<p>Late endosomes and lysosomes (LE/Lys) are dynamic organelles primarily involved in the degradation of macromolecules within cells. Beyond this role, they are crucial for nutrient sensing, calcium signalling, cell proliferation and migration. The cytoskeleton is essential for the proper trafficking and function of LE/Lys. However, while the role of microtubules is well-established, the function of the actin cytoskeleton at LE/Lys is less understood. In this work, we performed an siRNA screen to identify actin regulators that play a role at LE/Lys. The screen revealed that the F-actin-binding protein nexilin regulates LE/Lys size as its depletion leads to their enlargement. We show that this is a consequence of inhibited LE/Lys fission and affects the retrograde transport from late endosomes to Golgi. Moreover, our data demonstrate that nexilin interacts with the small GTPase Rab7b and the lysosomal calcium channel TRPML1, and that TRPML1 activation rescues the LE/Lys enlargement caused by nexilin depletion. Taken together, our results indicate that nexilin mediates the interaction between LE/Lys and the acto-myosin cytoskeleton required for the calcium-dependent fission of these organelles.</p>

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Nexilin promotes calcium-dependent endo-lysosomal fission required for retrograde transport

  • Marie Bergundhaugen,
  • Marte Sneeggen,
  • Cinzia Progida

摘要

Late endosomes and lysosomes (LE/Lys) are dynamic organelles primarily involved in the degradation of macromolecules within cells. Beyond this role, they are crucial for nutrient sensing, calcium signalling, cell proliferation and migration. The cytoskeleton is essential for the proper trafficking and function of LE/Lys. However, while the role of microtubules is well-established, the function of the actin cytoskeleton at LE/Lys is less understood. In this work, we performed an siRNA screen to identify actin regulators that play a role at LE/Lys. The screen revealed that the F-actin-binding protein nexilin regulates LE/Lys size as its depletion leads to their enlargement. We show that this is a consequence of inhibited LE/Lys fission and affects the retrograde transport from late endosomes to Golgi. Moreover, our data demonstrate that nexilin interacts with the small GTPase Rab7b and the lysosomal calcium channel TRPML1, and that TRPML1 activation rescues the LE/Lys enlargement caused by nexilin depletion. Taken together, our results indicate that nexilin mediates the interaction between LE/Lys and the acto-myosin cytoskeleton required for the calcium-dependent fission of these organelles.