Genetic compensation in podocalyxin-like mutants during zebrafish liver development

Hepatic stellate cells (HSCs) are critical for normal liver development and regeneration. Podocalyxin-like (podxl) is highly expressed in zebrafish HSCs, but its role in liver development is not known. Here we report that podxl knockdown using CRISPR/Cas9 (“CRISPants”) significantly decreased HSC number in zebrafish larvae at different time points and in two independent HSC reporter lines, supporting a role for podxl in HSC development. We generated five podxl mutants, including two mutants lacking the predicted podxl promoter region, and found that none of the mutants recapitulated the knockdown phenotype. Podxl CRISPR/Cas9 injection in mutants lacking the podxl guide RNA cut site did not affect HSC number, supporting the hypothesis that the CRISPant phenotype was specific, requiring intact podxl. Podxl mRNA levels in three podxl mutants were similar to those of wildtype controls. RNA sequencing of podxl mutants and controls showed no significant change in transcript levels of genes with sequence similarity to podxl , but it revealed upregulation of a network of extracellular matrix genes in podxl mutants. These results support a role for podxl in zebrafish liver development and suggest that upregulation of a group of functionally related genes represents the main mechanism of compensation for podxl genomic loss.