Autosomal-dominant diffuse nonepidermolytic palmoplantar keratoderma is characterized by the adoption of a white, spongy appearance of affected areas upon exposure to water. After exome sequencing, missense mutations were identified in AQP5, encoding water-channel protein aquaporin-5 (AQP5). Protein-structure analysis indicates that these AQP5 variants have the potential to elicit an effect on normal channel regulation. Immunofluorescence data reveal the presence of AQP5 at the plasma membrane in the stratum granulosum of both normal and affected palmar epidermis, indicating that the altered AQP5 proteins are trafficked in the normal manner. We demonstrate here a role for AQP5 in the palmoplantar epidermis and propose that the altered AQP5 proteins retain the ability to form open channels in the cell membrane and conduct water.
Corneodesmosin, defined as the protein recognized by the monoclonal antibody G36-19, is a recently described late differentiation protein of human cornified epithelium. In the stratum corneum it is localized in the extracellular parts of modified desmosomes (corneodesmosomes) and adjacent parts of the cornified cell envelope. The aim of the present study was to investigate whether corneodesmosin undergoes changes in the stratum corneum which can be related to the cohesive state of the tissue and to desquamation. Extracts of plantar stratum corneum from various tissue levels and tape-stripped non-palmoplantar stratum corneum were analysed by immunoblotting with G36-19. In addition, the fate of corneodesmosin during shedding of surface cells in a recently described in vitro model of desquamation in plantar stratum corneum was investigated and compared with the degradation of the desmosomal protein desmoglein I in this system. The apparent molecular weights of the major G36-19-positive components in plantar stratum corneum ranged between 33 and 48 kDa. The components with the highest molecular weights were predominant in the deepest tissue layers. In the intermediate tissue layers G36-19-positive components of molecular weight 33-36, 39 and 44-48 kDa were found. There seemed to be a further degradation of the 33 to 36-kDa components in the most superficial parts of the tissue. In surface cells dissociated in vivo as well as in vitro no G36-19-positive components with molecular weights above 36 kDa were detected. Results from analyses of nonpalmoplantar stratum corneum suggested that corneodesmosin is degraded in this tissue in a way that may be similar to that in plantar stratum corneum.(ABSTRACT TRUNCATED AT 250 WORDS)
We have recently reported that unipolar cell shedding from plantar stratum corneum incubated in vitro, and the associated degradation of the desmosomal protein desmoglein I, are dependent on the activity of a proteinase that can be inhibited by aprotinin, chymostatin and zinc ion. The aim of this work was to find a proteinase in plantar stratum corneum that fulfils the criteria for being the responsible enzyme. Dissociated plantar corneocytes were incubated with the chymotrypsin substrate 3-carbomethoxypropionyl-L-Arg-L-Pro-L-Tyr-p-nitroanilide hydrochloride (S-2586) and H-D-Ile-Pro-Arg-p-nitroanilide dihydrochloride (S-2288), a substrate for a wide range of serine proteinases with arginine specificity. There was a significant rate of hydrolysis of S-2586, but S-2288 was hydrolysed only very slowly. Extraction of dissociated corneocytes with buffers containing KCl or sodium dodecyl sulphate released one major proteinase that could be detected by electrophoresis in polyacrylamide gels with copolymerized casein and subsequent incubations of the gels. Both the caseinolytic activity and the S-2586-hydrolysing activities were inhibited by aprotinin, chymostatin and zinc ion, but not by leupeptin. The S-2586-hydrolysing activity was also inhibited by soybean trypsin inhibitor and phenylmethylsulphonyl fluoride. Both activities were optimal at pH 7-8 but were also significant at pH 5.5. On gel exclusion chromatography, the S-2586-hydrolysing and caseinolytic activities were eluted with an apparent molecular weight of around 18 kDa. When analyzed by electrophoresis in the presence of sodium dodecyl sulphate under non-reducing conditions the caseinolytic enzyme had an apparent molecular weight of around 25 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)
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