| Literature DB >> 31187491 |
Yong-Il Kim1, In-Koo Nam1,2, Dong-Kyu Lee3, Sushil Bhandari1, Lennart Charton4, SeongAe Kwak5, Jae-Young Lim1,2, KwangHeum Hong1, Se-Jin Kim2, Joon No Lee2, Sung Won Kwon3, Hong-Seob So1, Nicole Linka4, Raekil Park2, Seong-Kyu Choe1,6.
Abstract
Slc25a17 is known as a peroxisomal solute carrier, but the in vivo role of the protein has not been demonstrated. We found that the zebrafish genome contains two slc25a17 genes that function redundantly, but additively. Notably, peroxisome function in slc25a17 knockdown embryos is severely compromised, resulting in an altered lipid composition. Along the defects found in peroxisome-associated phenotypic presentations, we highlighted that development of the swim bladder is also highly dependent on Slc25a17 function. As Slc25a17 showed substrate specificity towards coenzyme A (CoA), injecting CoA, but not NAD+ , rescued the defective swim bladder induced by slc25a17 knockdown. These results indicated that Slc25a17 acts as a CoA transporter, involved in the maintenance of functional peroxisomes that are essential for the development of multiple organs during zebrafish embryogenesis. Given high homology in protein sequences, the role of zebrafish Slc25a17 may also be applicable to the mammalian system.Entities:
Keywords: coenzyme A transporter; peroxisomes; solute carrier family 25 member 17; swim bladder; zebrafish
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Year: 2019 PMID: 31187491 DOI: 10.1002/jcp.28954
Source DB: PubMed Journal: J Cell Physiol ISSN: 0021-9541 Impact factor: 6.384