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Extended applications of electric cell-substrate impedance sensing for assessment of the structure–function of α2β1 integrin

Electric cell-substrate impedance sensing (ECIS) was applied to assess the structure–function of α2β1 integrin, receptor for collagen and laminin. On collagen-coated gold electrodes, expression of this integrin on human rhabdomyosarcoma (RD) cells (RDX2C2) yielded a five-fold increase in resistance...

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Bibliographic Details
Published in:Analytica chimica acta 2004, Vol.501 (1), p.61-69
Main Authors: Luong, John H.T, Xiao, Caide, Lachance, Bernard, Leabu, Š.Mircea, Li, Xiaolan, Uniyal, Shashi, Chan, Bosco M.C
Format: Article
Language:English
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Summary:Electric cell-substrate impedance sensing (ECIS) was applied to assess the structure–function of α2β1 integrin, receptor for collagen and laminin. On collagen-coated gold electrodes, expression of this integrin on human rhabdomyosarcoma (RD) cells (RDX2C2) yielded a five-fold increase in resistance when compared with mock transfected RD (RDpF) cells (34.5±5.2 versus 6.5±0.8 Ω/cell). An intermediate level of 16±2 Ω/cell was measured upon expression of an α2β1 mutant that lacked the α2 cytoplasmic domain (RDX2CO). On laminin, the resistance measured for RDX2C2 cells was also higher but only twice that of RDpF cells at 71±4 and 37±4 Ω/cell, respectively. In comparison, RDX2CO cells (38±4 Ω/cell), exhibiting no enhanced adhesive function, yielded a similar result to that of RDpF cells. On fibronectin, RDX2C2 and RDpF cells, exhibiting comparable levels of adhesion, were similar in resistance measurements at 85±5and 89±7 Ω/cell, respectively. It has been shown that deletion of α2 cytoplasmic domain results in dysregulated recruitment of the α2β1 mutant to focal adhesion complexes that mediate binding of fibronectin. RDX2CO cells on fibronectin, exhibiting reduced adhesive function, was associated with noticeably lower resistance (60±4 Ω/cell). Monitoring electroporation of the RD plasma membrane also indirectly validated cell attachment as reflected by the resistance measured. Results from this study demonstrated the potential of ECIS for study of the structure–function of βl integrin adhesion receptors.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2003.09.016