<![CDATA[Tension at intercellular junctions is necessary for accurate orientation of cell division in the epithelium plane]]>

2026-04-13T08:22:07Z https://api.figshare.com/v2/oai

oai:figshare.com:article/16930864 2022-11-24T13:51:55Z category_24421 category_24715 portal_549 item_type_3 month_year_11_2022

10.5522/04/16930864.v1 https://figshare.com/articles/dataset/Tension_at_intercellular_junctions_is_necessary_for_accurate_orientation_of_cell_division_in_the_epithelium_plane/16930864 https://ndownloader.figshare.com/files/38311863 https://ndownloader.figshare.com/files/38312361 Charras, Guillaume Guillaume Charras Lisica, Ana Ana Lisica Fouchard, Jonathan Jonathan Fouchard Duque Lloredo, Julia Julia Duque Lloredo Kelkar, Manasi Manasi Kelkar Baum, Buzz Buzz Baum <![CDATA[Tension at intercellular junctions is necessary for accurate orientation of cell division in the epithelium plane]]> Animal physiology - biophysics Human biophysics Spindle orientation Tissue tension epithelia Biophysics 2022-11-24 2022-11-24 Dataset 2022 University College London

In growing epithelia, divisions are typically oriented in the epithelial plane to drive tissue expansion. In some organs, divisions are then re-oriented so that they occur perpendicular to the epithelium plane to drive tissue stratification and cell differentiation. When uncontrolled, this switch in orientation can lead to defects in tissue organisation and, in the context of cancer, has been suggested to contribute to metastasis. While much is known about the molecular machinery guiding mitotic spindle orientation, less is known about the role of mechanical factors in this process. Here, we use mechanical and chemical perturbations to show that mechanics plays a role in controlling the plane of division. Overall, our data suggest that the orientation of spindles in the epithelium plane requires a threshold level of mechanical tension at intercellular junctions.

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