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标题：Disruption of FADS2 gene in mice impairs male reproduction and causes dermal and intestinal ulceration
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作者：Chad K. Stroud ; Takayuki Y. Nara ; Manuel Roqueta-Rivera 等
期刊名称：JLR Papers In Press
印刷版ISSN：0022-2275
电子版ISSN：1539-7262
出版年度：2009
卷号：50
期号：9
页码：1870-1880
DOI：10.1194/jlr.M900039-JLR200
语种：English
出版社：American Society for Biochemistry and Molecular Biology
摘要：Delta-6 desaturase (D6D) catalyzes the first step in the synthesis of highly unsaturated fatty acids (HUFA) such as arachidonic (AA), docosapentaenoic (DPAn-6), and docosahexaenoic (DHA) acids, as well as the last desaturation of DPAn-6 and DHA. We created D6D-null mice (−/−), which enabled us to study HUFA deficiency without depleting their precursors. In −/−, no in vivo AA synthesis was detected after administration of [U-¹³C]linoleic acid (LA), indicating absence of D6D isozyme. Unexpectedly, all of the −/− developed ulcerative dermatitis when fed a purified diet lacking D6D products but containing ample LA. The −/− also exhibited splenomegaly and ulceration in duodenum and ileocecal junction. Male −/− lacked normal spermatozoa with a severe impairment of spermiogenesis. Tissue HUFAs in −/− declined differentially: liver AA and DHA by 95%, and a smaller decrease in brain and testes. Dietary AA completely prevented dermatitis and intestinal ulcers in −/−. DPAn-6 was absent in −/− brain under AA supplementation, indicating absence of D6D isozyme for DPAn-6 synthesis from AA. This study demonstrated a distinct advantage of the D6D-null mice (−/−) to elucidate (1) AA function without complication of LA deprivation and (2) DHA function in the nervous system without AA depletion or DPAn-6 replacement seen in traditional models.—Stroud, C. K., T. Y. Nara, M. Roqueta-Rivera, E. C. Radlowski, P. Lawrence, Y. Zhang, B. H. Cho, M. Segre, R. A. Hess, J. T. Brenna, W. M. Haschek, and M. T. Nakamura. Disruption of FADS2 gene in mice impairs male reproduction and causes dermal and intestinal ulceration.
关键词：arachidonic acid ; delta-6 desaturase ; docosahexaenoic acid ; docosapentaenoic acid ; eicosanoid ; essential fatty acid ; FADS3 ; prostaglandin