Abstract
SUMMARYIntegrins are heterodimeric cell surface receptors composed of an α and β subunit that mediate cell adhesion to extracellular matrix proteins such as fibronectin. We previously studied integrin α5β1 activation during zebrafish somitogenesis, and in the present study, we characterize the integrin αV fibronectin receptors. Integrins are activated via a conformational change, and we perform single-molecule biophysical measurements of both integrin activation via fluorescence resonance energy transfer (FRET)-fluorescence lifetime imaging microscopy (FLIM) and integrin intra-heterodimer stability via fluorescence cross-correlation spectroscopy (FCCS) in living embryos. We find that integrin heterodimers that exhibit robust cell surface expression, including αVβ3, αVβ5, and αVβ6, are never activated in this in vivo context, even in the presence of fibronectin matrix. In contrast, activatable integrins, such as integrin αVβ1, and alleles of αVβ3, αVβ5, αVβ6 that are biased to the active conformation exhibit poor cell surface expression and have a higher intra-heterodimer dissociation constant (KD). These observations suggest that a weak integrin intra-heterodimer affinity decreases integrin cell surface stability and increases integrin activatability.
Highlights
Integrins are a major class of adhesion receptors with mammals having 18 a subunits and 8 b subunits that form 24 different integrin heterodimers (Hynes, 2002)
We find that activatable integrins display poor cell membrane stability, and fluorescence cross-correlation spectroscopy (FCCS) reveals that these integrins have a lower intra-heterodimer affinity
We first compared integrin a5 and aV clustering during fibronectin matrix assembly on somite boundaries in live zebrafish embryos expressing red fluorescent protein-tagged a5 (a5-RFP) and green fluorescent protein-tagged aV
Summary
Integrins are a major class of adhesion receptors with mammals having 18 a subunits and 8 b subunits that form 24 different integrin heterodimers (Hynes, 2002). Integrins a5b1 and aVb3 bind the extracellular matrix (ECM) protein fibronectin (FN) by recognizing the Arg-Gly-Asp (RGD) motif (Hynes, 2002; Schwarzbauer and DeSimone, 2011). In mechano-transduction, a5b1 responds in a biphasic manner to mechanical load due to its catch bond with fibronectin, but aV-class integrins do not exhibit this behavior (Strohmeyer et al, 2017). Most of these studies were performed in cell culture, whereas little is known about molecular dynamics of integrins in vivo
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