Distinct developmental expression of two elongase family members in zebrafish

Despite the known importance of long-chained polyunsaturated fatty acids (LC-PUFA) during development, very little is known about their utilization and biosynthesis during embryogenesis. Combining the advantages of the existence of a complete range of enzymes required for LC-PUFA biosynthesis and the well established developmental biology tools in zebrafish, we examined the expression patterns of three LC-PUFA biosynthesis genes, Elovl2-like elongase (elovl2), Elovl5-like elongase (elovl5) and fatty acyl desaturase (fad) in different zebrafish developmental stages. The presence of all three genes in the brain as early as 24 hours post fertilization (hpf) implies LC-PUFA synthesis activity in the embryonic brain. This expression eventually subsides from 72 hpf onwards, coinciding with the initiation of elovl2 and fad expression in the liver and intestine, 2 organs known to be involved in adult fish LC-PUFA biosynthesis. Collectively, these patterns strongly suggest the necessity for localized production of LC-PUFA in the brain during in early stage embryos prior to the maturation of the liver and intestine. Interestingly, we also showed a specific expression of elovl5 in the proximal convoluted tubule (PCT) of the zebrafish pronephros, suggesting a possible new role for LC-PUFA in kidney development and function.     

The fatty acid chain elongase,Elovl1, is required for kidney and swim bladder development during zebrafish embryogenesis

Very long chain fatty acids are required for sphingolipid synthesis, lipid homeostasis, myelin formation, epidermal permeability, and retinal function. Seven different enzymes are known to be involved in the elongation cycle of fatty acids, with different chain-length specificities. Elovl1 is one of those enzymes whose function has been linked mainly to the synthesis of sphingolipids and the epidermal barrier. However, the role of Elovl1 in organogenesis is not clear. In zebrafish, 2 Elovl1 genes, elovl1a and elovl1b, are highly expressed in the swim bladder, and elovl1b is also expressed in the kidney. We found that both elovl1 knockdown embryos contain increased levels of long chain fatty acids from carbon number 14 to 20 as compared to control embryos. Oil-Red-O staining shows that yolk lipid consumption is greatly reduced, whereas lipid droplets accumulate within the swim bladder. Notably, knockdown of either elovl1a or elovl1b affects the expression of genes involved in swim bladder development and impairs inflation of the swim bladder. Consistent with its expression in the pronephros, knockdown of elovl1b alone affects the expression of genes required for kidney development and reduces renal clearance. Our findings strongly suggest that both elovl1 genes are a key determinant of swim bladder and kidney development in zebrafish, which may be comparatively applicable to lung and kidney development in humans.     

Temporal and spatial expression of the four Igf ligands and two Igf type 1 receptors in zebrafish during early embryonic development

The insulin-like growth factor (Igf) family is an evolutionarily conserved system essential for normal growth and development in vertebrates. Unlike mammals, four distinct Igf ligands (Igf1, Igf2a, Igf2b and Igf3) and two Igf type 1 receptors (Igf1ra and Igf1rb) are present in zebrafish. However, the localization of these multiple ligands and receptors especially the recently discovered igf3 during early development of zebrafish is poorly understood. In this study, detailed expression patterns of these components of the Igf system during embryogenesis of zebrafish were analyzed. It was found that igf1 is specifically expressed in the trigeminal ganglia region from 18 hpf to 72 hpf, while igf2a is restricted to the caudal regions of the notochord from 14 hpf to 18 hpf as well as in the midbrain, dorsal hind brain and otic vesicle at 24 hpf. On the other hand, igf2a is highly expressed in the midbrain and pharyngeal arch region at 48 hpf, followed by its appearance in the liver and brain at 72 hpf, while igf2b is restricted to the floor plate and hypochord from 12 hpf to 18 hpf, and strong expression is also detected in the midbrain and dorsal hind brain at 24 hpf. The teleost specific igf3 is highly expressed in the pharyngeal arch region before 24 hpf, but is then restricted to the sternohyoideus after 48 hpf. The receptor subtype igf1ra is ubiquitously expressed before 24 hpf but is confined to the brain at 72 hpf. However, igf1rb is widely expressed before 10 hpf, but is more confined to the brain region at 24 hpf and 72 hpf. This dynamic temporal-spatial expression during embryogenesis of zebrafish, together with the unique and overlapping expression patterns of the Igf ligands and receptors suggest the coordination of the divergent functions of the Igf system during early development in zebrafish.     

Rainbow trout (Oncorhynchus mykiss) Elovl5 and Elovl2 differ in selectivity for elongation of omega-3 docosapentaenoic acid

The synthesis of the omega-3 long-chain polyunsaturated fatty acids (LCPUFA)  eicosapentaenoic acid (EPA; 20:5n− 3) and docosahexaenoic acid (DHA; 22:6n − 3) from dietary α-linolenic acid (ALA; 18:3n − 3) requires three desaturation and three elongation steps in vertebrates. The elongation of EPA to docosapentaenoic acid (DPA; 22:5n − 3) can be catalysed by the elongase enzymes Elovl5 or Elovl2, but further elongation of DPA to 24:5n − 3, the penultimate precursor of DHA, is limited to Elovl2, at least in mammals. Elovl5 enzymes have been characterised from seventeen fish species but Elovl2 enzymes have only been characterised in two of these fish. The essentiality of Elovl2 for DHA synthesis is unknown in fish. This study is the first to identify an Elovl2 in rainbow trout (Oncorhynchus mykiss) and functionally characterise the Elovl5 and Elovl2 using a yeast expression system. Elovl5 was active with C_18–20 PUFA substrates and not C₂₂ PUFA. In contrast, Elovl2 was active with C_20–22 PUFA substrates and not C₁₈ PUFA. Thus, rainbow trout is dependent on Elovl2 for DPA to 24:5n − 3 synthesis and ultimately DHA synthesis. The expression of elovl5 was significantly higher than elovl2 in liver. Elucidating this dependence on Elovl2 to elongate DPA and the low elovl2 gene expression compared with elovl5 are critical findings in understanding the potential for rainbow trout to synthesize DHA.     

微小染色体维系蛋白3基因在斑马鱼早期胚胎发育过程中的表达

目的:制备地高辛标记的微小染色体维系蛋白3(MCM3)基因的RNA探针,研究MCM3在斑马鱼早期发育中的时空表达。方法:收集并固定受精后24 h时期的野生型斑马鱼胚胎,提取总RNA,制备DIG标记的MCM3 RNA反义探针,整胚原位杂交,研究MCM3在斑马鱼胚胎早期发育过程的表达。结果:斑马鱼的MCM3氨基酸序列与小鼠、人具有高度同源性,通过不同时期胚胎的原位杂交,发现MCM3在早期发育过程中普遍性表达,胚胎受精后0~2 hMCM3在增殖性区域泛表达,受精后14~22 h在中枢神经系统、发育未成熟的眼部、体节及增殖性区域表达,受精后24 h在血液、中枢神经、翼板中脑、视觉盖及增殖性区域表达,受精后48 h在头部及肛门增殖性区域表达。结论:明确了MCM3在斑马鱼胚胎发育过程中的表达模式,证明其与早期斑马鱼发育细胞增殖密切相关,为研究该基因功能提供了一定的理论基础。