Other
19 Authors
- Snapper SB,
- Luo Z,
- Lam KH,
- Luvsanjav D,
- Zhang R,
- Goldhamer DJ,
- Pandey P,
- Ravaux B,
- Schmidtke DW,
- Svitkina TM,
- Lu Y,
- Chen EH,
- Habela CW,
- Pan D,
- Li R,
- Zhou C,
- Li B,
- Walji T,
- Yang C
| First Author | Lu Y | Year | 2024 |
| Journal | Nat Cell Biol | Volume | 26 |
| Issue | 11 | Pages | 1860-1877 |
| PubMed ID | 39487253 | Mgi Jnum | J:361547 |
| Mgi Id | MGI:7859241 | Doi | 10.1038/s41556-024-01541-5 |
| Citation | Lu Y, et al. (2024) Spatiotemporal coordination of actin regulators generates invasive protrusions in cell-cell fusion. Nat Cell Biol 26(11):1860-1877 |
| abstractText | Invasive membrane protrusions play a central role in a variety of cellular processes. Unlike filopodia, invasive protrusions are mechanically stiff and propelled by branched actin polymerization. However, how branched actin filaments are organized to create finger-like invasive protrusions is unclear. Here, by examining the mammalian fusogenic synapse, where invasive protrusions are generated to promote cell membrane juxtaposition and fusion, we have uncovered the mechanism underlying invasive protrusion formation. We show that two nucleation-promoting factors for the Arp2/3 complex, WAVE and N-WASP, exhibit different localization patterns in the protrusions. Whereas WAVE is closely associated with the plasma membrane at the leading edge of the protrusive structures, N-WASP is enriched with WIP along the actin bundles in the shafts of the protrusions. During protrusion initiation and growth, the Arp2/3 complex nucleates branched actin filaments to generate low-density actin clouds in which the large GTPase dynamin organizes the new branched actin filaments into bundles, followed by actin-bundle stabilization by WIP, the latter functioning as an actin-bundling protein. Disruption of any of these components results in defective protrusions and failed myoblast fusion in cultured cells and mouse embryos. Together, our study has revealed the intricate spatiotemporal coordination between two nucleation-promoting factors and two actin-bundling proteins in building invasive protrusions at the mammalian fusogenic synapse and has general implications in understanding invasive protrusion formation in cellular processes beyond cell-cell fusion. |
