Authors
Yungui Guo, David Brooks, Ziwei Zhao, Erica Biven, Erika R Geisbrecht
Published in
Autophagy reports. Volume 4. Issue 1. Pages 2471121. Epub Mar 04, 2025.
Abstract
Pavarotti (Pav) and its binding partner Tumbleweed (Tum) are well known for their evolutionarily conserved roles in microtubule-dependent movements during cytokinesis. In post-mitotic pav RNAi muscles, we unexpectedly observed the accumulation of puncta marked by ubiquitin, p62, and Atg8a without an obvious disorganization of the microtubule network. Some of these autophagosomal structures clustered together and colocalized with mitochondria. The Pav-Tum complex was enriched in muscle nuclei, consistent with roles for Pav and Tum in nuclear envelope (NE) budding, an alternative pathway for the export of large ribonucleoproteins. One of the established cargoes of the Drosophila NE budding pathway, Marf mRNA, was indeed reduced in the myoplasm of pav RNAi muscles. Moreover, RNAi knockdown of Marf or the NE budding components Wash or Torsin also caused the clustering of p62-marked mitochondria. These data together define a model whereby blocking NE budding reduces mitochondrial activity and in turn recruits p62 and autophagic structures for a lysosomal fate.
PMID:
40395995
Bibliographic data and abstract were imported from PubMed on 21 May 2025.
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