0000000000750098
AUTHOR
Andrea Palamidessi
Tissue fluidification promotes a cGAS-STING cytosolic DNA response in invasive breast cancer.
: The process in which locally confined epithelial malignancies progressively evolve into invasive cancers is often promoted by unjamming, a phase transition from a solid-like to a liquid-like state, which occurs in various tissues. Whether this tissue-level mechanical transition impacts phenotypes during carcinoma progression remains unclear. Here we report that the large fluctuations in cell density that accompany unjamming result in repeated mechanical deformations of cells and nuclei. This triggers a cellular mechano-protective mechanism involving an increase in nuclear size and rigidity, heterochromatin redistribution and remodelling of the perinuclear actin architecture into actin rin…
Compromised nuclear envelope integrity drives TREX1-dependent DNA damage and tumor cell invasion
Although mutations leading to a compromised nuclear envelope cause diseases such as muscular dystrophies or accelerated aging, the consequences of mechanically induced nuclear envelope ruptures are less known. Here, we show that nuclear envelope ruptures induce DNA damage that promotes senescence in non-transformed cells and induces an invasive phenotype in human breast cancer cells. We find that the endoplasmic reticulum (ER)-associated exonuclease TREX1 translocates into the nucleus after nuclear envelope rupture and is required to induce DNA damage. Inside the mammary duct, cellular crowding leads to nuclear envelope ruptures that generate TREX1-dependent DNA damage, thereby driving the …
Unjamming overcomes kinetic and proliferation arrest in terminally differentiated cells and promotes collective motility of carcinoma
Under homeostatic conditions, mature epithelia are locked in a kinetically-silent, jammed state. During wound repair or branching morphogenesis epithelia must unjam and acquire liquid-like properties. These events might be recapitulated in the transition from in situ to invasive cancer stages. How cells control this transition and how biologically relevant it is, however, remains unclear. Recently, we showed that altering RAB5A levels, a master regulator of endosomal trafficking, is sufficient to re-awaken motility in jammed epithelia, through ill-defined, endocytic-sensitive biochemical pathways. Here, we show that RAB5A promotes non-clathrin-dependent internalization of epidermal growth f…
Unjamming overcomes kinetic and proliferation arrest in terminally differentiated cells and promotes collective motility of carcinoma.
During wound repair, branching morphogenesis and carcinoma dissemination, cellular rearrangements are fostered by a solid-to-liquid transition, known as unjamming. The biomolecular machinery behind unjamming and its pathophysiological relevance remain, however, unclear. Here, we study unjamming in a variety of normal and tumorigenic epithelial two-dimensional (2D) and 3D collectives. Biologically, the increased level of the small GTPase RAB5A sparks unjamming by promoting non-clathrin-dependent internalization of epidermal growth factor receptor that leads to hyperactivation of the kinase ERK1/2 and phosphorylation of the actin nucleator WAVE2. This cascade triggers collective motility effe…