Abstract
Arachidonic (20:4(n-6)), eicosapentaenoic (20:5(n-3)), and docosahexaenoic (22:6(n-3)) acids are major components of brain and retina phospholipids, substrates for eicosanoid production, and regulators of nuclear transcription factors. One of the two rate-limiting steps in the production of these polyenoic fatty acids is the desaturation of 20:3(n-6) and 20:4(n-3) by Delta-5 desaturase. This report describes the cloning and expression of the human Delta-5 desaturase, and it compares the structural characteristics and nutritional regulation of the Delta-5 and Delta-6 desaturases. The open reading frame of the human Delta-5 desaturase encodes a 444-amino acid peptide which is identical in size to the Delta-6 desaturase and which shares 61% identity with the human Delta-6 desaturase. The Delta-5 desaturase contains two membrane-spanning domains, three histidine-rich regions, and a cytochrome b(5) domain that all align perfectly with the same domains located in the Delta-6 desaturase. Expression of the open reading frame in Chinese hamster ovary cells instilled the ability to convert 20:3(n-6) to 20:4(n-6). Northern analysis revealed that many human tissues including skeletal muscle, lung, placenta, kidney, and pancreas expressed Delta-5 desaturase mRNA, but Delta-5 desaturase was most abundant in the liver, brain, and heart. However, in all tissues, the abundance of Delta-5 desaturase mRNA was much lower than that observed for the Delta-6 desaturase. When rats were fed a diet containing 10% safflower oil or menhaden fish oil, the level of hepatic mRNA for Delta-5 and Delta-6 desaturase was only 25% of that found in the liver of rats fed a fat-free diet or a diet containing triolein. Finally, a BLAST and Genemap search of the human genome revealed that the Delta-5 and Delta-6 desaturase genes reside in reverse orientation on chromosome 11 and that they are separated by <11,000 base pairs.
Highlights
Long chain polyenoic fatty acids such as 20:4(n-6) and 22: 6(n-3) play pivotal roles in a number of biological functions including brain development, cognition, reproduction, inflammatory responses, and hemostasis [1,2,3,4,5,6]
In addition to being vital components of membrane phospholipids and functioning in key steps of cell signaling, 20- and 22-carbon polyenoic fatty acids govern the expression of a wide array of genes, including those encoding proteins involved with lipid metabolism, thermogenesis, and cell differentiation [13,14,15,16,17,18,19]
Studies based upon enzymatic activity suggest that the liver is the primary site for 20-carbon polyenoic fatty acid synthesis because the liver is the organ with the greatest amount of ⌬-6 and ⌬-5 desaturase activity [23, 24]
Summary
Long chain polyenoic fatty acids such as 20:4(n-6) and 22: 6(n-3) play pivotal roles in a number of biological functions including brain development, cognition, reproduction, inflammatory responses, and hemostasis [1,2,3,4,5,6]. Consistent with the predicted exon sequences found in chromosome 11, sequence analysis of the cDNA obtained from PCR screening of the retina library confirmed that the apparent desaturase transcript shared 75% nucleotide homology with the human ⌬-6 desaturase.
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