Properties of non-aminoglycoside compounds used to stimulate translational readthrough of ptc mutations in primary ciliary dyskinesia

Primary ciliary dyskinesia (PCD) is a rare disease with autosomal recessive inheritance, caused mostly by bi-allelic gene mutations that impair motile cilia structure and function. Currently, there are no causal treatments for PCD. In many disease models, translational readthrough of premature termination codons (PTC-readthrough) induced by aminoglycosides has been proposed as an effective way of restoring functional protein expression and reducing disease symptoms. However, variable outcomes of pre-clinical trials and toxicity associated with long-term use of aminoglycosides prompt the search for other compounds that might overcome these problems. Because a high proportion of PCD-causing variants are nonsense mutations, readthrough therapies are an attractive option. We tested a group of chemical compounds with known PTC-readthrough potential (ataluren, azithromycin, tylosin, amlexanox, and the experimental compound TC007), collectively referred to as non-aminoglycosides (NAGs). We investigated their PTC-readthrough efficiency in six PTC mutations found in Polish PCD patients, in the context of cell and cilia health, and in comparison to the previously tested aminoglycosides. The NAGs did not compromise the viability of the primary nasal respiratory epithelial cells, and the ciliary beat frequency was retained, similar to what was observed for gentamicin. In HEK293 cells transfected with six PTC-containing inserts, the tested compounds stimulated PTC-readthrough but with lower efficiency than aminoglycosides. The study allowed us to select compounds with minimal negative impact on cell viability and function but still the potential to induce PTC-readthrough.

Aminoglycosides, Premature termination codon, Primary ciliary dyskinesia, Rare disease, Readthrough, STOP suppression

10.3390/ijms22094923

1661-6596

Dabrowski, Maciej

a8afeea9-cd80-4962-b983-f6c4dba31a00

Bukowy-Bieryllo, Zuzanna

0ca6d123-6307-4788-9ae7-e8a0a4eedbbc

Jackson, Claire L.

64cdd6fa-74c3-4ac6-94ef-070620a6efd9

Zietkiewicz, Ewa

cb69c012-1437-4700-b425-25e69958148e

7 May 2021

Dabrowski, Maciej

a8afeea9-cd80-4962-b983-f6c4dba31a00

Bukowy-Bieryllo, Zuzanna

0ca6d123-6307-4788-9ae7-e8a0a4eedbbc

Jackson, Claire L.

64cdd6fa-74c3-4ac6-94ef-070620a6efd9

Zietkiewicz, Ewa

cb69c012-1437-4700-b425-25e69958148e

Dabrowski, Maciej, Bukowy-Bieryllo, Zuzanna, Jackson, Claire L. and Zietkiewicz, Ewa (2021) Properties of non-aminoglycoside compounds used to stimulate translational readthrough of ptc mutations in primary ciliary dyskinesia. International Journal of Molecular Sciences, 22 (9), [4923]. (doi:10.3390/ijms22094923).

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Accepted/In Press date: 3 May 2021

Published date: 7 May 2021

Additional Information: Funding Information: This research was supported by grants from the National Science Center from Poland (NCN): Preludium 2016/23/N/NZ4/03228 and Etiuda 2016/20/T/NZ4/00525. Authors of this manuscript were participants in the BEAT-PCD project (EU COST Action 1407), and part of this research was performed with the help of a Short-Term Scientific Mission (STSM) grant at the University of Southampton, UK. Funding Information: Funding: This research was supported by grants from the National Science Center from Poland (NCN): Preludium 2016/23/N/NZ4/03228 and Etiuda 2016/20/T/NZ4/00525. Authors of this manuscript were participants in the BEAT-PCD project (EU COST Action 1407), and part of this research was performed with the help of a Short-Term Scientific Mission (STSM) grant at the University of Southampton, UK. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

Keywords: Aminoglycosides, Premature termination codon, Primary ciliary dyskinesia, Rare disease, Readthrough, STOP suppression