Biological function of laminin-5 and pathogenic impact of its deficiency

Author: Schneider, H.; Muhle, C.; Pacho, F.

Description: The basement membrane glycoprotein laminin-5 is a key component of the anchoring complex connecting keratinocytes to the underlying dermis. It is secreted by keratinocytes as a cross-shaped heterotrimer of alpha3, beta3 and gamma2 chains and serves as a ligand of various transmembrane receptors, thereby regulating keratinocyte adhesion, motility and proliferation. In intact skin, laminin-5 provides essential links to both the hemidesmosomal alpha6beta4 integrin and the collagen type VII molecules which form the anchoring fibrils inserting into the dermis. If the basement membrane is injured, laminin-5 production increases rapidly. It then serves as a scaffold for cell migration, initiates the formation of hemidesmosomes and accelerates basement membrane restoration at the dermal-epidermal junction. Mutations of the laminin-5 genes or auto-antibodies against one of the subunits of laminin-5 may lead to a significant lack of this molecule in the epidermal basement membrane zone. The major contributions of laminin-5 to the resistance of the epidermis against frictional stress but also for basement membrane regeneration and repair of damaged skin are reflected by the phenotype of Herlitz junctional epidermolysis bullosa, which is caused by an inherited absence of functional laminin-5. This lethal disease becomes manifest in widespread blistering of skin and mucous membranes, impaired wound healing and chronic erosions containing exuberant granulation tissue. Here, we discuss current understanding of the biological functions of laminin-5, the pathogenic impact of its deficiency and implications on molecular approaches towards a therapy of junctional epidermolysis bullosa.

Subject headings: Animals; Basement Membrane/pathology; Cell Adhesion Molecules/chemistry/deficiency/genetics/metabolism; Cell Movement; Child; Child, Preschool; Epidermolysis Bullosa, Junctional/pathology; Female; Genotype; Humans; Keratinocytes/pathology; Mice; Mutation/genetics; Phenotype; Wound Healing

Publication year: 2007

Journal or book title: European Journal of Cell Biology

Volume: 86

Issue: 11-12

Pages: 701-717

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Type: Journal Article

Serial number: 107