Crawford Daniel K, Mullenders Jasper, Pott Johanna, Boj Sylvia F, Landskroner-Eiger Shira, Goddeeris Matthew M
Eloxx Pharmaceuticals, Inc., 950 Winter Street, Waltham, MA 02451 USA.
Hubrecht Organoid Technology, Yalelaan 62, 3584 CM Utrecht, the Netherlands.
J Cyst Fibros. 2021 May;20(3):436-442. doi: 10.1016/j.jcf.2021.01.009. Epub 2021 Feb 5.
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).
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.
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.
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.
促进全长蛋白生成是解决囊性纤维化(CF)无义等位基因患者一些尚未满足的医疗需求的必要步骤。在包括人支气管上皮细胞在内的几种不同临床前模型中,ELX-02可促进携带无义突变的mRNA转录本通读,包括最常见的CF无义等位基因G542X。在此,我们使用CFTR依赖性佛司可林诱导肿胀(FIS)试验,在一系列G542X基因型患者来源类器官(PDO)中评估ELX-02介导的通读情况。
在CFTR依赖性FIS试验中,评估ELX-02处理的G542X纯合子和杂合子PDO中的CFTR功能恢复情况。通过qPCR和纳米串分析评估CFTR mRNA丰度和完整性,同时通过基于毛细管的尺寸排阻色谱法检测PDO蛋白。
在多种佛司可林诱导浓度下,G542X纯合子或携带第二个最低功能等位基因的杂合子PDO在ELX-02作用下,CFTR活性呈剂量依赖性显著增加。功能增加与在F508del纯合子PDO中使用tezacaftor/ivacaftor所获得的增加相似。观察到CFTR C带和B带蛋白增加,与功能增加一致。此外,与载体处理相比,ELX-02处理G542X/G542X PDO导致CFTR mRNA增加5倍,通过纳米串测量使CFTR mRNA恢复正常。
这些在PDO中使用ELX-02的数据与先前的G542X模型评估结果一致。这些结果也支持正在进行的将ELX-02作为由G542X等位基因引起的CF的通读剂的临床评估。
