Transcriptional Responses of Copper-Transport-Related Genes ctr1, ctr2 and atox1 and Their Roles in the Regulation of Cu Homeostasis in Yellow Catfish Pelteobagrus fulvidraco

Abstract

Here, we characterized the function of ctr1, ctr2 and atox1 promoters in yellow catfish Pelteobagrus fulvidraco, a common freshwater teleost in Asian countries. We obtained 1359 bp, 1842 bp and 1825 bp sequences of ctr1, ctr2 and atox1 promoters, and predicted key transcription factor binding sites on their promoters, including MRE, SREBP1, NRF2, KLF4 and STAT3. Cu differentially influenced the activities of ctr1, ctr2 and atox1 promoters from different regions. We found that the −326/−334 bp and −1232/−1240 bp locus in the atox1 promoter were functional NRF2 binding sites, which negatively controlled the activity of the atox1 promoter. The −91/−100 bp locus in the ctr1 promoter and −232/−241 bp and −699/−708 bp locus in the atox1 promoter were functional SREBP1 binding sites, which positively controlled the activities of ctr1 and atox1 promoters. Cu inhibited the NRF2 binding ability to the atox1 promoter, but promoted the SREBP1 binding ability to the ctr1 and atox1 promoters. Dietary Cu excess significantly down-regulated hepatic mRNA and total protein expression of CTR1, CTR2 and ATOX1 of yellow catfish, compared to the adequate dietary Cu group. The subcellular localization showed that CTR1 was mainly localized on the cell membrane, CTR2 in the cell membrane and the lysosome, and ATOX1 in the cytoplasm. In conclusion, we demonstrated the regulatory mechanism of three Cu transporters at the transcription levels, and found the functional NRF2 and SREBP1 response elements in ctr1, ctr2 and atox1 promoters, which provided new insights into their roles in the regulation of Cu homeostasis in fish.