2004AOm graderingen →

Integrins i mechanotransduction

Akira Katsumi, A Wayne Orr, Eleni Tzima, Martin Alexander Schwartz

Öppna original ↗Läs hela studien (PDF) ↗

Nyckelinsikter

01Mekaniska krafter påverkar cellens form, tillväxt och överlevnad
02Integriner är nyckelproteiner som känner av dessa fysiska krafter
03De översätter mekaniska signaler till biokemiska svar
04Processen är central för vävnaders hälsa och funktion

Integriner är nyckelproteiner som låter celler känna av och svara på mekaniska krafter som tryck och sträckning i sin omgivning.

Abstract

Mechanical forces are crucial to the regulation of which then induce the formation of lamellipodia and filopodia, cell and tissue morphology and function. At the cellurespectively, and progression of early adhesions into FC (14). Tranlar level, forces influence cytoskeletal organization, sition from early adhesions to FC is marked by the recruitment of gene expression, proliferation, and survival. Integrin- paxillin, phosphoproteins, and vinculin (12, 15). Vinculin levels mediated adhesions are intrinsically mechanosensi within adhesions correlate linearly with tractional force (16). FC tive and a large body of data implicates integrins in sensing mechanical forces. We review the relationship between integrins and mechanical forces, the role of inte- grins in cellular responses to stretch and fluid flow, and propose that some of these events are mechanistically related.

Citera denna studie

APA: Akira Katsumi, A Wayne Orr, Eleni Tzima, & Martin Alexander Schwartz (2004). Integrins i mechanotransduction. https://fasciaresearchdatabase.com/integrins-in-mechanotransduction/
MLA: Akira Katsumi, et al. "Integrins i mechanotransduction." 2004, https://fasciaresearchdatabase.com/integrins-in-mechanotransduction/.
Chicago: Akira Katsumi et al. 2004. "Integrins i mechanotransduction.". https://fasciaresearchdatabase.com/integrins-in-mechanotransduction/

Mer om ämnet

Forskning

Poddavsnitt