Cellspänning, matrixmekanik och cancerutveckling
- 01Tumörer är fysiskt stelare än frisk vävnad
- 02Denna stelhet kan aktivera cancerfrämjande signaler
- 03Celler drar i sin omgivning och kan öka stelheten
- 04Detta kan skapa en mekanisk återkopplingsloop för cancertillväxt
Ökad vävnadsstelhet kan skapa en återkopplingsloop som främjar cancertillväxt och ytterligare förstyvning av vävnaden.
Oncologists often diagnose cancer based on a change of tissue stiffness sensed by palpation, yet cancer researchers generally focus on biochemical signaling mechanisms. Tumors are more rigid because they have a stiffer extracellular matrix. A new study shows that this alteration of matrix mechanics activates integrins, which not only promotes mitogenic signaling through Erk but also cell contractility through Rho, which can further increase matrix stiffness. This establishes a positive feedback loop that switches on the malignant phenotype in mammary epithelial cells. This mechanical "autocrine loop" brings solid-state mechanotransduction on a par with oncogenic signaling pathways in malignant transformation.
- APA
- Sui Huang, & Donald E Ingber (2005). Cellspänning, matrixmekanik och cancerutveckling. https://fasciaresearchdatabase.com/cell-tension-matrix-mechanics-and-cancer-development/
- MLA
- Sui Huang, and Donald E Ingber. "Cellspänning, matrixmekanik och cancerutveckling." 2005, https://fasciaresearchdatabase.com/cell-tension-matrix-mechanics-and-cancer-development/.
- Chicago
- Sui Huang, Donald E Ingber. 2005. "Cellspänning, matrixmekanik och cancerutveckling.". https://fasciaresearchdatabase.com/cell-tension-matrix-mechanics-and-cancer-development/