Abstract
SummaryPeroxisomal division comprises three steps: elongation, constriction, and fission. Translocation of dynamin-like protein 1 (DLP1), a member of the large GTPase family, from the cytosol to peroxisomes is a prerequisite for membrane fission; however, the molecular machinery for peroxisomal targeting of DLP1 remains unclear. This study investigated whether mitochondrial fission factor (Mff), which targets DLP1 to mitochondria, may also recruit DLP1 to peroxisomes. Results show that endogenous Mff is localized to peroxisomes, especially at the membrane-constricted regions of elongated peroxisomes, in addition to mitochondria. Knockdown of MFF abrogates the fission stage of peroxisomal division and is associated with failure to recruit DLP1 to peroxisomes, while ectopic expression of MFF increases the peroxisomal targeting of DLP1. Co-expression of MFF and PEX11β, the latter being a key player in peroxisomal elongation, increases peroxisome abundance. Overexpression of MFF also increases the interaction between DLP1 and Pex11pβ, which knockdown of MFF, but not Fis1, abolishes. Moreover, results show that Pex11pβ interacts with Mff in a DLP1-dependent manner. In conclusion, Mff contributes to the peroxisomal targeting of DLP1 and plays a key role in the fission of the peroxisomal membrane by acting in concert with Pex11pβ and DLP1.
Highlights
Peroxisome is a ubiquitous, spherical organelle present in virtually all eukaryotes, from yeast to mammals
Translocation of dynamin-like protein 1 (DLP1), a member of the large GTPase family, from the cytosol to peroxisomes is a prerequisite for membrane fission; the molecular machinery for peroxisomal targeting of DLP1 remains unclear
This study investigated whether mitochondrial fission factor (Mff), which targets DLP1 to mitochondria, may recruit DLP1 to peroxisomes
Summary
Peroxisome is a ubiquitous, spherical organelle present in virtually all eukaryotes, from yeast to mammals. Pex11p is a peroxisome-specific division factor conserved from yeast to humans (Thoms and Erdmann, 2005). PEX11b is expressed in almost all types of human cells (Schrader et al, 1998), in contrast to PEX11a and PEX11c, which are expressed in a tissue-specific manner (Li et al, 2002a; Schrader et al, 1998), strongly suggesting that Pex11pb plays a fundamental role in peroxisome division
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