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THE SERINE PROTEASE MARAPSIN IS EXPRESSED IN STRATIFIED SQUAMOUS EPITHELIA AND IS UP-REGULATED IN THE HYPERPROLIFERATIVE EPIDERMIS OF PSORIASIS AND REGENERATING WOUNDS.

Li1, W., Danilenko2, D.M., Bunting3, S., Ganesan1, R., Sa2, S., Ferrando2, R., Wu4, T.D., Kolumam3, G.A., Ouyang5, W. and Kirchhofer1, D.  From the Departments of 1Protein Engineering, 2Pathology, 3Tumor Biology and Angiogenesis, 4Bioinformatics, and 5Immunology, Genentech, Inc., South San Francisco, California 94080.
Abstract

The trypsin-like serine protease marapsin is a member of the large protease gene cluster at human chromosome 16p13.3, which also contains the structurally related proteases testisin, tryptase €, tryptase γ, and EOS. To gain insight into the biological functions of marapsin, we undertook a detailed gene expression analysis. It showed that marapsin expression was restricted to tissues containing stratified squamous epithelia and was absent or only weakly expressed in all other tissues, including the pancreas. Marapsin was constitutively expressed in nonkeratinizing stratified squamous epithelia of human esophagus, tonsil, cervix, larynx, and cornea. In the keratinizing stratified squamous epidermis of skin, however, its expression was induced only during epidermal hyperproliferation, such as in psoriasis and in murine wound healing. In fact, marapsin was the second most strongly up-regulated protease in psoriatic lesions, where expression was localized to the upper region of the hyperplastic epidermis. Similarly, in the hyperproliferative epithelium of regenerating murine skin wounds, marapsin localized to the suprabasal layers, where keratinocytes undergo squamous differentiation. The transient up-regulation of marapsin, which closely correlated with re-epithelialization, was virtually absent in a genetic mouse model of delayed wound closure. These results suggested a function during the process of re-epithelialization. Furthermore, in reconstituted human epidermis, a model system of epidermal differentiation, members of the IL-20 subfamily of cytokines, such as IL-22, induced marapsin expression. Consistent with a physiologic role in marapsin regulation, IL-22 was also strongly expressed in re-epithelializing skin wounds. Marapsin’s restricted expression, localization, and cytokine-inducible expression suggest a role in the terminal differentiation of keratinocytes in hyperproliferating squamous epithelia.

Keywords

EPI-100-NMM, EPI-200, Epidermal hyperplasia, Hyperproliferation, marapsin, Marapsin expression, Microarray analysis, Psoriasis, Regenerating wounds, Serine protease, Trypsin-like serine protease

Materials Tested

IFN-γ, IL-19, IL-20, IL-22, IL-24, TGF-α, Transforming growth factor-α (TGF-α)

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