Hypomorphic mutation of PEX3 with peroxisomal mosaicism reveals the oscillating nature of peroxisome biogenesis coupled with differential metabolic activities.

Abstract

Impaired peroxisome assembly caused by mutations in PEX genes results in a human congenital metabolic disease called Zellweger spectrum disorder (ZSD), which impacts the development and physiological function of multiple organs. In this study, we revealed a long-standing problem of heterogeneous peroxisome distribution among cell population, so called "peroxisomal mosaicism", which appears in patients with mild form of ZSD. We mutated PEX3 gene in HEK293 cells and obtained a mutant clone with peroxisomal mosaicism. We found that peroxisomal mosaicism can be reproducibly arise from a single cell, even if the cell has many or no peroxisomes. Using time-lapse imaging and a long-term culture experiment, we revealed that peroxisome biogenesis oscillates over a span of days; this was also confirmed in the patient's fibroblasts. During the oscillation, the metabolic activity of peroxisomes was maintained in the cells with many peroxisomes while depleted in the cells without peroxisomes. Our results indicate that ZSD patients with peroxisomal mosaicism have a cell population whose number and metabolic activities of peroxisomes can be recovered. This finding opens the way to develop novel treatment strategy for ZSD patients with peroxisomal mosaicism, who currently have very limited treatment options.