Abstract
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.
Highlights
Introduction iationsMotile cilia are specialized, evolutionarily conserved organelles protruding from the apical surface of epithelial cells throughout the human body; the flagella of sperms are structurally the same [1]
The premature termination codon (PTC)-readthrough-stimulating potential of the NAGs was tested in the human epithelial kidney (HEK293) cell line transfected with pDluc vectors
The only exception was observed for TC007; its two lower concentrations applied to the cells transfected with plasmids containing the insert with PTC in DNAH5 ex. 49 resulted in a 2-2.5-fold increase in the PTC-readthrough level
Summary
Based on the literature data, we selected several NAG compounds with proven PTCreadthrough-stimulating potential and a reported toxicity lower than that of the AGs. To. Based on the literature data, we selected several NAG compounds with proven PTCreadthrough-stimulating potential and a reported toxicity lower than that of the AGs. To accelerate the process of clinical approval of the possible therapeutics, we primarily foaccelerate the process of clinicalregistered approval of possible therapeutics, primarily[28,29], focuseda cused on compounds already asthe drugs. The selected concentration range was based on the above literature and cytotoxcytotoxicity screening with Trypan blue dye assay (data not shown). All these compounds icity screening with Trypan blue dye assay (Supplementary Table S1). Have been presented in detail in our review paper [17]
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