2016
DOI: 10.1016/j.yexcr.2015.10.025
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Mechanosensitivity of integrin adhesion complexes: role of the consensus adhesome

Abstract: Cell and tissue stiffness have been known to contribute to both developmental and pathological signalling for some time, but the underlying mechanisms remain elusive. Integrins and their associated adhesion signalling complexes (IACs), which form a nexus between the cell cytoskeleton and the extracellular matrix, act as a key force sensing and transducing unit in cells. Accordingly, there has been much interest in obtaining a systems-level understanding of IAC composition. Proteomic approaches have revealed th… Show more

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Cited by 83 publications
(69 citation statements)
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References 93 publications
(124 reference statements)
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“…Additional analyses such as these might reveal not only context-specific adhesome components but also the number of consensus adhesome components that are conserved between integrin adhesions in different systems. The role of the consensus adhesome in relation to mechanosensation was recently reviewed, and its components were shown to change almost uniformly upon loss of myosin-driven intracellular force (Horton et al, 2016b). Thus, data generated under alternative conditions, such as using differing ECMs, might present a completely different view of the adhesion nexus or consensus adhesome, or increase the number of literature-curated adhesome components identified using mass-spectrometry-based approaches.…”
Section: Summary and Future Perspectivesmentioning
confidence: 99%
“…Additional analyses such as these might reveal not only context-specific adhesome components but also the number of consensus adhesome components that are conserved between integrin adhesions in different systems. The role of the consensus adhesome in relation to mechanosensation was recently reviewed, and its components were shown to change almost uniformly upon loss of myosin-driven intracellular force (Horton et al, 2016b). Thus, data generated under alternative conditions, such as using differing ECMs, might present a completely different view of the adhesion nexus or consensus adhesome, or increase the number of literature-curated adhesome components identified using mass-spectrometry-based approaches.…”
Section: Summary and Future Perspectivesmentioning
confidence: 99%
“…Cell shape is determined by the complex interaction between cytoskeletal components that regulate the cellular internal structure and the mechanical integration of the cell with the extracellular matrix [12][13][14] . According to the tensional integrity theory, cell shape is maintained through a balance of forces generated by actomyosin filaments and withstood by microtubules, which act like rigid support struts for cells 15) .…”
Section: Introductionmentioning
confidence: 99%
“…Proteomics experiments have identified many proteins, including a number with LIM domains, that are preferentially incorporated into more mature adhesions under myosin II-generated tension [15••, 17, 18], so increasing the repertoire of likely proteins involved in mechanotransduction [45, 46]. Particular integrins (for example, α5β1 and αV) selectively recruit proteins that mediate differential responses to force, indicating that receptor-specific and multiple modes of rigidity sensing exist [20].…”
Section: Adhesion Signalling Close To Integrins: Mechanosensing the Mmentioning
confidence: 99%