| Literature DB >> 33952673 |
Takeshi Kimura1, Michaela Bosakova2,3,4, Yosuke Nonaka5, Eva Hruba4, Kie Yasuda1, Satoshi Futakawa5, Takuo Kubota1, Bohumil Fafilek2,3,4, Tomas Gregor2,3, Sara P Abraham2, Regina Gomolkova2,4, Silvie Belaskova3, Martin Pesl2,3,6, Fabiana Csukasi7,8, Ivan Duran7,8, Masatoshi Fujiwara5, Michaela Kavkova9, Tomas Zikmund9, Josef Kaiser9, Marcela Buchtova4,10, Deborah Krakow7, Yoshikazu Nakamura11,12, Keiichi Ozono13, Pavel Krejci14,3,4.
Abstract
Achondroplasia is the most prevalent genetic form of dwarfism in humans and is caused by activating mutations in FGFR3 tyrosine kinase. The clinical need for a safe and effective inhibitor of FGFR3 is unmet, leaving achondroplasia currently incurable. Here, we evaluated RBM-007, an RNA aptamer previously developed to neutralize the FGFR3 ligand FGF2, for its activity against FGFR3. In cultured rat chondrocytes or mouse embryonal tibia organ culture, RBM-007 rescued the proliferation arrest, degradation of cartilaginous extracellular matrix, premature senescence, and impaired hypertrophic differentiation induced by FGFR3 signaling. In cartilage xenografts derived from induced pluripotent stem cells from individuals with achondroplasia, RBM-007 rescued impaired chondrocyte differentiation and maturation. When delivered by subcutaneous injection, RBM-007 restored defective skeletal growth in a mouse model of achondroplasia. We thus demonstrate a ligand-trap concept of targeting the cartilage FGFR3 and delineate a potential therapeutic approach for achondroplasia and other FGFR3-related skeletal dysplasias.Entities:
Mesh:
Substances:
Year: 2021 PMID: 33952673 DOI: 10.1126/scitranslmed.aba4226
Source DB: PubMed Journal: Sci Transl Med ISSN: 1946-6234 Impact factor: 17.956