Daniel K Crawford1, Jasper Mullenders2, Johanna Pott2, Sylvia F Boj2, Shira Landskroner-Eiger1, Matthew M Goddeeris3. 1. Eloxx Pharmaceuticals, Inc., 950 Winter Street, Waltham, MA 02451 USA. 2. Hubrecht Organoid Technology, Yalelaan 62, 3584 CM Utrecht, the Netherlands. 3. Eloxx Pharmaceuticals, Inc., 950 Winter Street, Waltham, MA 02451 USA. Electronic address: matthew.goddeeris@eloxxpharma.com.
Abstract
BACKGROUND: Promoting full-length protein production is a requisite step to address some of the remaining unmet medical need for those with Cystic Fibrosis (CF) nonsense alleles. ELX-02 promotes read-through of mRNA transcripts bearing nonsense mutations, including the most common CF nonsense allele G542X, in several different preclinical models including human bronchial epithelial cells. Here we evaluate ELX-02 mediated read-through using the CFTR-dependent Forskolin-induced swelling (FIS) assay across a selection of G542X genotype patient derived organoids (PDOs). METHODS: CFTR functional restoration was evaluated in ELX-02 treated G542X homozygous and heterozygous PDOs in the CFTR-dependent FIS assay. CFTR mRNA abundance and integrity were evaluated by qPCR and Nanostring analysis while PDO protein was detected by capillary based size-exclusion chromatography. RESULTS: PDOs homozygous for G542X or heterozygous with a second minimally functional allele had significantly increased CFTR activity with ELX-02 in a dose-dependent fashion across a variety of forskolin induction concentrations. The functional increases are similar to those obtained with tezacaftor/ivacaftor in F508del homozygous PDOs. Increased CFTR C- and B-band protein was observed in accordance with increased function. In addition, ELX-02 treatment of a G542X/G542X PDO results in a 5-fold increase in CFTR mRNA compared with vehicle treated, resulting in normalization of CFTR mRNA as measured via Nanostring. CONCLUSIONS: These data with ELX-02 in PDOs are consistent with previous G542X model evaluations. These results also support the on-going clinical evaluation of ELX-02 as a read-through agent for CF caused by the G542X allele.
BACKGROUND: Promoting full-length protein production is a requisite step to address some of the remaining unmet medical need for those with Cystic Fibrosis (CF) nonsense alleles. ELX-02 promotes read-through of mRNA transcripts bearing nonsense mutations, including the most common CF nonsense allele G542X, in several different preclinical models including human bronchial epithelial cells. Here we evaluate ELX-02 mediated read-through using the CFTR-dependent Forskolin-induced swelling (FIS) assay across a selection of G542X genotype patient derived organoids (PDOs). METHODS: CFTR functional restoration was evaluated in ELX-02 treated G542X homozygous and heterozygous PDOs in the CFTR-dependent FIS assay. CFTR mRNA abundance and integrity were evaluated by qPCR and Nanostring analysis while PDO protein was detected by capillary based size-exclusion chromatography. RESULTS: PDOs homozygous for G542X or heterozygous with a second minimally functional allele had significantly increased CFTR activity with ELX-02 in a dose-dependent fashion across a variety of forskolin induction concentrations. The functional increases are similar to those obtained with tezacaftor/ivacaftor in F508del homozygous PDOs. Increased CFTR C- and B-band protein was observed in accordance with increased function. In addition, ELX-02 treatment of a G542X/G542X PDO results in a 5-fold increase in CFTR mRNA compared with vehicle treated, resulting in normalization of CFTR mRNA as measured via Nanostring. CONCLUSIONS: These data with ELX-02 in PDOs are consistent with previous G542X model evaluations. These results also support the on-going clinical evaluation of ELX-02 as a read-through agent for CF caused by the G542X allele.