CRISPR/Cas9 gene editing of a SOX9 reporter human iPSC line to produce two TRPV4 patient heterozygous missense mutant iPSC lines, MCRIi001-A-3 (TRPV4 p.F273L) and MCRIi001-A-4 (TRPV4 p.P799L).

To produce in vitro models of human chondrodysplasias caused by dominant missense mutations in TRPV4, we used CRISPR/Cas9 gene editing to introduce two heterozygous patient mutations (p.F273L and p.P799L) into an established control human iPSC line. This control line expressed a fluorescent reporter (tdTomato) at the SOX9 locus to allow real-time monitoring of cartilage differentiation by SOX9 expression. Both TRPV4 mutant iPSC lines had normal karyotypes, expressed pluripotency markers, and could differentiate into cells representative of the three embryonic germ layers. These iPSC lines, with the parental isogenic control, will be used to study TRPV4 chondrodysplasia mechanisms and explore therapeutic approaches.

Generation of a heterozygous COL2A1 (p.R989C) spondyloepiphyseal dysplasia congenita mutation iPSC line, MCRIi001-B, using CRISPR/Cas9 gene editing.

To produce an in vitro model of the human chondrodysplasia, spondyloepiphyseal dysplasia congenita, we used CRISPR/Cas9 gene editing to generate a heterozygous patient COL2A1 mutation in an established control human iPSC line. The gene-edited heterozygous COL2A1 p.R989C line had a normal karyotype, expressed pluripotency markers, and could differentiate into cells representative of the three embryonic germ layers. When differentiated into cartilage this cell line and the parental isogenic control may be used to explore disease mechanisms and evaluate therapeutic approaches.

Generation of a SOX9-tdTomato reporter human iPSC line, MCRIi001-A-2, using CRISPR/Cas9 editing.

To develop an iPSC SOX9 reporter line for monitoring differentiation into SOX9 expressing cells such as chondrocytes, cranial neural crest and Sertoli cells, we used gene editing to introduce sequences encoding the tdTomato fluorescent protein into the SOX9 locus. The gene-edited line had a normal karyotype, expressed pluripotency markers and differentiated into cells representative of the three embryonic germ layers. Endogenous SOX9 expression was undisturbed and the tdTomato fluorescent reporter mirrored SOX9 mRNA expression. This iPSC line will be useful for assessing iPSC differentiation into SOX9-expressing cells and enrichment by cell sorting.