Cytochemical and biochemical localization of lipase and sphingomyelinase activity in mammalian epidermis.

Despite a wealth of new information on epidermal lipids and their role in permeability barrier function and desquamation, little is known about the location of the enzymes that regulate their catabolism. In this study we have localized lipase (triacylglycerol hydrolase) and sphingomyelinase in the outer epidermis simultaneously by cytochemical and cell fractionation techniques. Aldehyde-fixed tissues (100-microns slices) incubated in either Tween 85 or triolein plus taurocholate/calcium chloride-containing buffer, pH 7.2 or 4.5, were then exposed to lead to form insoluble soaps, and processed for electron microscopy. Simultaneously, cell homogenates and isolated lamellar body fractions were incubated with methylumbelliferyl oleate under similar conditions, with released, free methylumbelliferone serving as an index of lipase activity. On electron microscopy and cell fractionation, both lipase and sphingomyelinase were localized primarily to intercellular domains in the stratum corneum. In the stratum granulosum lipases were found, both ultrastructurally and biochemically, in lamellar bodies and ultrastructurally in both the perinuclear cistern and mitochondria. In summary, these studies: by demonstrating lipid-catabolic enzymes in the intercellular domains of the stratum corneum, lend further support to the 2-compartment model of the stratum corneum; provide new information about the location of lipid-catabolic enzymes in differentiating epidermis; and provide insights about how lipids are processed during permeability barrier formation and desquamation.