SQL-1, homologue of the Golgi protein GMAP210, modulates intraflagellar transport in C. elegans

JR Broekhuis, S Rademakers… - Journal of cell …, 2013 - journals.biologists.com
JR Broekhuis, S Rademakers, J Burghoorn, G Jansen
Journal of cell science, 2013journals.biologists.com
Primary cilia are microtubule-based organelles that have important sensory functions. For
their function, cilia rely on the delivery of specific proteins, both by intracellular trafficking and
intraflagellar transport (IFT). In the cilia of Caenorhabditis elegans, anterograde IFT is
mediated by kinesin-II and OSM-3. Previously, we have shown that expression of a
dominant active G protein α subunit (GPA-3QL) in amphid channel neurons affects the
coordination of kinesin-II and OSM-3 and also affects cilia length, suggesting that …
Summary
Primary cilia are microtubule-based organelles that have important sensory functions. For their function, cilia rely on the delivery of specific proteins, both by intracellular trafficking and intraflagellar transport (IFT). In the cilia of Caenorhabditis elegans, anterograde IFT is mediated by kinesin-II and OSM-3. Previously, we have shown that expression of a dominant active G protein α subunit (GPA-3QL) in amphid channel neurons affects the coordination of kinesin-II and OSM-3 and also affects cilia length, suggesting that environmental signals can modulate these processes. Here, we show that loss-of-function of sql-1 (suppressor of gpa-3QL 1), which encodes the homologue of the mammalian Golgi protein GMAP210, suppresses the gpa-3QL cilia length phenotype. SQL-1 localizes to the Golgi apparatus, where it contributes to maintaining Golgi organization. Loss of sql-1 by itself does not affect cilia length, whereas overexpression of sql-1 results in longer cilia. Using live imaging of fluorescently tagged IFT proteins, we show that in sql-1 mutants OSM-3 moves faster, kinesin-II moves slower and that some complex A and B proteins move at an intermediate velocity, while others move at the same velocity as OSM-3. This indicates that mutation of sql-1 destabilizes the IFT complex. Finally, we show that simultaneous inactivation of sql-1 and activation of gpa-3QL affects the velocity of OSM-3. In summary, we show that in C. elegans the Golgin protein SQL-1 plays an important role in maintaining the stability of the IFT complex.
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