Impact of cell shapes on cell behaviour and fate

ERC (European Research Council)HORIZON-ERC-SYGID: 101071470
EC Contribution
€108,348
Consortium Size
7 orgs
Start Year
2023
Summary

Cells are often depicted as irregular spherical objects - the shape they adopt in suspension. However, the packed environment of tissues alters this simple shape, causing large cell deformations. This occurs during normal tissue growth and is even more pronounced upon tissue overgrowth, as in the case of solid tumors. Cell shape changes frequently occur in migratory cells, such as immune cells that patrol the organism within interstitial tissues, and cancer metastases that escape from the primary tumor to invade healthy tissues. In all cases, cells adapt and survive even to very large deformations. The mechanisms underlying such response and the long-term consequences that repeated cell shape changes have on physiology and pathology remain largely unknown. We have observed that changes in the shape of cells and organelle(s) induce reversible and irreversible modifications in their behaviour and function(s). We hypothesize that cells use such mechanisms to integrate the successive deformations of distinct amplitudes and durations that they experience during their lifetime. This implies the existence of “shape-induced memory effects” that not only encode the geometrical and mechanical history of the cell but also dictate its fate. Here, we propose to tackle the molecular mechanisms and physical principles accounting for shape-induced memory effects and to evaluate their impact on immunity and cancer. We will focus on two cell types that undergo large shape changes in vivo, and communicate to establish cancer immunity: (1) dendritic cells, which initiate adaptive immune responses, and (2) cancer cells derived from mammary epithelia. Our project will reveal whether boundary conditions imposed by physical confinement are overarching determinants of cellular behaviours at different spatial and temporal scales, and may further establish novel clinical paths for a holistic understanding of early malignancies and their recognition by the immune system.

Consortium (7)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (7)
A tripartite organelle platform links growth factor receptor signaling to mitochondrial metabolism
Nature Communications· 2024DOI
Mesa D, Barbieri E, Raimondi A, Freddi S, Miloro G, Jendrisek G, Caldieri G, Quarto M, Schiano Lomoriello I, Malabarba MG, Bresci A, Manetti F, Vernuccio F, Abdo H, Scita G, Lanzetti L, Polli D, Tacchetti C, Pinton P, Bonora M, Di Fiore PP, Sigismund S.
Cell shape sensing licenses dendritic cells for homeostatic migration to lymph nodes
Nature Immunology· 2024DOI
Alraies Z, Rivera CA, Delgado MG, Sanséau D, Maurin M, Amadio R, Maria Piperno G, Dunsmore G, Yatim A, Lacerda Mariano L, Kniazeva A, Calmettes V, Sáez PJ, Williart A, Popard H, Gratia M, Lamiable O, Moreau A, Fusilier Z, Crestey L, Albaud B, Legoix P, De
Mapping functional to morphological variation reveals the basis of regional extracellular matrix subversion and nerve invasion in pancreatic cancer
Cancer Cell· 2024DOI
Di Chiaro P, Nacci L, Arco F, Brandini S, Polletti S, Palamidessi A, Donati B, Soriani C, Gualdrini F, Frigè G, Mazzarella L, Ciarrocchi A, Zerbi A, Spaggiari P, Scita G, Rodighiero S, Barozzi I, Diaferia GR, Natoli G.
Novel selective inhibitors of macropinocytosis-dependent growth in pancreatic ductal carcinoma
Biomedicine and Pharmacotherapy· 2024DOI
Brambillasca S, Cera MR, Andronache A, Dey SK, Fagá G, Fancelli D, Frittoli E, Pasi M, Robusto M, Varasi M, Scita G, Mercurio C.
Rigidity percolation and active advection synergize in the actomyosin cortex to drive amoeboid cell motility
Developmental Cell· 2024DOI
Juan Manuel García-Arcos, Johannes Ziegler, Silvia Grigolon, Loïc Reymond, Gaurav Shajepal, Cédric J. Cattin, Alexis Lomakin, Daniel J. Müller, Verena Ruprecht, Stefan Wieser, Raphael Voituriez, Matthieu Piel
A planar polarized MYO6-DOCK7-RAC1 axis promotes tissue fluidification in mammary epithelia
Cell Reports· 2023DOI
Menin L, Weber J, Villa S, Martini E, Maspero E, Niño CA, Cancila V, Poli A, Maiuri P, Palamidessi A, Frittoli E, Bianchi F, Tripodo C, Walters KJ, Giavazzi F, Scita G, Polo S.
Tissue fluidification promotes a cGAS-STING cytosolic DNA response in invasive breast cancer.
Nature Materials· 2023DOI
Frittoli E, Palamidessi A, Iannelli F, Zanardi F, Villa S, Barzaghi L, Abdo H, Cancila V, Beznoussenko GV, Della Chiara G, Pagani M, Malinverno C, Bhattacharya D, Pisati F, Yu W, Galimberti V, Bonizzi G, Martini E, Mironov AA, Gioia U, Ascione F, Li Q, Ha
Deliverables (1)
Data Management Plan
Other Results (1)
Periodic Reporting for period 1 - SHAPINCELLFATE (Impact of cell shapes on cell behaviour and fate)