Cellular Pushing Forces during Mitosis Drive Mitotic Elongation in Biology Diagrams

Cellular Pushing Forces during Mitosis Drive Mitotic Elongation in Biology Diagrams Adhesion to the extracellular matrix persists during mitosis in most cell types. However, while classical adhesion complexes, such as focal adhesions, do and must disassemble to enable mitotic

Most adherent animal cells undergo drastic morphological changes upon entry into mitosis, beginning with the disassembly of cell adhesion to the extracellular matrix (ECM) and progressing with the The circuitry is relevant in whole organisms, as shown by the control exerted by the DEPDC1B/RhoA/PTPRF axis on mitotic dynamics during zebrafish development. Our results uncover an adhesion-dependent signaling mechanism that coordinates adhesion events with the control of cell-cycle progression. Keywords: adhesion, integrin, cell cycle, mitosis, G2 phase. 1. Integrins. Cell adhesion to the ECM is mainly mediated by the integrin family of receptors, which sense the chemical and mechanical properties of the extracellular microenvironment and generate responses regulating many cellular functions, including cell proliferation [1,2]. These

De-Adhesion for Mitotic Progression Biology Diagrams

Initial biochemical studies investigating the link between cell cycle and adhesion remodeling focused on mapping changes in phosphorylation of focal adhesion signaling layer proteins FAK, p130Cas and paxillin during mitosis [19,20]. How these changes were linked to cell cycle progression however was unclear. During mitosis, some interphase functions are retained, but the architecture of the cytoskeleton changes dramatically, and there is a need to generate a mitotic spindle for chromosome segregation. adhesion signalling and cell proliferation, particularly in the contexts of normal growth control and aberrant tumour progression. As the

Experimental manipulations that strengthened FAs increased cell spreading and inhibited the G2/M transition, whereas reducing adhesion rescued the mitotic delay in DEPDC1B-KD cells. DEPDC1B was not necessary for normal cell cycle progression in a strain of HeLa cells adapted to grow in suspension. Therefore, αVβ5-positive reticular adhesion complexes are essential for the normal progression of mitosis in cultured cells. 3. Future directions (a). Regulation of cell-cycle-dependent adhesion transitions. Having established a novel fundamental link between cell-cycle progression and cell-ECM adhesion, a number of questions are outstanding.