Dynein directs prophase centrosome migration to control the stem cell division axis in the developing C. elegans epidermis
Carvalho C, Barbosa D, Celestino R, Zanin E, Carvalho AX, Gassmann R (2024)
Publication Language: English
Publication Type: Journal article, Original article
Publication year: 2024
Journal
URI: https://academic.oup.com/genetics/advance-article/doi/10.1093/genetics/iyae005/7517162?login=true
Abstract
The microtubule motor dynein is critical for the assembly and positioning of mitotic spindles. In C. elegans, these dynein functions have been extensively studied in the early embryo but remain poorly explored in other developmental contexts. Here we use a hypomorphic dynein mutant to investigate the motor's contribution to asymmetric stem cell-like divisions in the larval epidermis. Live imaging of seam cell divisions that precede formation of the seam syncytium shows that mutant cells properly assemble but frequently mis-orient their spindle. Mis-oriented divisions misplace daughter cells from the seam cell row, generate anucleate compartments due to aberrant cytokinesis, and disrupt asymmetric cell fate inheritance. Consequently, the seam becomes disorganized and populated with extra cells that have lost seam identity, leading to fatal epidermal rupture. We show that dynein orients the spindle through the cortical GOA-1Gαi–LIN-5NuMA pathway by directing the migration of prophase centrosomes along the anterior–posterior axis. Spindle mis-orientation in the dynein mutant can be partially rescued by elongating cells, implying that dynein–dependent force generation and cell shape jointly promote correct asymmetric division of epithelial stem cells.
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Portugal (PT)How to cite
APA:
Carvalho, C., Barbosa, D., Celestino, R., Zanin, E., Carvalho, A.X., & Gassmann, R. (2024). Dynein directs prophase centrosome migration to control the stem cell division axis in the developing C. elegans epidermis. Genetics. https://dx.doi.org/10.1093/genetics/iyae005
MLA:
Carvalho, Cátia, et al. "Dynein directs prophase centrosome migration to control the stem cell division axis in the developing C. elegans epidermis." Genetics (2024).
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