Burcklé, Céline Raitière, Juliette Michaux, Grégoire Kodjabachian, Laurent Le Bivic, André
Published in
Journal of cell science
Cell shape changes mainly rely on the remodeling of the actin cytoskeleton. Multiciliated cells (MCCs) of the mucociliary epidermis of Xenopus laevis embryos, as they mature, dramatically reshape their apical domain to grow cilia, in coordination with the underlying actin cytoskeleton. Crumbs (Crb) proteins are multifaceted transmembrane apical pol...
Urazaev, Albert K Wang, Lei Bai, Yunfeng Adissu, Hibret A Lelièvre, Sophie A
Published in
Journal of cell science
The membrane potential (MP) controls cell homeostasis by directing molecule transport and gene expression. How the MP is set upon epithelial differentiation is unknown. Given that tissue architecture also controls homeostasis, we investigated the relationship between basoapical polarity and resting MP in three-dimensional culture of the HMT-3522 br...
Williams, Audrey Miller Horne-Badovinac, Sally
Published in
Journal of cell science
Migrating epithelial cells globally align their migration machinery to achieve tissue-level movement. Biochemical signaling across leading-trailing cell-cell interfaces can promote this alignment by partitioning migratory behaviors like protrusion and retraction to opposite sides of the interface. However, how signaling proteins become organized at...
Penkert, Rhiannon R LaFoya, Bryce Moholt-Siebert, Lucille Vargas, Elizabeth Welch, Sarah E Prehoda, Kenneth E
Published in
Journal of cell science
Drosophila neural stem cells, or neuroblasts, rapidly proliferate during embryonic and larval development to populate the central nervous system. Neuroblasts divide asymmetrically to create cellular diversity, with each division producing one sibling cell that retains the neuroblast fate and another that differentiates into glia or neurons. This as...
Flinois, Arielle Méan, Isabelle Mutero-Maeda, Annick Guillemot, Laurent Citi, Sandra
Published in
Journal of cell science
Paracingulin (CGNL1) is recruited to tight junctions (TJs) by ZO-1 and to adherens junctions (AJs) by PLEKHA7. PLEKHA7 has been reported to bind to the microtubule minus-end-binding protein CAMSAP3, to tether microtubules to the AJs. Here, we show that knockout (KO) of CGNL1, but not of PLEKHA7, results in the loss of junctional CAMSAP3 and its red...
Mishra, Saket V Banerjee, Archisman Sarkar, Debashmita Thangarathnam, Vishnuvarthan Bagal, Bhausaheb Hasan, Syed K Dutt, Shilpee
Published in
Journal of cell science
Anthracyclines, topoisomerase II enzyme poisons that cause DNA damage, are the mainstay of acute myeloid leukemia (AML) treatment. However, acquired resistance to anthracyclines leads to relapse, which currently lacks effective treatment and is the cause of poor survival in individuals with AML. Therefore, the identification of the mechanisms under...
Xu, Xin Qiu, Lifen Zhang, Maoxiang Wu, Guangyu
Published in
Journal of cell science
G protein-coupled receptors (GPCRs) constitute the largest superfamily of cell surface signaling proteins that share a common structural topology. When compared with agonist-induced internalization, how GPCRs are sorted and delivered to functional destinations after synthesis in the endoplasmic reticulum (ER) is much less well understood. Here, we ...
Bazzoni, Gianfranco Tonetti, Paolo Manzi, Luca Cera, Maria R Balconi, Giovanna Dejana, Elisabetta
Published in
Journal of cell science
Das, Poulomi Mekonnen, Betlehem Alkhofash, Rama Ingle, Abha V Workman, E Blair Feather, Alec Zhang, Gui Chasen, Nathan Liu, Peiwei Lechtreck, Karl F
...
Published in
Journal of cell science
In Chlamydomonas, the channel PKD2 is primarily present in the distal region of cilia, where it is attached to the axoneme and mastigonemes, extracellular polymers of MST1. In a smaller, proximal ciliary region, PKD2 is more mobile and lacks mastigonemes. We show that the PKD2 regions are established early during ciliogenesis and increase proportio...
Otsubo, Yoko Yamashita, Akira Goto, Yuhei Sakai, Keiichiro Iida, Tetsushi Yoshimura, Shinji Johzuka, Katsuki
Published in
Journal of cell science
The stress response is one of the most fundamental cellular processes. Although the molecular mechanisms underlying responses to a single stressor have been extensively studied, cellular responses to multiple stresses remain largely unknown. Here, we characterized fission yeast cellular responses to a novel stress inducer, non-thermal atmospheric-p...