The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators

Ten percent of cystic fibrosis (CF) patients carry a premature termination codon (PTC); no mutation-specific therapies exist for these individuals. ELX-02, a synthetic aminoglycoside, suppresses translation termination at PTCs (i.e., readthrough) by promoting the insertion of an amino acid at the PT...

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Autores principales: Chen, Jianguo, Thrasher, Kari, Fu, Lianwu, Wang, Wei, Aghamohammadzadeh, Soheil, Wen, Hui, Tang, Liping, Keeling, Kim M., Falk Libby, Emily, Bedwell, David M., Rowe, Steven M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Physiological Society 2023
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10202470/
https://www.ncbi.nlm.nih.gov/pubmed/37014818
http://dx.doi.org/10.1152/ajplung.00038.2023
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author Chen, Jianguo
Thrasher, Kari
Fu, Lianwu
Wang, Wei
Aghamohammadzadeh, Soheil
Wen, Hui
Tang, Liping
Keeling, Kim M.
Falk Libby, Emily
Bedwell, David M.
Rowe, Steven M.
author_facet Chen, Jianguo
Thrasher, Kari
Fu, Lianwu
Wang, Wei
Aghamohammadzadeh, Soheil
Wen, Hui
Tang, Liping
Keeling, Kim M.
Falk Libby, Emily
Bedwell, David M.
Rowe, Steven M.
author_sort Chen, Jianguo
collection PubMed
description Ten percent of cystic fibrosis (CF) patients carry a premature termination codon (PTC); no mutation-specific therapies exist for these individuals. ELX-02, a synthetic aminoglycoside, suppresses translation termination at PTCs (i.e., readthrough) by promoting the insertion of an amino acid at the PTC and restoring expression of full-length CFTR protein. The identity of amino acids inserted at PTCs affects the processing and function of the resulting full-length CFTR protein. We examined readthrough of the rare G550X-CFTR nonsense mutation due to its unique properties. We found that forskolin-induced swelling in G550X patient-derived intestinal organoids (PDOs) was significantly higher than in G542X PDOs (both UGA PTCs) with ELX-02 treatment, indicating greater CFTR function from the G550X allele. Using mass spectrometry, we identified tryptophan as the sole amino acid inserted in the G550X position during ELX-02- or G418-mediated readthrough, which differs from the three amino acids (cysteine, arginine, and tryptophan) inserted in the G542X position after treatment with G418. Compared with wild-type CFTR, Fischer rat thyroid (FRT) cells expressing the G550W-CFTR variant protein exhibited significantly increased forskolin-activated Cl(−) conductance, and G550W-CFTR channels showed increased PKA sensitivity and open probability. After treatment with ELX-02 and CFTR correctors, CFTR function rescued from the G550X allele in FRTs reached 20–40% of the wild-type level. These results suggest that readthrough of G550X produces greater CFTR function because of gain-of-function properties of the CFTR readthrough product that stem from its location in the signature LSGGQ motif found in ATP-binding cassette (ABC) transporters. G550X may be a particularly sensitive target for translational readthrough therapy. NEW & NOTEWORTHY We found that forskolin-induced swelling in G550X-CFTR patient-derived intestinal organoids (PDOs) was significantly higher than in G542X-CFTR PDOs after treatment with ELX-02. Tryptophan (W) was the sole amino acid inserted in the G550X position after readthrough. Resulting G550W-CFTR protein exhibited supernormal CFTR activity, PKA sensitivity, and open probability. These results show that aminoglycoside-induced readthrough of G550X produces greater CFTR function because of the gain-of-function properties of the CFTR readthrough product.
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spelling pubmed-102024702023-05-23 The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators Chen, Jianguo Thrasher, Kari Fu, Lianwu Wang, Wei Aghamohammadzadeh, Soheil Wen, Hui Tang, Liping Keeling, Kim M. Falk Libby, Emily Bedwell, David M. Rowe, Steven M. Am J Physiol Lung Cell Mol Physiol Research Article Ten percent of cystic fibrosis (CF) patients carry a premature termination codon (PTC); no mutation-specific therapies exist for these individuals. ELX-02, a synthetic aminoglycoside, suppresses translation termination at PTCs (i.e., readthrough) by promoting the insertion of an amino acid at the PTC and restoring expression of full-length CFTR protein. The identity of amino acids inserted at PTCs affects the processing and function of the resulting full-length CFTR protein. We examined readthrough of the rare G550X-CFTR nonsense mutation due to its unique properties. We found that forskolin-induced swelling in G550X patient-derived intestinal organoids (PDOs) was significantly higher than in G542X PDOs (both UGA PTCs) with ELX-02 treatment, indicating greater CFTR function from the G550X allele. Using mass spectrometry, we identified tryptophan as the sole amino acid inserted in the G550X position during ELX-02- or G418-mediated readthrough, which differs from the three amino acids (cysteine, arginine, and tryptophan) inserted in the G542X position after treatment with G418. Compared with wild-type CFTR, Fischer rat thyroid (FRT) cells expressing the G550W-CFTR variant protein exhibited significantly increased forskolin-activated Cl(−) conductance, and G550W-CFTR channels showed increased PKA sensitivity and open probability. After treatment with ELX-02 and CFTR correctors, CFTR function rescued from the G550X allele in FRTs reached 20–40% of the wild-type level. These results suggest that readthrough of G550X produces greater CFTR function because of gain-of-function properties of the CFTR readthrough product that stem from its location in the signature LSGGQ motif found in ATP-binding cassette (ABC) transporters. G550X may be a particularly sensitive target for translational readthrough therapy. NEW & NOTEWORTHY We found that forskolin-induced swelling in G550X-CFTR patient-derived intestinal organoids (PDOs) was significantly higher than in G542X-CFTR PDOs after treatment with ELX-02. Tryptophan (W) was the sole amino acid inserted in the G550X position after readthrough. Resulting G550W-CFTR protein exhibited supernormal CFTR activity, PKA sensitivity, and open probability. These results show that aminoglycoside-induced readthrough of G550X produces greater CFTR function because of the gain-of-function properties of the CFTR readthrough product. American Physiological Society 2023-06-01 2023-04-04 /pmc/articles/PMC10202470/ /pubmed/37014818 http://dx.doi.org/10.1152/ajplung.00038.2023 Text en Copyright © 2023 The Authors. https://creativecommons.org/licenses/by/4.0/Licensed under Creative Commons Attribution CC-BY 4.0 (https://creativecommons.org/licenses/by/4.0/) . Published by the American Physiological Society.
spellingShingle Research Article
Chen, Jianguo
Thrasher, Kari
Fu, Lianwu
Wang, Wei
Aghamohammadzadeh, Soheil
Wen, Hui
Tang, Liping
Keeling, Kim M.
Falk Libby, Emily
Bedwell, David M.
Rowe, Steven M.
The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title_full The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title_fullStr The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title_full_unstemmed The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title_short The synthetic aminoglycoside ELX-02 induces readthrough of G550X-CFTR producing superfunctional protein that can be further enhanced by CFTR modulators
title_sort synthetic aminoglycoside elx-02 induces readthrough of g550x-cftr producing superfunctional protein that can be further enhanced by cftr modulators
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10202470/
https://www.ncbi.nlm.nih.gov/pubmed/37014818
http://dx.doi.org/10.1152/ajplung.00038.2023
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