Cell-based screen identifies porphyrins as FGFR3 activity inhibitors with therapeutic potential for achondroplasia and cancer
Yun-Wen Lin, Hsiao-Jung Kao, Wei-Ting Chen, Cheng-Fu Kao, Jer-Yuarn Wu, Yuan-Tsong Chen, Yi-Ching Lee
Yun-Wen Lin, Hsiao-Jung Kao, Wei-Ting Chen, Cheng-Fu Kao, Jer-Yuarn Wu, Yuan-Tsong Chen, Yi-Ching Lee
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Research Article Bone biology Genetics

Cell-based screen identifies porphyrins as FGFR3 activity inhibitors with therapeutic potential for achondroplasia and cancer

Abstract

Overactive fibroblast growth factor receptor 3 (FGFR3) signaling drives pathogenesis in a variety of cancers and a spectrum of short-limbed bone dysplasias, including the most common form of human dwarfism, achondroplasia (ACH). Targeting FGFR3 activity holds great promise as a therapeutic approach for treatment of these diseases. Here, we established a receptor/adaptor translocation assay system that can specifically monitor FGFR3 activation, and we applied it to identify FGFR3 modulators from complex natural mixtures. An FGFR3-suppressing plant extract of Amaranthus viridis was identified from the screen, and 2 bioactive porphyrins, pheophorbide a (Pa) and pyropheophorbide a, were sequentially isolated from the extract and functionally characterized. Further analysis showed that Pa reduced excessive FGFR3 signaling by decreasing its half-life in FGFR3-overactivated multiple myeloma cells and chondrocytes. In an ex vivo culture system, Pa alleviated defective long bone growth in humanized ACH mice (FGFR3ACH mice). Overall, our study presents an approach to discovery and validation of plant extracts or drug candidates that target FGFR3 activation. The compounds identified by this approach may have applications as therapeutics for FGFR3-associated cancers and skeletal dysplasias.

Authors

Yun-Wen Lin, Hsiao-Jung Kao, Wei-Ting Chen, Cheng-Fu Kao, Jer-Yuarn Wu, Yuan-Tsong Chen, Yi-Ching Lee

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Figure 5

Pa compromises FGFR3 protein stability in FGFR3-activated MM cells and chondrocytes.

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Pa compromises FGFR3 protein stability in FGFR3-activated MM cells and c...
(A and B) KMS-11 cells were treated with either vehicle or 20 μM Pa in the presence of 80 μg/mL cycloheximide (CHX) for the indicated times. (A) Protein levels were detected by immunoblotting. (B) The relative levels of FGFR3 protein were quantified, normalized to β-actin, and compared with time 0 of CHX treatment. (CF) WT and ACH-FGFR3–expressing ATDC5 cells were treated with vehicle or 10 μM Pa in the presence of 100 μg/mL CHX for indicated times. (C and D) Protein levels were detected by immunoblotting. (E and F) The relative protein levels were quantified, normalized to GAPDH, and compared with time 0 of CHX treatment. (B, E, and F) Data are shown as mean ± SEM of 3 to 4 independent experiments.