Curated Optogenetic Publication Database

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Coordination of protrusion dynamics within and between collectively migrating border cells by myosin II.

blue AsLOV2 D. melanogaster in vivo Control of cytoskeleton / cell motility / cell shape
Mol Biol Cell, 7 Aug 2019 DOI: 10.1091/mbc.e19-02-0124 Link to full text
Abstract: Collective cell migration is emerging as a major driver of embryonic development, organogenesis, tissue homeostasis, and tumor dissemination. In contrast to individually migrating cells, collectively migrating cells maintain cell-cell adhesions and coordinate direction-sensing as they move. While non-muscle myosin II has been studied extensively in the context of cells migrating individually in vitro, its roles in cells migrating collectively in three-dimensional, native environments are not fully understood. Here we use genetics, Airyscan microscopy, live imaging, optogenetics, and Förster resonance energy transfer to probe the localization, dynamics, and functions of myosin II in migrating border cells of the Drosophila ovary. We find that myosin accumulates transiently at the base of protrusions, where it functions to retract them. E-cadherin and myosin co-localize at border cell-border cell contacts and cooperate to transmit directional information. A phosphomimetic form of myosin is sufficient to convert border cells to a round morphology and blebbing migration mode. Together these studies demonstrate that distinct and dynamic pools of myosin II regulate protrusion dynamics within and between collectively migrating cells and suggest a new model for the role of protrusions in collective direction sensing in vivo. Movie S1 Movie S1 Live imaging of border cell specification and delamination from anterior epithelium From Figure 1D-I. Slbo promoter driving Lifeact-GFP (green) marks border cells, Upd-Gal4, UAS-DsRed.nls (red) mark polar cell nuclei. Hoechst 33342 (blue) marks DNA. Time resolution is 4 min. Movie S2 Movie S2 Representative Z-projected and registered live imaging of Sqh-mCherry accumulating in cortical junctions (flashing arrows) during border cell migration. From Figure 3J-K. Time resolution is 25 sec. Movie S3 Movie S3 Representative Z-projected and registered live imaging of E-cad-GFP during border cell migration. From Figure 3M-N. Time resolution is 60 sec. Movie S4 Movie S4 Representative Z-projection of control flpout cells from hs-Flp;, Slbo>Lifeact-GFP; AyGal4, UAS-RFP. Clonal cells are marked by magenta nuclei (nls-RFP). Time resolution is 2.5 min. From Supp. Figure 3 A-D. Movie S5 Movie S5 Representative Z-projection of Sqh-RNAi flpout cells from hs-Flp;, Slbo>Lifeact-GFP; AyGal4, UAS-RFP, UAS-sqh-RNAi. Clonal cells are marked by magenta nuclei (nls-RFP). Time resolution is 2.5 min. From Supp. Figure 3 E-H. Movie S6 Movie S6 Representative Z-projected c306-Gal4; tub-GAL80ts driving UAS-Lifeact-GFP and UAS-white RNAi. Time resolution is 2 min. From Supp. Figure 4 A-D. Movie S7 Movie S7 Representative Z-projected c306-Gal4; tub-GAL80ts driving UAS-Lifeact-GFP and UAS-sqh-RNAi showing frequent side protrusions. Time resolution is 2 min. From Supp. Figure 4 E-H. White arrows indicate ectopic side and rear protrusions. Movie S8 Movie S8 Representative Z-projected c306-Gal4; tub-GAL80ts driving UAS-Lifeact-GFP and UAS-sqh-RNAi showing long lived side protrusions. Time resolution is 2 min. From Supp. Figure 4 I-L. Movie S9 Movie S9 Representative Z-projected live imaging of c306-Gal4 driving UAS-white-RNAi in clusters co-expressing Lifeact-GFP under the control of the slbo enhancer and Sqh-mCherry from its endogenous promoter during periods of protrusive and round migration phases. From Figure 6A-D. 25 min corresponds to 6A and B and 1hr:25 min corresponds to 6C and D. Time resolution is 2.5 min. Movie S10 Movie S10 Sqh-mCherry (magenta) channel from Supplementary Movie 9. From Figure 6A-D. 25 min corresponds to 6A and B and 1hr:25 min corresponds to 6C and D. Time resolution is 2.5 min. Movie S11 Movie S11 Representative Z-projected live imaging of c306-Gal4 driving UAS-Ecad-RNAi in clusters co-expressing Lifeact-GFP under the control of the slbo enhancer and Sqh-mCherry from its endogenous promoter during a protrusive phase of migration. From Figure 6E-F. Time resolution is 2.5 min. Movie S12 Movie S12 Sqh-mCherry (magenta) channel from Supplementary Movie 11. From Figure 6E-F. Time resolution is 2.5 min. Movie S13 Movie S13 Representative Z-projected live imaging of c306-Gal4 driving UAS-Ecad-RNAi in clusters co-expressing Lifeact-GFP under the control of the slbo enhancer and Sqh-mCherry from its endogenous promoter during a rounded phase of migration. From Figure 6G-H. Time resolution is 2.5 min. Movie S14 Movie S14 Sqh-mCherry (magenta) channel from Supplementary Movie 13. From Figure 6G-H. Time resolution is 2.5 min. Movie S15 Movie S15 Example segmentation analysis from a representative Z-projected time lapse of a cluster expressing c306-Gal4 driving UAS-white-RNAi in clusters co-expressing Lifeact-GFP under the control of the slbo enhancer and Sqh-mCherry from its endogenous promoter during migration. Time lapse analyzed in Imaris by 1. segmentation of the cluster using Lifeact-GFP, 2. Rendering of Sqh-mCherry by masking the inside of the Life-act surface, 3. performing a distance transformation using the masked Sqh-mCherry that is color coded for distance from membrane (dark colors are short distances and bright/white colors are more distant), 4. combining the distance transformation with the Sqh-mCherry mask to only include the cortical 2 μm of the original Sqh-mCherry signal for quantification in Figure 6I. Movie S16 Movie S16 Representative Z-projected time lapse of Lifeact-GFP and Sqh-mCherry expressing clusters used for quantification of Figure 7B-C during protrusion/retractions cycles. Time resolution is 2 min. Movie S17 Movie S17 Sqh-mCherry channel from Supplementary movie 16. Time resolution is 2 min. Movie S18 Movie S18 Representative Z-projections of Lifeact-GFP (green) in c306-Gal4; tub-GAL80ts driving UAS-Lifeact-GFP and UAS-Sqh-E20E21 migrating border cells clusters that split. Time resolution is 2 min. Movie S19 Movie S19 Representative Z-projections of Lifeact-GFP (green) in c306-Gal4; tub-GAL80ts driving UAS-LifeactGFP and UAS-Sqh-E20E21 migrating border cells clusters during protrusive phase. Time resolution is 2 min. Movie S20 Movie S20 Representative Z-projection of Lifeact-GFP (green) in c306-Gal4; tub-GAL80ts driving UAS-Lifeact-GFP and UAS-Sqh-E20E21 border cells cluster at the oocyte border during a blebbing phase. Time resolution is 2 min. Movie S21 Movie S21 Representative Z-projection of control cluster expressing slbo-Gal4; UAS-PLCδ1-PH-GFP. Time resolution is 2 min. Movie S22 Movie S22 Representative Z-projection of cluster expressing slbo-Gal4; UAS-PLCδ1-PH-GFP, UAS-Rho1V14. Blebs are marked by white arrows. Time resolution is 2 min.
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