Investigating the Effects of IRF6 on Focal Adhesions in Keratinocytes.

Focal adhesions are one of the two main types of adhesions between cells and the extra-cellular matrix (ECM). Focal adhesions are dynamic complexes anchored to the actin cytoskeleton through intracellular adaptor proteins, and to the ECM through heterodimers of α and β integrins, forming a transmembrane link between the intra- and extra-cellular space. β-1 integrin is the primary β subunit found in keratinocytes, and its corresponding heterodimers show affinity for a wide range of ECM proteins including collagen, fibronectin, and laminin. Collagen is the main structural protein in cutaneous ECM (the dermis), while fibronectin is a glycoprotein found in the ECM that binds integrins and plays a crucial role in wound healing. Interferon regulatory factor 6 (IRF6) is a transcription factor expressed by epithelial cells that regulates keratinocyte differentiation, cell-cell adhesions, and migration. It is well known that focal adhesions are required for cell migration, however the role of IRF6 in regulating focal adhesions is unknown. Therefore, we hypothesize that IRF6 regulates focal adhesion formation. To determine if IRF6 levels affect attachment to the ECM, we seeded wildtype and IRF6 knockdown keratinocytes on collagen IV and plastic and quantified the number of cells attached to the plate after thirty and sixty minutes. No differences were found between wild-type and IRF6 knockdown keratinocytes on plastic. However, less IRF6 knockdown keratinocytes were attached on collagen IV compared to wildtypes. To explore how IRF6 affects focal adhesions, we plated IRF6 knockdown and wild-type keratinocytes on different types of ECM that were representative of both normal and wounded conditions of the dermis. Immunofluorescent staining for β-1 integrin and phalloidin was performed, followed by quantitative analysis of focal adhesion length and intensity. Initial observations indicate that IRF6 knockdown keratinocytes consistently have longer focal adhesions compared to the wildtype. Variations of β-1 fluorescent intensity was also observed in wild-type cells compared to IRF6 knockdown keratinocytes. These preliminary results suggest a role for IRF6 in regulating focal adhesions, providing a potential mechanism for the underlying defect observed in the migration of IRF6 deficient keratinocytes.