Eupatilin rescues ciliary transition zone defects to ameliorate ciliopathy-related phenotypes
Yong Joon Kim, … , Ho Jeong Kwon, Joon Kim
Yong Joon Kim, … , Ho Jeong Kwon, Joon Kim
Published July 23, 2018
Citation Information: J Clin Invest. 2018;128(8):3642-3648. https://doi.org/10.1172/JCI99232.
View: Text | PDF
Concise Communication Development Ophthalmology

Eupatilin rescues ciliary transition zone defects to ameliorate ciliopathy-related phenotypes

Abstract

Ciliopathies are clinically overlapping genetic disorders involving structural and functional abnormalities of cilia. Currently, there are no small-molecule drugs available to treat ciliary defects in ciliopathies. Our phenotype-based screen identified the flavonoid eupatilin and its analogs as lead compounds for developing ciliopathy medication. CEP290, a gene mutated in several ciliopathies, encodes a protein that forms a complex with NPHP5 to support the function of the ciliary transition zone. Eupatilin relieved ciliogenesis and ciliary receptor delivery defects resulting from deletion of CEP290. In rd16 mice harboring a blinding Cep290 in-frame deletion, eupatilin treatment improved both opsin transport to the photoreceptor outer segment and electrophysiological responses of the retina to light stimulation. The rescue effect was due to eupatilin-mediated inhibition of calmodulin binding to NPHP5, which promoted NPHP5 recruitment to the ciliary base. Our results suggest that deficiency of a ciliopathy protein could be mitigated by small-molecule compounds that target other ciliary components that interact with the ciliopathy protein.

Authors

Yong Joon Kim, Sungsoo Kim, Yooju Jung, Eunji Jung, Ho Jeong Kwon, Joon Kim

×

Figure 3

Eupatilin injection ameliorates M-opsin trafficking and electrophysiological response of cone photoreceptors in rd16 mice.

Options: View larger image (or click on image) Download as PowerPoint
Eupatilin injection ameliorates M-opsin trafficking and electrophysiolog...
(A) Electroretinogram of rd16het and rd16homo mice at postnatal day 23 under light-adapted conditions after subcutaneous or periocular injection of vehicle or eupatilin (40 mg/kg) for 3 weeks. (B) Amplitude of B-wave in photopic responses. Sub, subcutaneous injection; peri, periocular injection. (C) Fluorescence micrographs visualizing M-opsin in the retina of rd16het and rd16homo mice injected with vehicle or eupatilin (40 mg/kg) for 3 weeks. Nuclei were marked with DAPI (blue). (D) Quantification (arbitrary unit) of the experiment presented in C. Scale bars indicate 50 μm. Error bars represent SEM (n = 3 mice, each group; *P < 0.05 and **P < 0.01, t test).