The authors show that epithelial and mesenchymal cells navigate chemical cues via fundamentally different force-generating mechanisms. Whereas epithelial groups rely on forces produced at internal junctions, mesenchymal clusters depend on coordinated supracellular contractions, offering new insight into how diverse cell types achieve collective movement during development and disease.
Mingdong Liu, Liuyan Yang, Rong Huang, Lei Qi, Tiefeng Song, Yuxuan Huang, Yunhui Liu, Yu-Zhong Zhang, Yong Wang, Qing-Tao Shen
Liu et al. report that linker extension in ESCRT-III converts flat spirals into rings, abolishing their capacity to execute membrane abscission for intraluminal vesicle formation. These findings establish the linker as a key regulator of assembly and confirm the essential role of the flat spiral conformation.
The amounts of sphingomyelin and cholesterol in organelle membranes are coordinately regulated. Depletion of cholesterol increases sphingomyelin synthesis resulting from increased coatomer II–mediated endoplasmic reticulum-to-Golgi trafficking of ceramide, the precursor to sphingomyelin. The coatomer II network protein cTAGE5 is proposed to sort ceramide-rich membrane into endoplasmic reticulum cargo exit sites.
Emily D. Fabiano, Elle P. Techasiriwan, Lindsey N. Sabo, Nathaniel Seluga, Brenton D. Hoffman, Cynthia A. Reinhart-King
The focal adhesion protein vinculin affects the dynamics of the actin cytoskeleton, and reorganization of the actin cytoskeleton is an energetically demanding process important in cell migration. Here, Fabiano et al. establish a relationship between vinculin, cell bioenergetics, and migration behavior, and the RhoA/ROCK/myosin II pathway in MDA-MB-231 cells.
Adam James Waite, Beiduo Rao, Elizabeth Schinski, Nathaniel H. Thayer, Manuel Hotz, Austin E. Y. T. Lefebvre, Celeste Sandoval, Daniel E. Gottschling
The decline of mitochondrial function with age is observed widely among organisms. In a screen to identify mutants that delay this decline, Waite et al. discover that potassium, the most abundant cation in cells, modulates mitochondrial membrane potential—a functional hallmark of mitochondrial health. This study links together mitochondrial health, potassium homeostasis, and cellular aging.
Chatterjee et al. reveal that structural snapshots of different conformations of α-HL toxin from Staphylococcus aureus, such as arc-like intermediates, heptameric prepores, and pore, and octameric species, identified from the prehemolytic and posthemolytic stages, offer step-by-step oligomerization of α-HL during erythrocyte membrane lysis.
Nitish Kumar, Nathaniel Carey, J. Ian Hertzler, Annabelle R. Bernard, Gibarni Mahata, Gregory O. Kothe, Yitao Shen, Melissa M. Rolls
Regulation of levels of cytoskeletal building blocks is poorly understood. Using Drosophila neurons, the authors identify a pathway that communicates changes in microtubule dynamics to the nucleus. This pathway in turn modulates the expression of γTubulin, the central microtubule nucleator.
Kim discusses work by Yamasaki et al. on how GARLH4 regulates neuroligin sorting, demonstrating that synapse identity is a tunable outcome of protein competition.
Siqi Deng, Qinling Qiu, Shangyu Dang, Zhiqiang Yan
Deng et al. summarize the physiological functions and structural basis of OSCA/TMEM63 proteins, positioning them within a mechanosensitive ion channel superfamily.
