Author
Listed:
- Tetsuya Hirabayashi
(Lipid Metabolism Project, Tokyo Metropolitan Institute of Medical Science
AMED-CREST, Japan Agency for Medical Research and Development)
- Tatsuki Anjo
(Lipid Metabolism Project, Tokyo Metropolitan Institute of Medical Science
School of Science and Engineering, Tokyo Denki University)
- Arisa Kaneko
(Lipid Metabolism Project, Tokyo Metropolitan Institute of Medical Science
Laboratory of Genome and Biosignals, Tokyo University of Pharmacy and Life Sciences)
- Yuuya Senoo
(Laboratory for Metabolomics, RIKEN Center for Integrative Medical Sciences)
- Akitaka Shibata
(Nagoya University Graduate School of Medicine)
- Hiroyuki Takama
(Nagoya University Graduate School of Medicine)
- Kohei Yokoyama
(Lipid Metabolism Project, Tokyo Metropolitan Institute of Medical Science)
- Yasumasa Nishito
(Center for Basic Technology Research, Tokyo Metropolitan Institute of Medical Science)
- Tomio Ono
(Center for Basic Technology Research, Tokyo Metropolitan Institute of Medical Science)
- Choji Taya
(Center for Basic Technology Research, Tokyo Metropolitan Institute of Medical Science)
- Kazuaki Muramatsu
(School of Science and Engineering, Tokyo Denki University)
- Kiyoko Fukami
(Laboratory of Genome and Biosignals, Tokyo University of Pharmacy and Life Sciences)
- Agustí Muñoz-Garcia
(Ecology, and Organismal Biology, Ohio State University)
- Alan R. Brash
(Vanderbilt Institute of Chemical Biology, Vanderbilt University)
- Kazutaka Ikeda
(Laboratory for Metabolomics, RIKEN Center for Integrative Medical Sciences)
- Makoto Arita
(Laboratory for Metabolomics, RIKEN Center for Integrative Medical Sciences)
- Masashi Akiyama
(Nagoya University Graduate School of Medicine)
- Makoto Murakami
(Lipid Metabolism Project, Tokyo Metropolitan Institute of Medical Science
AMED-CREST, Japan Agency for Medical Research and Development)
Abstract
Mutations in patatin-like phospholipase domain-containing 1 (PNPLA1) cause autosomal recessive congenital ichthyosis, but the mechanism involved remains unclear. Here we show that PNPLA1, an enzyme expressed in differentiated keratinocytes, plays a crucial role in the biosynthesis of ω-O-acylceramide, a lipid component essential for skin barrier. Global or keratinocyte-specific Pnpla1-deficient neonates die due to epidermal permeability barrier defects with severe transepidermal water loss, decreased intercellular lipid lamellae in the stratum corneum, and aberrant keratinocyte differentiation. In Pnpla1−/− epidermis, unique linoleate-containing lipids including acylceramides, acylglucosylceramides and (O-acyl)-ω-hydroxy fatty acids are almost absent with reciprocal increases in their putative precursors, indicating that PNPLA1 catalyses the ω-O-esterification with linoleic acid to form acylceramides. Moreover, acylceramide supplementation partially rescues the altered differentiation of Pnpla1−/− keratinocytes. Our findings provide valuable insight into the skin barrier formation and ichthyosis development, and may contribute to novel therapeutic strategies for treatment of epidermal barrier defects.
Suggested Citation
Tetsuya Hirabayashi & Tatsuki Anjo & Arisa Kaneko & Yuuya Senoo & Akitaka Shibata & Hiroyuki Takama & Kohei Yokoyama & Yasumasa Nishito & Tomio Ono & Choji Taya & Kazuaki Muramatsu & Kiyoko Fukami & A, 2017.
"PNPLA1 has a crucial role in skin barrier function by directing acylceramide biosynthesis,"
Nature Communications, Nature, vol. 8(1), pages 1-13, April.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14609
DOI: 10.1038/ncomms14609
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