昆虫活幼虫作为鸭的新营养模型:对肠道健康的影响。

IF 4.9 Q1 MICROBIOLOGY
Elena Colombino, Marta Gariglio, Ilaria Biasato, Ilario Ferrocino, Sara Pozzo, Emma Fragola, Elena Battisti, Stefania Zanet, Ezio Ferroglio, Maria Teresa Capucchio, Achille Schiavone
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引用次数: 0

摘要

背景:本研究旨在评估作为一种新的营养模型的Hermetia illucens(黑兵蝇-BSF)和Tenebrio molitor(黄粉虫-YMW)活幼虫对鸭肠道健康的影响,包括肠道组织形态测量、粘蛋白组成、细胞因子转录水平和微生物群。将 126 只 3 日龄的雌性莫斯科鸭随机分配到三种日粮处理中(每种处理 6 个重复,每栏 7 只):(i) C:基础日粮;(ii) BSF:C + BSF 活幼虫;(iii) YMW:C + YMW 活幼虫。BSF 和 YMW 活幼虫是在基础日粮基础上添加的,以预期日饲料摄入量的 5%为基础。对整个实验期间的活重、平均日增重、平均日采食量和饲料转化率进行了评估。第 52 天,宰杀每个处理的 12 只鸭子(2 只/重复),收集十二指肠、空肠、回肠、脾脏、肝脏、胸腺和法氏囊样本,进行组织形态测定。通过组织化学染色评估小肠粘蛋白的组成,同时通过 rt-qPCR 评估空肠 MUC-2 和细胞因子的转录水平。还通过 16 S rRNA 基因测序分析了盲肠微生物群:结果:鸟类的生长性能和组织形态学不受日粮的影响,从十二指肠到回肠呈近端-远端递减梯度(p 结论):使用 BSF 和 YMW 活幼虫作为新的营养模型不会影响高加索鸭的肠道发育和粘蛋白组成,但通过提高调节细胞因子 IL-6 和增加参与短链脂肪酸生产的次要操作分类单元 (OTU),略微改善了肠道免疫状态和微生物群组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Insect live larvae as a new nutritional model in duck: effects on gut health.

Background: This study aimed to evaluate the effects of Hermetia illucens (Black soldier fly-BSF) and Tenebrio molitor (Yellow mealworm-YMW) live larvae as a new nutritional model on duck's gut health, considering gut histomorphometry, mucin composition, cytokines transcription levels, and microbiota. A total of 126, 3-days-old, females Muscovy ducks were randomly allotted to three dietary treatments (6 replicates/treatment, 7 birds/pen): (i) C: basal diet; (ii) BSF: C + BSF live larvae; (iii) YMW: C + YMW live larvae. BSF and YMW live larvae were administered on top of the basal diet, based on the 5% of the expected daily feed intake. The live weight, average daily gain, average daily feed intake and feed conversion ratio were evaluated for the whole experimental period. On day 52, 12 ducks/treatment (2 birds/replicate) were slaughtered and samples of duodenum, jejunum, ileum, spleen, liver, thymus and bursa of Fabricius were collected for histomorphometry. Mucin composition was evaluated in the small intestine through histochemical staining while jejunal MUC-2 and cytokines transcription levels were evaluated by rt-qPCR. Cecal microbiota was also analyzed by means of 16 S rRNA gene sequencing.

Results: Birds' growth performance and histomorphometry were not influenced by diet, with a proximo-distal decreasing gradient from duodenum to ileum (p < 0.001), respecting the physiological gut development. Mucin staining intensity and MUC-2 gene expression did not vary among dietary treatments, even though mucin intensity increased from duodenum to ileum, according to normal gut mucus physiology (p < 0.001). Regarding local immune response, IL-6 was higher in YMW group when compared to the other groups (p = 0.009). Insect live larvae did not affect cecal microbiota diversity, but BSF and YMW groups showed a higher presence of Helicobacter, Elusimicrobium, and Succinatimonas and a lower abundance of Coriobacteriaceae and Phascolarctobacterium compared to C birds (p < 0.05).

Conclusions: The use of BSF and YMW live larvae as new nutritional model did not impair gut development and mucin composition of Muscovy ducks, but slightly improved the intestinal immune status and the microbiota composition by enhancing regulatory cytokine IL-6 and by increasing minor Operational Taxonomic Units (OTUs) involved in short-chain fatty acids production.

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