Huebner RJ and Wallingford JB (2022), Dishevelled controls bulk cadherin dynamics and...

XB-ART-59397

Mol Biol Cell 2022 Dec 01;3314:br26. doi: 10.1091/mbc.E22-06-0194.

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Dishevelled controls bulk cadherin dynamics and the stability of individual cadherin clusters during convergent extension.

Huebner RJ , Wallingford JB .

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Animals are shaped through the movement of large cellular collectives. Such morphogenetic processes require cadherin-based cell adhesion to maintain tissue cohesion and planar cell polarity to coordinate movement. Despite a vast literature surrounding cadherin-based adhesion and planar cell polarity, it is unclear how these molecular networks interface. Here we investigate the relationship between cadherins and planar cell polarity during gastrulation cell movements in Xenopus laevis. We first assessed bulk cadherin localization and found that cadherins were enriched at a specific subset of morphogenetically active cell-cell junctions. We then found that cadherin and actin had coupled temporal dynamics and that disruption of planar cell polarity uncoupled these dynamics. Next, using superresolution time-lapse microscopy and quantitative image analysis, we were able to measure the lifespan and size of individual cadherin clusters. Finally, we show that planar cell polarity not only controls the size of cadherin clusters but, more interestingly, regulates cluster stability. These results reveal an intriguing link between two essential cellular properties, adhesion and planar polarity, and provide insight into the molecular control of morphogenetic cell movements.

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Species referenced: Xenopus laevis
Genes referenced: cdh3 dvl1 dvl2
GO keywords: cadherin binding

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	FIGURE 1: Cdh3 is enriched at shortening v-junctions. (A) Schematic depicting the cell intercalation movements that drive convergent extension. (B) Image of Xenopus mesodermal cells immunostained for Cdh3 (green) and labeled for actin (magenta). (Bâ²) Zoomed image of a single v-junction from the inset in B. This image highlights that endogenous Cdh3 is present at v-junctions. (C) Plot showing endogenous Cdh3 intensity vs. cellâcell junction length at v-junctions. A Spearman correlation was used to assess the relationship between Cdh3 and junction length. (D) Plot of endogenous Cdh3 intensity vs. t-junction length. The relationships between intensity and junction length were compared using a Spearman correlation. (E) Frames from a time-lapse movie of a shortening v-junction labeled with Cdh3-GFP (green) and the actin marker lifeact-RFP (magenta). (F) Graph comparing mean Cdh3 intensity to v-junction length from time-lapse movies of actively shortening v-junctions. The relationship between Cdh3 intensity and v-junction length was assessed by Spearman correlation. (G) Comparison of Cdh3 intensity to t-junction length from time-lapse movies. Spearman correlation was used to assess the relationship between Cdh3 intensity and t-junction length. (H) Graph of the mean intensity at shortening v-junctions or at t-junctions. Intensities were collected from time-lapse movies and were normalized to account for bleaching. Conditions were statistically compared using a MannâWhitney test.
	FIGURE 2: PCP is required for synchronized cadherin and actin dynamics. (A) Frame from a time-lapse movie of intercalating cells labeled for Cdh3 in green and actin in magenta. (Aâ²) Time series of Cdh3 from the inset in A. Here we are highlighting a shortening v-junction and showing that Cdh3 undergoes oscillatory pulses at said junctions. (Aâ²â²) Time series of actin from the inset in A. In this time series there is an actin pulse that occurs concurrently with the Cdh3 pulse shown in Aâ². (B) Graph plotting Cdh3 and actin intensity over time at a shortening v-junction. Here we observe concurrent peaks of Cdh3 and actin. Intensities were normalized to account for bleaching and then standardized to emphasize the overlap in the two signals over time. (C) Heatmap of the cross-correlation analysis for 19 shortening v-junctions. Each line on the y-axis of this heatmap represents the cross-correlation for a single shortening v-junction. The value of the correlation is represented in color code with red being positive correlation and blue being negative correlation. The x-axis shows the lag time, and the fact that we observe a high positive correlation at lag time 0 indicates that Cdh3 and actin pulses occur concurrently. (D) Graph plotting Cdh3 and actin intensities at t-junctions. (E) Heatmap of the cross-correlation analysis for 19 t-junctions. (F) Graph of Cdh3 and actin over time measured at junctions where Xdd1 was present in the background. (G) Heatmap of the cross-correlation analysis for 19 junctions with Xdd1 in the background.
	FIGURE 3: Cadherin clusters display heterogeneous spatiotemporal dynamics during CE. (A) Still frame from a superresolution time-lapse movie of Cdh3. Three different regions of a single junction are highlighted; each region is the position where a cluster formed and dissipated. These regions were chosen to highlife the heterogeneity in cluster size and lifespan. (Aâ²) Frames from the time-lapse movie shown in A with a zoom on the inset labeled Aâ². These images show a small, short lifespan Cdh3 cluster. (Aâ²â²) Frames from the time-lapse movie shown in A with a zoom on the inset labeled Aâ²â². Images show a large cluster with an intermediate lifespan. (Aâ²â²â²) Frames from the time-lapse movie shown in A with a zoom on the inset labeled Aâ²â²â². Images show a particularly long-lived Cdh3 cluster. (B) Still frame from a time-lapse superresolution movie of Cdh3. Here the blue lines highlight the cell junction that was used to make the kymographs in Bâ²âBâ²â²â². (Bâ²) The raw kymograph of the cell junction highlighted in B. This kymograph shows Cdh3 over a 400 s time period beginning at the left side of the image. (Bâ²â²) Smoothed image of the kymograph shown in Bâ². This kymograph was smoothed along the time axis to connect the Cdh3 spots into uninterrupted clusters. (Bâ²â²â²) This image shows a thresholded version of the kymograph in Bâ²â². Here the kymograph was thresholded and converted to a binary image that allowed us to identify clusters as individual objects. Objects that touched the edges of the kymograph were removed so that we evaluated only complete clusters. The cluster lifespan was then determined as the cluster length, and the cluster size was determined by the width of each cluster. (C) Graph showing the number of clusters per junction for control and Cdh3-cis-mutant junctions. Each spot represents a single junction, and all junctions were measured over a 400 s time frame. Conditions were statistically compared using a MannâWhitney test. (D) Histogram displaying the size distribution of control and Cdh3-cis-mutant clusters. Conditions were statistically compared using a KolmogorovâSmirnov test. (E) Histogram displaying the Cdh3 cluster lifespan distribution for control and Cdh3-cis-mutant clusters. Conditions were statistically compared using a KolmogorovâSmirnov test. (F) Graph plotting Cdh3 cluster size vs. cluster lifespan from control embryos. Each dot represents a single cluster, and the relationship between size and lifespan was assessed with a Spearman correlation.
	FIGURE 4: PCP regulates cadherin cluster stability. (A) Still frame of cells labeled for Cdh3 in green with Xdd1 in the background. Blue lines highlight the junction shown in the kymograph in Aâ². (Aâ²) Kymograph of the cell junction highlighted in A. This kymograph has been smoothed, thresholded, and converted to objects. (B) Kymograph of a control cell junction for comparison to the Xdd1 junction. This kymograph has also been smoothed, thresholded, and converted to objects. (C) Graph of the number of Cdh3 clusters per junction for control, Cdh3-cis-mutant, and Xdd1. Each dot represents one junction over a 400 s measurement interval. Conditions were compared using an analysis of variance. (D) Histogram displaying the size distribution of control clusters and clusters with Xdd1 in the background. Conditions were statistically compared using a KolmogorovâSmirnov test. (E) Histogram displaying the cadherin cluster lifespan distribution of control and Xdd1 clusters. Conditions were statistically compared using a KolmogorovâSmirnov test.

References [+] :

Arslan, Holding it together: when cadherin meets cadherin. 2021, Pubmed