Japanese medaka (Oryzias latipes) Nectin4 plays an important role against red spotted grouper nervous necrosis virus infection.

Nectins are adhesion molecules that play a crucial role in the organization of epithelial and endothelial junctions and function as receptors for the entry of herpes simplex virus. However, the role of Nectin4 remains poorly understood in fish. In this study, nectin4 gene was cloned from medaka (OlNectin4). OlNectin4 was located on chromosome 18 and contained 11 exons, with a total genome length of 25754 bp, coding sequences of 1689 bp, coding 562 amino acids and a molecular weight of 65.5 kDa. OlNectin4 contained four regions, including an Immunoglobulin region, an Immunoglobulin C-2 Type region, a Transmembrane region and a Coiled coil region. OlNectin4 shared 47.18 % and 25.00 % identity to Paralichthys olivaceus and Mus musculus, respectively. In adult medaka, the transcript of nectin4 was predominantly detected in gill. During red spotted grouper nervous necrosis virus (RGNNV) infection, overexpression of OlNectin4 in GE cells significantly increased viral gene transcriptions. Meanwhile, Two mutants named OlNectin4△4 (+4 bp) and OlNectin4△7 (-7 bp) medaka were established using CRISPR-Cas9 system. Nectin4-KO medaka had higher mortality than WT after infected with RGNNV. Moreover, the expression of RGNNV RNA2 gene in different tissues of the Nectin4-KO were higher than WT medaka after challenged with RGNNV. The brain and eye of Nectin4-KO medaka which RGNNV mainly enriched, exhibited significantly higher expression of interferon signaling genes than in WT. Taken together, the OlNectin4 plays a complex role against RGNNV infection by inducing interferon responses for viral clearance.

Japanese medaka Olpax6.1 mutant as a potential model for spondylo-ocular syndrome.

pax6 is a canonic master gene for eye formation. Knockout of pax6 affects the development of craniofacial skeleton and eye in mice. Whether pax6 affects the development of spinal bone has not been reported yet. In the present study, we used CRISPR/Cas9 system to generate Olpax6.1 mutant in Japanese medaka. Phenotype analysis showed that ocular mutation caused by the Olpax6.1 mutation occurred in the homozygous mutant. The phenotype of heterozygotes is not significantly different from that of wild-type. In addition, knockout Olpax6.1 resulted in severe curvature of the spine in the homozygous F2 generation. Comparative transcriptome analysis and qRT-PCR revealed that the defective Olpax6.1 protein caused a decrease in the expression level of sp7, col10a1a, and bglap, while the expression level of xylt2 did not change significantly. The functional enrichment of differentially expressed genes (DEGs) using the Kyoto Encyclopedia of Genes and Genomes database showed that the DEGs between Olpax6.1 mutation and wild-type were enriched in p53 signaling pathway, extracellular matrix (ECM) -receptor interaction, et al. Our results indicated that the defective Olpax6.1 protein results in the reduction of sp7 expression level and the activation of p53 signaling pathway, which leads to a decrease in the expression of genes encoding ECM protein, such as collagen protein family and bone gamma-carboxyglutamate protein, which further inhibits bone development. Based on the phenotype and molecular mechanism of ocular mutation and spinal curvature induced by Olpax6.1 knockout, we believe that the Olpax6.1-/- mutant could be a potential model for the study of spondylo-ocular syndrome.