Decipher the dynamic coordination between enzymatic activity and structural modulation at focal adhesions in living cells

Authors
Lu, ShaoyingSeong, JihyeWang, YiChang, Shiou-chiEichorst, John PaulOuyang, MingxingLi, Julie Y. -S.Chien, ShuWang, Yingxiao
Issue Date
2014-07-24
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.4
Abstract
Focal adhesions (FAs) are dynamic subcellular structures crucial for cell adhesion, migration and differentiation. It remains an enigma how enzymatic activities in these local complexes regulate their structural remodeling in live cells. Utilizing biosensors based on fluorescence resonance energy transfer (FRET), we developed a correlative FRET imaging microscopy (CFIM) approach to quantitatively analyze the subcellular coordination between the enzymatic Src activation and the structural FA disassembly. CFIM reveals that the Src kinase activity only within the microdomain of lipid rafts at the plasma membrane is coupled with FA dynamics. FA disassembly at cell periphery was linearly dependent on this raft-localized Src activity, although cells displayed heterogeneous levels of response to stimulation. Within lipid rafts, the time delay between Src activation and FA disassembly was 1.2 min in cells seeded on low fibronectin concentration ([FN]) and 4.3 min in cells on high [FN]. CFIM further showed that the level of Src-FA coupling, as well as the time delay, was regulated by cell-matrix interactions, as a tight enzyme-structure coupling occurred in FA populations mediated by integrin alpha(v)beta(3), but not in those by integrin alpha(5)beta(1). Therefore, different FA subpopulations have distinctive regulation mechanisms between their local kinase activity and structural FA dynamics.
Keywords
SRC FAMILY KINASES; CANCER-CELLS; INTEGRIN; MIGRATION; ACTIVATION; MEMBRANE; RHO; TURNOVER; MATRIX; ACTIN; SRC FAMILY KINASES; CANCER-CELLS; INTEGRIN; MIGRATION; ACTIVATION; MEMBRANE; RHO; TURNOVER; MATRIX; ACTIN
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/126578
DOI
10.1038/srep05756
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KIST Article > 2014
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