Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2023.07.20.549860v1?rss=1 Authors: Link, F., Borges, A., Karo, O., Jungblut, M., Mueller, T., Meyer-Natus, E., Krueger, T., Sachs, S., Jones, N. G., Morphew, M., Sauer, M., Stigloher, C., McIntosh, J. R., Engstler, M. Abstract: Endocytosis is a common process observed in all eukaryotic cells, although its complexity varies among different organisms. In Trypanosoma brucei, the endocytic machinery is under special selective pressure because rapid membrane recycling is essential for immune escape. This unicellular parasite effectively removes host antibodies from its cell surface through hydrodynamic drag and fast endocytic internalization. The entire process of membrane recycling occurs exclusively through the flagellar pocket, an extracellular organelle situated at the posterior pole of the spindle-shaped cell. The high-speed dynamics of membrane flux in trypanosomes do not seem compatible with the conventional concept of distinct compartments for early, late and recycling endosomes. To investigate the underlying structural basis for the remarkably efficient membrane traffic in trypanosomes, we employed advanced techniques in light and electron microscopy to examine the three-dimensional architecture of the endosomal system. Our findings reveal that the endosomal system in trypanosomes exhibits a remarkably intricate structure. Instead of being compartmentalized, it constitutes a continuous membrane system, with specific functions of the endosome segregated into membrane subdomains enriched with classical markers for early, late, and recycling endosomes. These membrane subdomains can partly overlap or are interspersed with areas that are negative for endosomal markers. This continuous endosome allows fast membrane flux by facilitated diffusion that is not slowed by multiple fission and fusion events. Our study further suggests that in trypanosomes, the endosome has taken over the role of the trans-Golgi network as the master regulator of membrane trafficking. Copy rights belong to original authors. Visit the link for more info Podcast created by Paper Player, LLC