydrogenase activity (NADP-dependent enzyme-catalyzed oxidation of benzaldehyde to benzoic acid) in RCA and HCT 116b cells, that in colon C cells was about 200-fold greater. The three cell lines were equisensitive to phosphoramide mustard. Aldehyde dehydrogenase activity was confined to the cytosol in colon C cells (as well as in the other two cell lines) and, on the basis of its physical, immunological and catalytic characteristics, the operative enzyme was judged to be a Type-1 ALDH-3 identical to the Type-1 ALDH-3 expressed in methylcholanthrene-treate d human breast adenocarcinoma MCF-7/0 cells and very nearly identical to the Type-1 ALDH-3 expressed in human normal stomach mucosa. Class-1 and class-2 aldehyde dehydrogenases were not found in these cells. The relative insensitivity to mafosfamide on the part of colon C cells was not observed when exposure to mafosfamide was in the presence of benzaldehyde or 4-(diethylamino)benzaldehyde, each a relatively good substrate for ALDH-3, whereas it was retained when exposure to mafosfamide was in the presence of acetaldehyde, a relatively poor substrate for this enzyme. Sensitivity to mafosfamide on the part of HCT 116b and RCA cells, and to phosphoramide mustard on the part of all three cell lines, was unaffected when drug exposure was in the presence of any of the three aldehydes. Together with earlier reports from our laboratory, these observations demonstrate that intrinsic, as well as stable and transient acquired, resistance to oxazaphosphorines, such as mafosfamide and cyclophosphamide, can be mediated by relatively increased levels of cytosolic class-3 aldehyde dehydrogenases.