Rescue of the complex temperature-sensitive phenotype of Chinese hamster ovary E36ts20 cells by expression of the human ubiquitin-activating enzyme cDNA.

The ubiquitin conjugation system is a multi-step pathway in which ubiquitin is activated and conjugated to acceptor proteins, one function of which is to target acceptor proteins for rapid degradation within the cell. The conjugation system is involved in many aspects of cellular functions, including the cell cycle. Several cell-cycle arrest mutant cell lines have been characterized and appear to harbour a mutant ubiquitin-activating enzyme, E1, as their primary defect. One such cell line is ts20, which is derived from Chinese hamster ovary E36 cells. This cell line has been used to characterize some of the potential functions of the ubiquitin conjugation system in vivo, such as its involvement in the maturation of autophagic vacuoles. The present study describes the complete rescue of the complex ts20 phenotype following the expression of the cDNA for human E1. Stable transfectants expressing the human E1 cDNA in the CMVneo expression vector were measured for ubiquitin-conjugation activity, protein degradation and growth in culture at the nonpermissive temperature. This rescue confirms that the phenotype observed in the ts20 cells is due to a defect in the E1 enzyme. Thus, the ts20 cell line will serve as a useful tool to delineate the functions of the ubiquitin system in vivo.