植物乳杆菌制剂对犊牛抗氧化能力的影响

本试验旨在研究不同剂量的植物乳杆菌制剂对犊牛机体抗氧化功能的影响。试验选择体重约50 kg的健康、体况良好的荷斯坦犊牛32头,按照单因素试验处理,将其平均分为4个处理组,每组设8个重复,每个重复为1头荷斯坦犊牛。对照组犊牛饲喂基础日粮,试验组分别在饲喂基础日粮中添加1%、2%和4%的植物乳杆菌制剂。试验饲养犊牛周期为56 d。试验结束后,分别采集各组荷斯坦犊牛的血液,用于检测其血清抗氧化指标。结果表明,与对照组比较,在荷斯坦犊牛养殖生产中添加2%的植物乳杆菌可以使丙二醛水平显著降低24.17%(P<0.05);添加2%和4%的植物乳杆菌可以使荷斯坦犊牛血清中总抗氧化能力显著提高72.03%、56.78%(P<0.05);添加2%和4%的植物乳杆菌可以使荷斯坦犊牛血清中超氧化物歧化酶活性显著提高37.54%、33.17%(P<0.05)。而植物乳杆菌对荷斯坦犊牛血清中的过氧化氢酶和谷胱甘肽过氧化物酶活性未产生显著性的影响(P>0.05)。研究表明,在荷斯坦犊牛养殖中添加适量的植物乳杆菌可有效增强机体的抗氧化能力,综合养殖成本考虑,植物乳杆菌在荷斯坦犊牛生产中的最适添加水平为2%。

植物乳杆菌制剂对断奶仔猪肠道黏膜功能和微生物菌群及短链脂肪酸的影响

[目的]本试验旨在研究植物乳杆菌制剂对苏淮断奶仔猪肠道黏膜营养素转运体、紧密连接蛋白相关基因表达量、微生物菌群数量、短链脂肪酸及乳酸含量的影响。[方法]选取胎次和体质量(9.34 kg)相近的28日龄健康苏淮断奶仔猪144头,按饲喂日粮随机分为对照组(基础日粮)、抗生素组(基础日粮+抗生素)、植物乳杆菌制剂组(基础日粮+植物乳杆菌制剂),每组6个重复,每个重复8头仔猪。预饲期3 d,仔猪32日龄开始试验,59日龄试验结束时屠宰采样。采集十二指肠、空肠、回肠组织及黏膜样品分别用于黏膜营养素转运体和紧密连接蛋白相关基因表达量分析;分别收集盲肠和结肠食糜,测定短链脂肪酸和乳酸含量,RT-qPCR分析微生物菌群数量。[结果]与对照组相比,植物乳杆菌制剂组可显著上调十二指肠PepT1、空肠SGLT-1和PepT1以及回肠SGLT-1基因的相对表达量(P<0.05),与抗生素组相比,植物乳杆菌对各基因的相对表达量均无显著影响(P>0.05);与对照组和抗生素组相比,植物乳杆菌制剂组可显著上调十二指肠Occludin、空肠和回肠Occludin和ZO-1基因的相对表达量(P<0.05),而对十二指肠、空肠、回肠其他基因无明显影响(P>0.05);与对照组相比,植物乳杆菌制剂组可显著增加盲肠丁酸、结肠丁酸和乳酸的含量(P<0.05),而对乙酸和丙酸无显著影响(P>0.05);显著减少大肠杆菌数量(P<0.05),显著增加结肠乳酸杆菌和梭菌ⅩⅣa群的数量(P<0.05);相较于抗生素组,植物乳杆菌制剂可显著提高盲肠乳酸、结肠乳酸和丁酸含量以及盲肠和结肠中乳酸杆菌的数量(P<0.05)。[结论]仔猪断奶时饲喂植物乳杆菌制剂可调节肠道黏膜营养素转运体及紧密连接蛋白相关基因表达量,提高短链脂肪酸和乳酸含量,促进肠道有益菌如乳酸杆菌、梭菌ⅩⅣa群的增殖,减少病原菌如大肠杆菌数量,从而促进肠道健康,缓解断奶应激。

Antimelanogenic effects of Inula britannica flower petal extract fermented by Lactobacillus plantarum KCCM 11613P

The inhibitory effects of Lactobacillus plantarum-fermented and non-fermented Inula britannica extracts on the tyrosinase activity were comparatively investigated to examine whether and how they improve the whitening activity, and the contents of total flavonoids and polyphenolics as bioactive compounds were determined. The skin whitening activity using in vitro or ex vivo tyrosinase and L-3,4-dihydroxyphenylalanine(L-DOPA) staining was examined. The total flavonoid content(TFC) was increased by 13.4% after 72h-fermentation. The viabilities of the B16F10 cells treated with the fermented and non-fermented control extracts were 100.26% and 92.15% at 500μg/ml, respectively. In addition, the inhibition of tyrosinase activity was increased by the fermented samples from 29.33% to 41.74% following fermentation for up to 72h. The tyrosinase activity of the untreated control group was increased to 145.69% in B16F10 cells. The results showed that I. britannica fermented by L. plantarum dose-dependently inhibited tyrosinase activity, which was stimulated by α-melanocyte stimulating hormone. These results suggest that lactic fermented I. britannica extracts can be used as effective skin-whitening materials.