Your search keyword '"Akane Kawamoto"' showing total 2 results

1. SDR9C7 catalyzes critical dehydrogenation of acylceramides for skin barrier formation

Author

Kana Tanahashi, Akane Kawamoto, Yusuke Okuno, William E. Boeglin, Yoshinao Muro, Chiaki Murase, Alan R. Brash, S. Taguchi, Junko Ishikawa, Tamio Ohno, Hiroyuki Takama, Michihiro Kono, Masashi Akiyama, Calcutt Mw, Yuki Miyasaka, Takuya Takeichi, Daisuke Watanabe, K. Tanaka, and Tetsuya Hirabayashi

Subjects

0301 basic medicine, Ceramide, Plasma protein binding, Reductase, Ceramides, Catalysis, Mice, 03 medical and health sciences, Lipoxygenase, chemistry.chemical_compound, 0302 clinical medicine, Stratum corneum, medicine, Animals, Humans, Mice, Knockout, Corneocyte, biology, Chemistry, Ichthyosis, Genetic Diseases, Inborn, General Medicine, medicine.disease, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Biochemistry, 030220 oncology & carcinogenesis, biology.protein, NAD+ kinase, Epidermis, Oxidoreductases, Research Article

Abstract

The corneocyte lipid envelope, composed of covalently bound ceramides and fatty acids, is important to the integrity of the permeability barrier in the stratum corneum, and its absence is a prime structural defect in various skin diseases associated with defective skin barrier function. SDR9C7 encodes a short-chain dehydrogenase/reductase family 9C member 7 (SDR9C7) recently found mutated in ichthyosis. In a patient with SDR9C7 mutation and a mouse Sdr9c7-KO model, we show loss of covalent binding of epidermal ceramides to protein, a structural fault in the barrier. For reasons unresolved, protein binding requires lipoxygenase-catalyzed transformations of linoleic acid (18:2) esterified in ω-O-acylceramides. In Sdr9c7(–/–) epidermis, quantitative liquid chromatography–mass spectometry (LC-MS) assays revealed almost complete loss of a species of ω-O-acylceramide esterified with linoleate-9,10-trans-epoxy-11E-13-ketone; other acylceramides related to the lipoxygenase pathway were in higher abundance. Recombinant SDR9C7 catalyzed NAD(+)-dependent dehydrogenation of linoleate 9,10-trans-epoxy-11E-13-alcohol to the corresponding 13-ketone, while ichthyosis mutants were inactive. We propose, therefore, that the critical requirement for lipoxygenases and SDR9C7 is in producing acylceramide containing the 9,10-epoxy-11E-13-ketone, a reactive moiety known for its nonenzymatic coupling to protein. This suggests a mechanism for coupling of ceramide to protein and provides important insights into skin barrier formation and pathogenesis.

Published

2020

2. SDR9C7 catalyzes critical dehydrogenation of acylceramides for skin barrier formation.

Author

Takuya Takeichi, Tetsuya Hirabayashi, Yuki Miyasaka, Akane Kawamoto, Yusuke Okuno, Shijima Taguchi, Kana Tanahashi, Chiaki Murase, Hiroyuki Takama, Kosei Tanaka, Boeglin, William E., Calcutt, M. Wade, Daisuke Watanabe, Michihiro Kono, Yoshinao Muro, Junko Ishikawa, Tamio Ohno, Brash, Alan R., Masashi Akiyama, and Takeichi, Takuya

Subjects

*DEHYDROGENATION, *BIOLOGICAL extinction, *SKIN, *CARRIER proteins, *ICHTHYOSIS, *LINOLEIC acid, *LIPID metabolism, *BIOLOGICAL models, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *GENETIC disorders, *EVALUATION research, *MEDICAL cooperation, *COMPARATIVE studies, *CHEMISTRY, *OXIDOREDUCTASES, *EPIDERMIS, *MICE, *LIPIDS

Abstract

The corneocyte lipid envelope, composed of covalently bound ceramides and fatty acids, is important to the integrity of the permeability barrier in the stratum corneum, and its absence is a prime structural defect in various skin diseases associated with defective skin barrier function. SDR9C7 encodes a short-chain dehydrogenase/reductase family 9C member 7 (SDR9C7) recently found mutated in ichthyosis. In a patient with SDR9C7 mutation and a mouse Sdr9c7-KO model, we show loss of covalent binding of epidermal ceramides to protein, a structural fault in the barrier. For reasons unresolved, protein binding requires lipoxygenase-catalyzed transformations of linoleic acid (18:2) esterified in ω-O-acylceramides. In Sdr9c7-/- epidermis, quantitative liquid chromatography-mass spectometry (LC-MS) assays revealed almost complete loss of a species of ω-O-acylceramide esterified with linoleate-9,10-trans-epoxy-11E-13-ketone; other acylceramides related to the lipoxygenase pathway were in higher abundance. Recombinant SDR9C7 catalyzed NAD+-dependent dehydrogenation of linoleate 9,10-trans-epoxy-11E-13-alcohol to the corresponding 13-ketone, while ichthyosis mutants were inactive. We propose, therefore, that the critical requirement for lipoxygenases and SDR9C7 is in producing acylceramide containing the 9,10-epoxy-11E-13-ketone, a reactive moiety known for its nonenzymatic coupling to protein. This suggests a mechanism for coupling of ceramide to protein and provides important insights into skin barrier formation and pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2020