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Mutations in SERPINB7, Encoding a Member of the Serine Protease Inhibitor Superfamily, Cause Nagashima-type Palmoplantar Keratosis
Author(s) -
Akiharu Kubo,
Aiko Shiohama,
Takashi Sasaki,
Kazuhiko Nakabayashi,
Hiroshi Kawasaki,
Toru Atsugi,
Showbu Sato,
Atsushi Shimizu,
Shuji Mikami,
Hideaki Tanizaki,
M Uchiyama,
Tatsuo Maeda,
Taisuke Ito,
Junichi Sakabe,
Toshio Heike,
Torayuki Okuyama,
Rika Kosaki,
Kenjiro Kosaki,
Jun Kudoh,
Kenichiro Hata,
Akihiro Umezawa,
Y. Tokura,
Akira Ishiko,
Hironori Niizeki,
Kenji Kabashima,
Yoshihiko Mitsuhashi,
Masayuki Amagai
Publication year - 2013
Publication title -
the american journal of human genetics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.661
H-Index - 302
eISSN - 1537-6605
pISSN - 0002-9297
DOI - 10.1016/j.ajhg.2013.09.015
Subject(s) - hyperkeratosis , biology , splice site mutation , proteases , mutation , stratum corneum , genetics , gene , biochemistry , exon , alternative splicing , enzyme
"Nagashima-type" palmoplantar keratosis (NPPK) is an autosomal recessive nonsyndromic diffuse palmoplantar keratosis characterized by well-demarcated diffuse hyperkeratosis with redness, expanding on to the dorsal surfaces of the palms and feet and the Achilles tendon area. Hyperkeratosis in NPPK is mild and nonprogressive, differentiating NPPK clinically from Mal de Meleda. We performed whole-exome and/or Sanger sequencing analyses of 13 unrelated NPPK individuals and identified biallelic putative loss-of-function mutations in SERPINB7, which encodes a cytoplasmic member of the serine protease inhibitor superfamily. We identified a major causative mutation of c.796C>T (p.Arg266(∗)) as a founder mutation in Japanese and Chinese populations. SERPINB7 was specifically present in the cytoplasm of the stratum granulosum and the stratum corneum (SC) of the epidermis. All of the identified mutants are predicted to cause premature termination upstream of the reactive site, which inhibits the proteases, suggesting a complete loss of the protease inhibitory activity of SERPINB7 in NPPK skin. On exposure of NPPK lesional skin to water, we observed a whitish spongy change in the SC, suggesting enhanced water permeation into the SC due to overactivation of proteases and a resultant loss of integrity of the SC structure. These findings provide an important framework for developing pathogenesis-based therapies for NPPK.

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