Perera Erick, Yúfera Manuel
Instituto de Ciencias Marinas de Andalucía (ICMAN-CSIC) , Cádiz, Spain.
Zebrafish. 2016 Feb;13(1):61-9. doi: 10.1089/zeb.2015.1131. Epub 2015 Dec 30.
There is now strong evidence that early nutrition plays an important role in shaping later physiology. We assessed here whether soy protein concentrate (SPC) or soybean meal (SBM) in early diet would modify zebrafish responses to these products in later life. We fed zebrafish larvae with SPC-, SBM-, or a control-diet for the first 3 days of feeding and then grew all larvae on the control diet up to juveniles. Finally, we assessed the expression in juveniles of genes involved in inflammation/immunity, the breakdown of extracellular matrix, luminal digestion, and intestinal nutrient absorption/trafficking. First feeding SBM had wider, stronger, and more persistent effects on gene expression with respect to SPC. Juveniles fed with SPC at first feeding were more prone to inflammation after refeeding with SPC than fish that never experienced SPC before. Conversely, zebrafish that faced SBM at first feeding were later less responsive to refeeding with SBM through inflammation and had higher expression of markers of peptide absorption and fatty acid transport. Results indicate that some features of inflammation/remodeling, presumably at the intestine, and nutrient absorption/transport in fish can be programmed by early nutrition. These findings sustain the rationale of using zebrafish for depicting molecular mechanisms involved in nutritional programming.
现在有强有力的证据表明,早期营养在塑造后期生理机能方面起着重要作用。我们在此评估了早期饮食中的大豆浓缩蛋白(SPC)或豆粕(SBM)是否会改变斑马鱼在后期生活中对这些产品的反应。在喂食的前3天,我们用SPC、SBM或对照饮食喂养斑马鱼幼虫,然后将所有幼虫在对照饮食中饲养至幼鱼阶段。最后,我们评估了幼鱼中参与炎症/免疫、细胞外基质分解、腔内消化以及肠道营养吸收/运输的基因的表达情况。相较于SPC,首次喂食SBM对基因表达具有更广泛、更强且更持久的影响。首次喂食SPC的幼鱼在再次喂食SPC后比从未接触过SPC的鱼更易发生炎症。相反,首次喂食SBM的斑马鱼在后期再次喂食SBM时,通过炎症反应表现出较低的反应性,并且肽吸收和脂肪酸转运标志物的表达更高。结果表明,鱼类炎症/重塑(可能在肠道)以及营养吸收/运输的一些特征可由早期营养编程。这些发现支持了利用斑马鱼来描述营养编程所涉及分子机制的基本原理。
