Isolation of Chinese hamster ovary cell pex mutants: two PEX7-defective mutants

Abstract

We searched for novel Chinese hamster ovary (CHO) cell mutants defective in peroxisome biogenesis by an improved method using peroxisome targeting signal 2 (PTS2)-tagged enhanced green fluorescent protein (EGFP). From mutagenized TKaEG2 cells, the wild-type CHO-K1 stably expressing rat Pex2p and PTS2-EGFP, cell colonies resistant to the 9-(1(')-pyrene)nonanol/ultraviolet treatment were examined for intracellular location of PTS2-EGFP. Of six mutant cell clones two, ZPEG227 and ZPEG231, showed cytosolic PTS2-EGFP, indicative of impaired PTS2 import, and numerous PTS1-positive particles. PEX7 expression restored the impaired PTS2 import in both mutants. Cell fusion with fibroblasts from a patient with PEX7-defective rhizomelic chondrodysplasia punctata did not complement PTS2 import defect of ZPEG227 and ZPEG231, confirming that these two are pex7 mutants. Mutation analysis of PEX7 by reverse transriptase (RT)-PCR indicated that ZPEG227-allele carried an inactivating nonsense mutation, Trp158Ter. Therefore, ZPEG227 is a pex7 mutant possessing a newly identified mutation in mammalian pex7 cell lines.