Peroxisomes and the endoplasmic reticulum (ER) cooperate extensively in lipid-related
metabolic pathways, and the ER also provides phospholipids to enable the peroxisomal
membrane to expand prior to division. Recently, we identified peroxisomal proteins ACBD5
and ACBD4, and the ER protein VAPB as tethering components which physically ...
Peroxisomes and the endoplasmic reticulum (ER) cooperate extensively in lipid-related
metabolic pathways, and the ER also provides phospholipids to enable the peroxisomal
membrane to expand prior to division. Recently, we identified peroxisomal proteins ACBD5
and ACBD4, and the ER protein VAPB as tethering components which physically interact to
foster peroxisome-ER associations at membrane contact sites. Overexpression or loss of these
tether proteins alters the extent of peroxisome-ER interactions, impacting on lipid exchange
between these two compartments. To facilitate further studies into peroxisome-ER associations
at the level of membrane contact sites, their role, composition and regulation, we have
developed two fluorescence-based systems to monitor peroxisome-ER interactions. We
modified a proximity ligation assay and a split-fluorescence reporter system using split
superfolder green fluorescent protein. Using the proximity ligation assay we were able to
measure changes in peroxisome-ER interactions whilst the split-fluorescence reporter was
more limited and only allowed us to label ER-peroxisome contacts. We show that both
techniques can be useful additions to the toolkit of methods to study peroxisome-ER
associations and explore the relative merits of each.
