Peroxisome division is impaired in a CHO cell mutant with an inactivating point-mutation in dynamin-like protein 1 gene

Experimental Cell Research
Atsushi TanakaY Fujiki

Abstract

We earlier isolated a Chinese hamster ovary cell line ZP121 showing morphologically abnormal, tubular peroxisomes, and apparent dysmorphogenesis of mitochondria. Here, we identified an inactivating point-mutation in dynamin-like protein 1 gene, DLP1, responsible for the phenotype of ZP121. One allele of DLP1 possessed a point missense mutation resulting in G363D in the middle region of 699-amino-acid long DLP1, termed DLP1G363D, while the other allele was normal. DLP1G363D was apparently expressed at a higher level than DLP1. Abnormal morphogenesis of peroxisomes as well as mitochondria was restored when wild-type DLP1 was transfected. The GTPase activity of DLP1G363D was barely detectable, indicating that the G363D mutation severely affected the GTPase activity. Moreover, a higher level of DLP1G363D expression in CHO-K1 cells reproduced the ZP121-type phenotype, hence indicating its dominant-negative activity to the wild-type DLP1, most likely by forming a heteromeric tetramer. The G363D mutation also gave rise to a temperature-sensitive phenotype showing normal morphogenesis of peroxisomes and mitochondria at 40 degrees C. Microtubule organization was most likely involved in the elongation of peroxisomes. Furthermore, ZP121 w...Continue Reading

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