Recognition, Calcium and the Control of Desmosome Formation

Abstract

Since desmosome formation requires the participation of two adjacent cells, a crucial initiating event must be recognition between desmosomal adhesion molecules. Studies of mutual desmosome formation between different cell types suggest that the recognition mechanisms are highly conserved between different tissues and different species of animals. A further requirement for desmosome formation is an adequate extracellular concentration of Ca²⁺ (> 0.1 mM). Keratinocytes, MDCK cells and MDBK cells all show Ca²⁺-induced desmosome formation. The desmosomes of these cells also show variable stability to reduction in [Ca²⁺] and Ca²⁺ chelation. Desmosome formation at low [Ca²⁺] is triggered by tunicamycin in keratinocytes, suggesting that the carbohydrate moieties of desmosomal glycoproteins may be involved in the Ca²⁺ control mechanism. The desmosomal glycoproteins appear to bind Ca²⁺, while the desmosomal adhesion molecules known as desmocollins, like other Ca²⁺-dependent adhesion molecules, yield a soluble fragment on trypsinization in the presence of Ca²⁺. For desmocollins the soluble fragment has a relative molecular mass of 42000.