Tight junctions in the stratum corneum explain spatial differences in corneodesmosome degradation.

To maintain stratum corneum integrity while simultaneously desquamating at a steady rate, degradation of corneodesmosomes must proceed in a controlled manner. It is unknown why corneodesmosomes are present only at the cell periphery in the upper stratum corneum. To explore this, we studied distributions of three major corneodesmosomal components, corneodesmosin, desmoglein 1 and desmocollin 1 in normal adult human epidermis. Immunofluorescent microscopy studies of skin surface corneocytes detected all three components only at the cell edges. Immunoelectron microscopy revealed selective loss of these components at the central areas starting from the deep cornified layers. We hypothesized that tight junctions (TJs) formed in the superficial granular layer may prevent protease access by functioning as a barrier between the peripheral and the central intercellular spaces in the stratum corneum. Ultrastructural examination demonstrated TJs up to the junctions between the seventh and the eighth deepest cornified layers. Immunoelectron microscopy also detected clusters of occludin and claudin-1 immunolabels at the cell periphery, and kallikrein 7 immunolabels outside of TJs in the lower cornified layers. With colloidal lanthanum nitrate perfusion assay of stripped stratum corneum, the tracer was excluded from TJ domains. Taken together, we propose that TJs inhibit access of proteases to the peripheral corneodesmosomes forming the structural basis for the basket-weave-like appearance of the stratum corneum.