Statin treatment rescues FGFR3 skeletal dysplasia phenotypes

Akihiro Yamashita; Miho Morioka; Hiromi Kishi; Takeshi Kimura; Yasuhito Yahara; Minoru Okada; Kaori Fujita; Hideaki Sawai; Shiro Ikegawa; Noriyuki Tsumaki

doi:10.1038/nature13775

Statin treatment rescues FGFR3 skeletal dysplasia phenotypes

Akihiro Yamashita, Miho Morioka, Hiromi Kishi, Takeshi Kimura, Yasuhito Yahara, Minoru Okada, Kaori Fujita, Hideaki Sawai, Shiro Ikegawa, Noriyuki Tsumaki^*

^*Corresponding author for this work

Molecular and Medical Pharmacology

Research output: Contribution to journal › Article › peer-review

175 Scopus citations

Abstract

Gain-of-function mutations in the fibroblast growth factor receptor 3 gene (FGFR3) result in skeletal dysplasias, such as thanatophoric dysplasia and achondroplasia (ACH). The lack of disease models using human cells has hampered the identification of a clinically effective treatment for these diseases. Here we show that statin treatment can rescue patient-specific induced pluripotent stem cell (iPSC) models and a mouse model of FGFR3 skeletal dysplasia. We converted fibroblasts from thanatophoric dysplasia type I (TD1) and ACH patients into iPSCs. The chondrogenic differentiation of TD1 iPSCs and ACH iPSCs resulted in the formation of degraded cartilage. We found that statins could correct the degraded cartilage in both chondrogenically differentiated TD1 and ACH iPSCs. Treatment of ACH model mice with statin led to a significant recovery of bone growth. These results suggest that statins could represent a medical treatment for infants and children with TD1 and ACH.

Original language	English
Pages (from-to)	507-511
Number of pages	5
Journal	Nature
Volume	513
Issue number	7519
DOIs	https://doi.org/10.1038/nature13775
State	Published - 2014/09/25

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title = "Statin treatment rescues FGFR3 skeletal dysplasia phenotypes",

abstract = "Gain-of-function mutations in the fibroblast growth factor receptor 3 gene (FGFR3) result in skeletal dysplasias, such as thanatophoric dysplasia and achondroplasia (ACH). The lack of disease models using human cells has hampered the identification of a clinically effective treatment for these diseases. Here we show that statin treatment can rescue patient-specific induced pluripotent stem cell (iPSC) models and a mouse model of FGFR3 skeletal dysplasia. We converted fibroblasts from thanatophoric dysplasia type I (TD1) and ACH patients into iPSCs. The chondrogenic differentiation of TD1 iPSCs and ACH iPSCs resulted in the formation of degraded cartilage. We found that statins could correct the degraded cartilage in both chondrogenically differentiated TD1 and ACH iPSCs. Treatment of ACH model mice with statin led to a significant recovery of bone growth. These results suggest that statins could represent a medical treatment for infants and children with TD1 and ACH.",

author = "Akihiro Yamashita and Miho Morioka and Hiromi Kishi and Takeshi Kimura and Yasuhito Yahara and Minoru Okada and Kaori Fujita and Hideaki Sawai and Shiro Ikegawa and Noriyuki Tsumaki",

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T1 - Statin treatment rescues FGFR3 skeletal dysplasia phenotypes

AU - Yamashita, Akihiro

AU - Morioka, Miho

AU - Kishi, Hiromi

AU - Kimura, Takeshi

AU - Yahara, Yasuhito

AU - Okada, Minoru

AU - Fujita, Kaori

AU - Sawai, Hideaki

AU - Ikegawa, Shiro

AU - Tsumaki, Noriyuki

PY - 2014/9/25

Y1 - 2014/9/25

N2 - Gain-of-function mutations in the fibroblast growth factor receptor 3 gene (FGFR3) result in skeletal dysplasias, such as thanatophoric dysplasia and achondroplasia (ACH). The lack of disease models using human cells has hampered the identification of a clinically effective treatment for these diseases. Here we show that statin treatment can rescue patient-specific induced pluripotent stem cell (iPSC) models and a mouse model of FGFR3 skeletal dysplasia. We converted fibroblasts from thanatophoric dysplasia type I (TD1) and ACH patients into iPSCs. The chondrogenic differentiation of TD1 iPSCs and ACH iPSCs resulted in the formation of degraded cartilage. We found that statins could correct the degraded cartilage in both chondrogenically differentiated TD1 and ACH iPSCs. Treatment of ACH model mice with statin led to a significant recovery of bone growth. These results suggest that statins could represent a medical treatment for infants and children with TD1 and ACH.

AB - Gain-of-function mutations in the fibroblast growth factor receptor 3 gene (FGFR3) result in skeletal dysplasias, such as thanatophoric dysplasia and achondroplasia (ACH). The lack of disease models using human cells has hampered the identification of a clinically effective treatment for these diseases. Here we show that statin treatment can rescue patient-specific induced pluripotent stem cell (iPSC) models and a mouse model of FGFR3 skeletal dysplasia. We converted fibroblasts from thanatophoric dysplasia type I (TD1) and ACH patients into iPSCs. The chondrogenic differentiation of TD1 iPSCs and ACH iPSCs resulted in the formation of degraded cartilage. We found that statins could correct the degraded cartilage in both chondrogenically differentiated TD1 and ACH iPSCs. Treatment of ACH model mice with statin led to a significant recovery of bone growth. These results suggest that statins could represent a medical treatment for infants and children with TD1 and ACH.

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DO - 10.1038/nature13775

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AN - SCOPUS:84908571755

SN - 0028-0836

VL - 513

SP - 507

EP - 511

JO - Nature

JF - Nature

IS - 7519

ER -

Statin treatment rescues FGFR3 skeletal dysplasia phenotypes

Abstract

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