Abstract
Kindler syndrome (KS) is an autosomal recessive blistering skin disease resulting from pathogenic mutations in FERMT1. This gene encodes kindlin-1, a focal adhesion protein involved in activation of the integrin family of extracellular matrix receptors. Most cases of KS show a marked reduction or complete absence of the kindlin-1 protein in keratinocytes, resulting in defective cell adhesion and migration. Electric fields also act as intrinsic regulators of adhesion and migration in the skin, but the molecular mechanisms by which this occurs are poorly understood. Here we show that keratinocytes derived from KS patients are unable to undergo electrotaxis, and this defect is restored by overexpression of wild-type kindlin-1 but not a W612A mutation that prevents kindlin-integrin binding. Moreover, deletion of the pleckstrin homology domain of kindlin-1 also failed to rescue electrotaxis in KS cells, indicating that both integrin and lipid binding are required for this function. Kindlin-1 was also required for the maintenance of lamellipodial protrusions during electrotaxis via electric field-activated β1 integrin. Indeed, inhibition of β1 integrins also leads to loss of electrotaxis in keratinocytes. Our data suggest that loss of kindlin-1 function may therefore result in epithelial insensitivity to electric fields and contribute to KS disease pathology.
Highlights
Kindlin-1 is predominantly expressed in epithelial tissues such as skin and intestine
To determine whether kindlin-1 was involved in response to electric field (EF), a physiological EF range of 0e200 mV/mm were used to examine the abnormalities of Kindler syndrome (KS) keratinocytes compared with normal human keratinocytes (NHK)
We report that KS cells are defective in EF-mediated directional migration because of loss of function of kindlin-1
Summary
Kindlin-1 is predominantly expressed in epithelial tissues such as skin and intestine. Loss-of-function mutations in kindlin-1 causes Kindler syndrome (KS), which is characterized by skin blistering, fragility, and photosensitivity (Jobard et al, 2003; Kindler, 1954; Siegel et al, 2003). Keratinocytes from KS patients show defects in cell migration, adhesion, and proliferation (Has et al, 2009, 2015; Lai-Cheong et al, 2009). KS keratinocytes show loss of polarized migration because of reduced cell adhesion and as a result of kindlin-1 dysfunction (Herz et al, 2006). B1 integrins are the predominant receptor in Abbreviations: EF, electric field; KS, Kindler syndrome; KS_MT, kindlin1emCherryW612A point mutation; KS_WT, Kindler syndrome cells infected with wild-type kindlin-1emCherry; NHK, normal human keratinocyte; PH, pleckstrin homology; PI(3)K, phosphoinositide 3-kinase; PTEN, phosphatase and tensin homolog The integrin family mediates cell adhesion to the underlying basement membrane that is critical for skin integrity. b1 integrins are the predominant receptor in Abbreviations: EF, electric field; KS, Kindler syndrome; KS_MT, kindlin1emCherryW612A point mutation; KS_WT, Kindler syndrome cells infected with wild-type kindlin-1emCherry; NHK, normal human keratinocyte; PH, pleckstrin homology; PI(3)K, phosphoinositide 3-kinase; PTEN, phosphatase and tensin homolog
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