PEX16 contributes to peroxisome maintenance by constantly trafficking PEX3 via the ER

A Aranovich, R Hua, AD Rutenberg… - Journal of cell …, 2014 - journals.biologists.com
A Aranovich, R Hua, AD Rutenberg, PK Kim
Journal of cell science, 2014journals.biologists.com
The endoplasmic reticulum (ER) is required for the de novo biogenesis of peroxisomes in
mammalian cells. However, its role in peroxisome maintenance is unclear. To explore ER
involvement in the maintenance of peroxisomes, we redirect a peroxisomal membrane
protein (PMP), PEX3, to directly target to the ER using the N-terminal ER signal sequence
from preprolactin. Using biochemical techniques and fluorescent imaging, we find that ER-
targeting PEX3 (ssPEX3) is continuously imported into pre-existing peroxisomes. This …
Abstract
The endoplasmic reticulum (ER) is required for the de novo biogenesis of peroxisomes in mammalian cells. However, its role in peroxisome maintenance is unclear. To explore ER involvement in the maintenance of peroxisomes, we redirect a peroxisomal membrane protein (PMP), PEX3, to directly target to the ER using the N-terminal ER signal sequence from preprolactin. Using biochemical techniques and fluorescent imaging, we find that ER-targeting PEX3 (ssPEX3) is continuously imported into pre-existing peroxisomes. This suggests that the ER constitutively provides membrane proteins and associated lipids to pre-existing peroxisomes. Using quantitative time-lapse live-cell fluorescence microscopy applied to cells that were either depleted of or exogenously expressing PEX16, we find that PEX16 mediates the peroxisomal trafficking of two distinct peroxisomal membrane proteins, PEX3 and PMP34, via the ER. These results not only provide insight into peroxisome maintenance and PMP trafficking in mammalian cells but also highlight important similarities and differences in the mechanisms of PMP import between the mammalian and yeast systems.
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