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1.
本试验旨在探讨饲粮中添加刺五加多糖(Acanthopanax senticosus polysaccharide,ASPS)对脂多糖(LPS)免疫应激断奶仔猪生长性能和血液生理生化指标的影响。试验采用2×2两因素设计,即饲粮处理(添加0或800 mg/kg ASPS)和免疫应激处理(注射LPS或生理盐水)。将64头(28±3)日龄、平均体重为(7.22±0.46)kg的"杜×长×大"三元杂交断奶仔猪随机分为4个处理,其中处理1和2饲喂基础饲粮(添加0 mg/kg ASPS),处理3和4饲喂试验饲粮(添加800 mg/kg ASPS),试验第14和21天,处理2和4仔猪腹腔注射100μg/kg BWLPS,处理1和3仔猪腹腔注射等量生理盐水。注射后3 h采血,测定血液生理生化指标。试验期21 d。结果表明:试验1~14 d,饲喂ASPS对未注射LPS的仔猪生长性能无显著影响(P>0.05);试验15~21 d,饲喂ASPS显著增加仔猪的平均日增重(ADG)和平均日采食量(ADFI)(P<0.05),且饲喂ASPS使注射LPS的仔猪ADG和ADFI显著增加(P<0.05),但对注射生理盐水的仔猪无显著影响(P>0.05)。饲喂ASPS对仔猪ADG的影响与LPS刺激存在显著互作关系(P<0.05)。试验第14天,饲喂ASPS显著提高了仔猪外周血淋巴细胞数量(P<0.05),对外周血淋巴细胞数量的影响与LPS刺激存在显著的互作关系(P<0.05),且饲喂ASPS能显著增加注射LPS的仔猪外周血淋巴细胞数量(P<0.05),但对注射生理盐水的仔猪无显著影响(P>0.05)。试验第14和21天,饲喂ASPS显著降低了仔猪血浆α-酸性糖蛋白(α-AGP)、葡萄糖、前列腺素E2(PGE2)含量(P<0.05),显著提高了血浆白细胞介素-2(IL-2)含量(P<0.05),且其对α-AGP、IL-2、PGE2含量的影响与LPS刺激存在显著的互作关系(P<0.05),饲喂ASPS能显著降低注射LPS的仔猪血浆α-AGP、PGE2含量(P<0.05),但对注射生理盐水的仔猪无显著影响(P>0.05)。由此可见,饲喂ASPS对非免疫应激断奶仔猪的生长性能无影响,但可以缓解免疫应激断奶仔猪的生长抑制,ASPS缓解免疫应激断奶仔猪生长抑制与降低其血浆α-AGP和PGE2含量,提高外周血淋巴细胞数量和血浆IL-2含量有关。 相似文献
2.
试验研究了乙酰半胱氨酸(NAC)对脂多糖(LPS)多次刺激造成的免疫应激仔猪炎性介质的影响,旨在探讨NAC是否有缓解仔猪免疫应激的作用。选取来源一致、体重相近的18头健康仔猪[杜洛克×长白×大白,体重(11.58±0.26)kg],随机分成3个处理(对照组、LPS组和NAC组),每个处理6个重复,每个重复1头猪。对照组和LPS组饲喂基础日粮,试验组(NAC组)为基础日粮+500 mg/kg NAC,LPS组和NAC组仔猪分别于试验的第101、3、20 d腹膜注射100μg/kg BW的LPS,对照组注射等量的灭菌生理盐水。试验第10、20 d在注射LPS 3 h后前腔静脉采血,测定血浆TNF-α、CORI、L-6和PGE2含量。试验结果显示:日粮中添加NAC显著缓解了LPS刺激导致的血浆(第10 d)和血浆(第20 d)中TNF-α、CORI、L-6和PGE2含量的升高(P<0.05)。由此可见,在本试验条件下,LPS刺激引起仔猪血浆中炎性介质升高,日粮中添加500 mg/kg NAC缓解LPS导致的血浆中炎性介质的升高,缓解免疫应激,最终可能缓解LPS刺激引起的生长抑制。 相似文献
3.
牛膝多糖对脂多糖免疫应激仔猪血液生化指标和白细胞分类计数的影响 总被引:2,自引:1,他引:1
试验旨在探讨牛膝多糖(ABPS)对脂多糖(LPS)刺激的断奶仔猪血液生化指标和白细胞分类计数的影响。选用48头(28±3)d、体重(8.45±0.14)kg的杜洛克×长白×大白断奶仔猪,采用2×2因子设计,两个因子分别为不同日粮处理(0或500mg/kgABPS)和免疫应激(注射LPS或生理盐水)。试验期28d。在第14天和第21天,每日粮组的一半猪注射100μg/kgBW的LPS,另一半注射生理盐水作对照。注射后3h,采血测定血液生化指标,并进行白细胞分类计数。结果表明:LPS刺激提高了第14天和第21天血清中碱性磷酸酶、谷草转氨酶(GOT)的活性及谷草转氨酶与谷丙转氨酶的比值(P0.05),并降低了第21天血清总蛋白和白蛋白的含量(P0.05);ABPS提高了第14天血清总蛋白和球蛋白的含量(P0.05)。在第14天,LPS刺激降低了白细胞、淋巴细胞、单核细胞和中性粒细胞的含量及单核细胞比例(P0.001)。在第21天,LPS刺激降低了白细胞、淋巴细胞的含量及比例,而提高了中性粒细胞比例(P0.001)。ABPS提高了白细胞(14d:P0.10)和中性粒细胞(14d:P0.05;21d:P0.05)的含量及中性粒细胞比例(14d:P0.05;21d:P0.10),降低了淋巴细胞比例(14d:P0.05;21d:P0.10)。结果提示,LPS可引起仔猪血液生化指标和白细胞分类计数发生显著变化,ABPS在一定程度可缓解上述现象,表现出一定的改善免疫和缓解炎症的作用。 相似文献
4.
脂多糖刺激对断奶仔猪下丘脑-垂体-肾上腺轴PPARγ表达的影响 总被引:1,自引:0,他引:1
研究脂多糖(LPS)对断奶仔猪下丘脑-垂体-肾上腺(HPA)轴过氧化物酶体增殖物活化受体γ(PPARγ)表达的影响。对照组注射生理盐水,试验组注射LPS。注射后1.5 h和3 h采血,3 h采血后屠宰。结果表明:LPS刺激后1.5 h,中性粒细胞含量及其比例显著下降(P<0.05);LPS刺激后3 h,白细胞、淋巴细胞、中性粒细胞含量显著下降(P<0.05)。LPS刺激后1.5 h,血浆肿瘤坏死因子(TNF)-α、皮质醇和促肾上腺皮质激素释放素激素(CRH)含量显著上升(P<0.05);LPS刺激后3 h,血浆TNF-α、皮质醇和促肾上腺皮质激素(ACTH)含量显著上升(P<0.05);LPS刺激导致下丘脑、腺垂体、肾上腺皮质和髓质中PPARγ阳性细胞百分率显著升高(P<0.05)。这表明LPS导致免疫应激,激活HPA轴,诱导HPA轴PPARγ的表达。 相似文献
5.
研究N-乙酰半胱氨酸(NAC)对脂多糖(LPS)刺激仔猪免疫应激的影响。选取18头健康仔猪,随机分成3个处理(对照组、LPS组和NAC组),每个处理6个重复。对照组和LPS组饲喂基础日粮,NAC组饲喂基础日粮+500 mg/kgNAC。试验期为20 d。LPS组和NAC组于试验第10、13、20天腹膜注射100μg/kg BW的LPS,对照组注射相应剂量的灭菌生理盐水。第10、20天注射LPS后3 h采血,第21天屠宰,取小肠黏膜。结果表明:NAC缓解了LPS刺激导致的血浆和小肠黏膜中TNF-α、IL-6、PGE2含量的升高(P<0.05),缓解了小肠黏膜HSP70相对表达量的升高(P<0.05)。由此可见,日粮中添加500 mg/kg NAC可有效抑制LPS刺激导致的血浆及小肠黏膜中炎性因子的升高,缓解免疫应激。 相似文献
6.
本试验旨在研究在正常与免疫应激条件下添加恩拉霉素对仔猪的作用效果及安全性。将36头21日龄断奶、健康、DLY阉公仔猪随机分为3个处理,每个处理12个重复;分别饲喂基础日粮及在基础日粮中添加5、80 mg/kg恩拉霉素日粮(加药期),21 d后,各组均饲喂基础日粮(停药期),7 d后,每处理随机取出6头仔猪腹腔注射LPS 200μg/kg体重(应激期),剩余6头仔猪腹腔注射等量生理盐水。分别于应激前和应激后2.5 h、3 d采血。结果表明:日粮添加5 mg/kg和80 mg/kg恩拉霉素不同程度提高0~7、8~14、15~21 d和0~21 d仔猪的日增重和采食量,而对饲料增重比无影响;前期添加恩拉霉素组仔猪的生产性能在停药期仍略优于对照组;LPS应激导致仔猪平均日增重和平均日采食量显著下降(P<0.05);加药期添加恩拉霉素可显著提高应激期仔猪平均日采食量(P<0.05)。注射LPS前,各组血清理化指标没有显著差异(P>0.05);注射LPS 2.5 h后,血清丙二醛、皮质醇和IGF-1的含量显著提高(P<0.05);注射LPS3 d后,血清IGF-1浓度显著提高(P<0.01),NO浓度显著降低(P<0.01),皮质醇浓度有提高的趋势(P<0.1);日粮添加恩拉霉素显著降低了血清中IGF-1的浓度(P<0.01),与LPS具有显著互作效应(P<0.05)。 相似文献
7.
试验研究日粮添加1%α-酮戊二酸(AKG)对多次脂多糖(LPS)刺激断奶仔猪空肠黏膜蛋白、RNA、DNA浓度和抗氧化能力的影响。选用24头健康杜洛克×长白×大白(7.25±0.23)kg断奶仔猪,随机分成3个处理,每个处理8个重复,公、母各半。对照组和LPS组饲喂基础日粮+1%淀粉、AKG组饲喂基础日粮+1%AKG,在试验第10、12、14、16天分别在LPS组和AKG组仔猪的腹膜注射80μg/kgBW脂多糖,对照组注射相应剂量的灭菌生理盐水。第17天清晨屠宰空腹仔猪,刮取空肠黏膜待测。结果表明:多次LPS刺激显著降低断奶仔猪空肠黏膜RNA/DNA、蛋白/DNA、蛋白质浓度及SOD活性(P<0.05),显著升高MDA含量(P<0.05),而日粮中添加AKG能在一定程度上抑制LPS刺激引起的空肠黏膜蛋白合成减少和抗氧化能力降低,维持肠道屏障完整性。 相似文献
8.
《黑龙江畜牧兽医》2020,(3)
为评价黄芩苷的抗炎作用,研究黄芩苷对脂多糖(LPS)刺激后仔猪血清中炎性因子表达的影响,试验选取36头健康状况良好、体重(11.0±1.2) kg的"杜×长×大"断奶仔猪,随机分为阴性对照组、LPS组、氟尼辛葡甲胺组和黄芩苷组(黄芩苷剂量分别为按体重25,50,100 mg/kg添加)6组。饲喂7 d后,氟尼辛葡甲胺组和黄芩苷组提前0.5 h肌肉注射给药,然后与LPS组一起按体重0.1 mg/kg腹腔注射LPS,阴性对照组腹腔注射等量生理盐水,注射LPS 6 h后再次给药1次。检测注射LPS后3,24小时时猪血清中炎性因子TNF-α、IL-1β、IL-6和IL-8的含量,并于注射LPS 24 h后检测血管和腹膜中炎性因子TNF-α、IL-1β、IL-6和IL-8的基因表达量。结果表明:LPS刺激仔猪3 h后,LPS组血清中TNF-α、IL-1β、IL-6和IL-8的含量显著或极显著增加(P0.05或P0.01),氟尼辛葡甲胺能显著抑制血清中IL-6含量的升高(P0.05),黄芩苷能显著或极显著抑制血清中TNF-α、IL-1β、IL-6和IL-8含量的升高(P0.05或P0.01);LPS刺激仔猪24 h后,LPS组血清中TNF-α含量极显著增加(P0.01),氟尼辛葡甲胺对血清中TNF-α、IL-1β、IL-6和IL-8含量升高无显著抑制作用(P0.05),100 mg/kg黄芩苷能极显著抑制血清中TNF-α、IL-6和IL-8含量的升高(P0.01),显著抑制IL-1β含量的升高(P0.05)。LPS刺激24 h后,仔猪血管和腹膜中TNF-α、IL-1β、IL-6和IL-8基因的表达显著或极显著上调(P0.05或P0.01);氟尼辛葡甲胺和黄芩苷能显著或极显著抑制血管中TNF-α、IL-1β、IL-6和IL-8基因表达上调(P0.05或P0.01);氟尼辛葡甲胺和黄芩苷能显著抑制腹膜中TNF-α、IL-1β、IL-6基因表达上调(P0.05)。说明黄芩苷能有效地抑制LPS刺激后仔猪血清中炎性因子的分泌及血管和腹膜组织中相关基因的表达。 相似文献
9.
为研究复合植物精油(OCT)对脂多糖(LPS)刺激断奶仔猪肠道结构和抗氧化能力的影响,本试验选取28日龄左右健康的杜×长×大三元杂交仔猪24头,按照体重相近原则随机分为3个处理组:对照组、LPS组和OCT组。对照组和LPS组仔猪饲喂基础日粮,OCT组仔猪饲喂基础日粮+50 mg/kg OCT。试验期21 d。于试验第21天,LPS组和OCT组仔猪注射LPS(100μg/(kg·BW)),对照组仔猪注射等量生理盐水。LPS或生理盐水注射后3 h采血;6 h后,屠宰全部仔猪取肠道样品测定有关指标。结果表明,与对照组相比,LPS组仔猪空肠绒毛高度/隐窝深度有降低趋势(P>0.05),回肠绒毛高度及绒毛高度/隐窝深度显著降低(P<0.05);血浆过氧化氢酶(CAT)活性、血浆和空肠超氧化物歧化酶(SOD)活性显著降低(P<0.05),空肠诱导型一氧化氮合酶(iNOS)活性、血浆和回肠H_2O_2含量显著上升(P<0.05)。与LPS组相比,OCT组仔猪空肠绒毛高度、空肠绒毛高度/隐窝深度和回肠绒毛高度显著提高(P<0.05),回肠绒毛高度/隐窝深度有提高趋势(P>0.05);血浆CAT、空肠SOD活性显著提高(P<0.05),血浆和回肠H_2O_2含量显著下降(P<0.05)。以上结果表明,日粮中添加50 mg/kg OCT可以在一定程度上缓解由LPS刺激引起的仔猪氧化应激,改善仔猪肠道结构。 相似文献
10.
试验研究谷氨酰胺对免疫应激仔猪肌肉中理化指标的影响。采用2×2析因试验设计,选用28 d平均体重7 kg的长白×约克夏断奶仔猪96头,按体重相近原则随机分为4组。对照组(Ⅰ组)、免疫应激组(Ⅱ组)饲喂基础日粮,断奶后7 d分别注射100μg/kg BW生理盐水、LPS;谷氨酰胺组(Ⅲ组)、谷氨酰胺+免疫应激组(Ⅳ组)饲喂含谷氨酰胺浓度为1.2%的日粮,断奶后7 d分别注射100μg/kg BW生理盐水和LPS。试验期14 d。结果表明:LPS应激极显著提高了仔猪肌肉中乳酸含量(P<0.01),极显著降低了总蛋白、丙氨酸氨基转移酶、过氧化氢酶、谷胱甘肽含量(P<0.01),而谷氨酰胺的添加缓解了这几项指标的显著变化,且日粮类型与LPS应激均存在交互作用(P<0.01),说明日粮中添加谷氨酰胺可缓解免疫应激,对免疫应激仔猪具有保护作用。 相似文献
11.
共轭亚油酸对免疫应激仔猪生长抑制的缓解作用 总被引:5,自引:0,他引:5
试验选用 72头 (2 8± 2 )d断奶的仔猪 ,采用 2× 2因子试验设计 ,研究共轭亚油酸 (CLA)是否有缓解仔猪免疫应激的作用。结果显示 ,添加CLA缓解了因注射脂多糖 (LPS)引起的日增重降低 (P <0 .0 5 ) ,并改善了试验全期的饲料转化效率 (P <0 .0 5 )。两次LPS刺激后 ,CLA抑制 (P <0 .0 5 )了由LPS诱导的血浆白细胞介素 6 (IL 6 )、肿瘤坏死因子 α(TNF α)和α 乙酰糖蛋白 (AGP)浓度的上升。在第 14d和 2 1d ,LPS刺激提高 (P <0 .0 5 )了血浆IL 1β和皮质醇含量 ,而CLA则降低了IL 1β和皮质醇含量。本试验证明 ,CLA能缓解免疫应激引起的仔猪生长抑制 ,其防止免疫应激诱导的生长抑制作用可能与CLA抑制炎性细胞因子的分泌有关 相似文献
12.
Seventy-two crossbred pigs (7.58 +/- 0.30 kg BW) weaned at 28 +/- 3 d of age were used to investigate the effects of fish oil supplementation on pig performance and on immunological, adrenal, and somatotropic responses following an Escherichia coli lipopolysaccharide (LPS) challenge in a 2 x 2 factorial design. The main factors consisted of diet (7% corn oil [CO] or 7% fish oil [FO]) and immunological challenge (LPS or saline). On d 14 and 21, pigs were injected intraperitoneally with either 200 microg/kg BW of LPS or an equivalent amount of sterile saline. Blood samples were collected 3 h after injection for analysis of interleukin-1beta (IL-1beta), prostaglandin E2 (PGE2), cortisol, growth hormone (GH), and insulin-like growth factor (IGF)-I. On d 2 after LPS challenge, peripheral blood lymphocyte proliferation (PBLP) was determined. Lipopolysaccharide challenge decreased ADG (487 vs. 586 g; P < 0.05) and ADFI (as-fed, 776 vs. 920 g; P < 0.05) from d 14 to 21 and ADG (587 vs. 652 g; P < 0.10) from d 21 to 28. Fish oil improved ADG (554 vs. 520 g; P < 0.10) and ADFI (891 vs. 805 g; P < 0.10) from d 14 to 21. On d 14, LPS challenge x diet interactions were observed for IL-1beta (P < 0.10), PGE2 (P < 0.001), and cortisol (P < 0.05) such that these measurements responded to the LPS challenge to a lesser extent (IL-1beta: 93 vs. 114 pg/mL, P < 0.05; PGE2: 536 vs. 1,285 pg/mL, P < 0.001; cortisol: 143 vs. 206 ng/mL, P < 0.05) in pigs receiving the FO diet than in pigs fed the CO diet. In contrast, among LPS-treated pigs, pigs fed the FO diet had higher IGF-I (155 vs. 101 ng/mL; P < 0.10) than those fed the CO diet. On d 21 among LPS-treated pigs, pigs fed FO had lower IL-1beta (70 vs. 84 pg/mL; P < 0.10) and cortisol (153 vs. 205 ng/mL; P < 0.05) than those fed CO. Pigs fed FO had lower PGE2 (331 vs. 444 pg/mL; P < 0.05) and higher IGF-I (202 vs. 171 ng/mL; P < 0.10) compared with those fed CO. Lipopolysaccharide challenge decreased GH (0.27 vs. 0.33 ng/mL; P < 0.05) on d 14, whereas it had no effect on GH on d 21. During both LPS challenge periods, the challenge increased PBLP when these cells were incubated with 8 (1.46 vs. 1.32; P < 0.10) or 16 microg/mL (1.46 vs. 1.30; P < 0.05) of concanavalin A. Fish oil had no effect on PBLP. These results suggest that FO alters the release of proinflammatory cytokines, which might lead to improved pig performance during an immunological challenge. 相似文献
13.
A total of 108 crossbred piglets (7.75 +/- 0.24 kg of BW) weaned at 28 d was used to study the interactive effects of beta-glucan obtained from the Chinese herb Astragalus membranaceus (AM) and Escherichia coli lipopolysaccharide (LPS) challenge on performance, immunological, adrenal, and somatotropic responses of weaned pigs. The treatments were in a 2 x 3 factorial arrangement; main effects were level of Astragalus membranaceus glucan (AMG; 0, 500, or 1,000 mg/kg; as-fed basis) and presence of immunological challenge (with or without LPS). The experiment included six replicate pens per treatment and three pigs per pen. Lipopolysaccharide challenges were conducted on d 7 and 21 of the trial. Blood samples were obtained from the vena cava from one pig per pen at 3 h after LPS challenge to determine plasma responses. Weight gain and feed:gain ratio were unaffected by glucan. However, there was a quadratic effect on feed intake (P < 0.05): pigs fed 500 mg of glucan/kg had the highest feed intake. Immunological challenge with LPS decreased weight gain (P = 0.02). An interaction (P = 0.01 to 0.09) between AMG and LPS was observed for glucose, IL-1beta, PGE2, and cortisol. Astragalus membranaceus glucan had a quadratic effect on the plasma concentrations of glucose, IL-1beta, PGE2, and cortisol (P < 0.05) after both LPS challenges. Plasma concentrations of glucose, IL-1beta, PGE2, and cortisol (P < 0.05) were all increased in LPS-challenged pigs compared with the control pigs after both LPS challenges. The IGF-I concentrations were less for LPS-challenged pigs than for unchallenged pigs. The lymphocyte proliferation response of peripheral blood induced by 5 microg of concanavalin A/mL (P < 0.01) and IL-2 bioactivity (P < 0.05) increased linearly with increasing addition of glucan. Pigs challenged with LPS had greater T-lymphocyte proliferation (P = 0.06) and IL-2 bioactivity (P = 0.07) than unchallenged pigs after the first immunological challenge but not after the second. In conclusion, although glucan did not improve pig performance under the conditions of the present experiment, when included at 500 mg/kg, it decreased the release of inflammatory cytokine and corticosteroid and improved the lymphocyte proliferation response of weanling piglets via enhanced IL-2 bioactivity. 相似文献
14.
Two experiments were conducted to determine the effects of dietary sodium butyrate on growth performance and response to Escherichia coli lipopolysaccharide (LPS) in weanling pigs. In a 28-d experiment, 180 pigs (initial BW 6.3 kg) were fed 0, 0.05, 0.1, 0.2, or 0.4% sodium butyrate, or 110 mg/kg of dietary tylosin. There was no effect of dietary sodium butyrate or tylosin on overall G:F, but there was a linear trend (P < 0.07) toward decreased ADFI and ADG as levels of sodium butyrate increased. In a second 28-d experiment, 108 pigs (initial BW 6.3 kg) were assigned to 1 of 3 dietary treatments: 1) no antibiotics, 2) 0.2% sodium butyrate, or 3) 55 mg/kg of carbadox. On d 14, a subset of pigs from the no-antibiotic and butyrate treatment groups was challenged with E. coli LPS or injected with sterile saline in a 2 x 2 factorial arrangement (+/-LPS challenge; +/-dietary butyrate; n = 6 pigs/treatment group). Four hours after LPS challenge, blood samples were obtained, and samples of LM, liver, and ileum were collected for gene expression analysis. Serum samples were analyzed for IL-6, tumor necrosis factor alpha (TNFalpha), alpha(1)-acid glycoprotein, cortisol, IGF-I, insulin, and metabolites. The relative abundance of tissue cytokine and IGF-I mRNA was measured by real-time PCR. Feeding diets containing sodium butyrate or carbadox did not alter ADG or ADFI compared with pigs fed the control diet. From d 0 to 14, pigs fed diets containing 0.2% sodium butyrate had decreased (P < 0.05) ADG and tended (P < 0.06) to have decreased G:F compared with animals fed diets containing carbadox. Challenge with LPS increased (P < 0.05) serum cytokines and cortisol and decreased (P < 0.05) serum glucose and triglycerides. Injection with LPS increased (P < 0.05) the relative abundance of hepatic IL-6 and TNFalpha mRNA, increased (P < 0.05) LM TNFalpha mRNA content, and decreased (P < 0.05) IGF-I mRNA in LM. For serum cortisol, there was an interaction (P < 0.05) between dietary butyrate and LPS. The increase in serum cortisol attributable to LPS was greater (P < 0.05) in pigs fed butyrate than in pigs fed the control diet. There tended (P < 0.10) to be an interaction between LPS and diet and for butyrate to increase the relative abundance of IL-6 mRNA in LM. Carbadox did not alter cytokine or IGF-I mRNA or serum metabolites, but did decrease (P < 0.05) serum TNFalpha. These data indicate that dietary sodium butyrate does not enhance growth performance, but may regulate the response to inflammatory stimuli in weanling pigs. 相似文献
15.
免疫应激对断奶仔猪免疫和神经内分泌激素的影响 总被引:12,自引:0,他引:12
试验研究了免疫应激对断奶仔猪免疫和神经内分泌激素的影响。选用 6头体重为 (7.6± 0 .3)kg的(2 8± 3)d的达兰断奶仔猪 ,绝食 12h后 ,随机选取 4头猪从腹膜注射 2 0 0 μg/kg(BW)的脂多糖 (LPS) ,另 2头注射等量生理盐水作对照。于注射后 0、1、2和 3h ,分别采血测定血浆白细胞介素 1β(IL 1β)、前列腺素E2 (PGE2 )、皮质醇、生长激素 (GH)和类胰岛素生长因子 I(IGF I)的含量。结果表明 :(1)注射LPS激活了应激轴 :与对照组相比 ,LPS提高了注射后 1h(P <0 .10 )、2h(P <0 .0 1)和 3h(P <0 .0 1)的IL 1β水平 ,提高了注射后 1h(P <0 .0 5 )和 3h(P <0 .0 1)的皮质醇和PGE2 水平 ;(2 )注射LPS抑制了生长轴 :LPS降低了注射后 3h的GH水平 (P <0 .10 ) ,降低了注射后 2h (P <0 .0 5 )和 3h(P <0 .0 1)的IGF I水平。结果显示 ,免疫应激激活了仔猪应激轴 ,而抑制了生长轴 ,在一定程度上揭示了免疫应激抑制生长的机制 相似文献
16.
Three experiments were conducted to investigate the effects of beta-glucan supplementation on pig performance and immune function. In Exp. 1, 100 weaned pigs (8.65 +/- 0.42 kg of BW and 28 +/- 2 d of age) were used in a 35-d experiment to determine the effects of graded levels of beta-glucan. Pigs were randomly allotted to 1 of 5 treatments containing beta-glucan supplemented at 0, 25, 50, 100, or 200 ppm. Each treatment was replicated using 5 pens containing 4 pigs per pen. The ADG of pigs between d 14 to 28 and d 0 to 28 responded to dietary beta-glucan in a quadratic fashion (P < 0.05), whereas beta-glucan had no effect on ADFI and G:F in any period. In Exp. 2, 80 crossbred pigs (8.23 +/- 0.56 kg of BW and 28 +/- 2 d of age) were used in a 35-d experiment. Pigs were allotted to 1 of 2 dietary treatments (0 or 50 ppm of beta-glucan in the diet) using 10 pens with 4 pigs per pen. Pigs treated with beta-glucan had greater ADG in the 14- to 28-d (P = 0.05) and 0-to 28-d (P = 0.035) periods. The ADFI of pigs receiving beta-glucan was increased (P < 0.05) in the periods from 0 to 14, 0 to 28, and 28 to 35 d. The lymphocyte proliferation index in response to phytohemagglutinin (P = 0.051) and concanavalin A (P = 0.052) tended to decrease on d 14 in pigs supplemented with beta-glucan compared with pigs without supplementation. In Exp. 3, 24 barrows (8.89 +/- 0.20 kg of BW and 28 d of age) were used to investigate the immunological and somatotropic responses of pigs challenged with lipopolysaccharide (LPS). Experimental treatments were arranged in a 2 x 2 factorial, with the main effects of LPS challenge (saline vs. LPS) and dietary addition of beta-glucan (0 vs. 50 ppm). Pigs were raised individually in metabolic cages. Pigs were fed 0 or 50 ppm of beta-glucan for 28 d and then challenged with LPS (25 microg/kg of BW) or saline. After LPS injection, blood was obtained at 0, 1.5, 3, 4.5, 6, and 7.5 h to determine cytokine production and the somatotropic response. Dietary beta-glucan increased plasma interleukin-6 at 1.5, 3, and 4.5 h and tumor necrosis factor-alpha at 3 and 4.5 h and increased plasma interleukin-10 from 3 to 7.5 h after LPS challenge. The beta-glucan treatments had no effect on growth hormone. In conclusion, beta-glucan can selectively influence performance and partially offer benefits on somatotropic axis and immune function in weaned piglets challenged with LPS. 相似文献
17.
A trial using 64 weanling pigs (TR4×PIC C22) was conducted to determine the effects of menhaden fish oil supplementation and diet complexity on performance and immune response of nursery pigs. Pigs (17 days and 6.27±1.16 kg) were weaned into a segregated early wean facility and given free access to a complex diet for 7 days post-weaning. At day 0 (day 7 post-weaning), pigs were blocked by weight and allotted to 64 pens. Treatments (Trt) were arranged as a 2×2×2 factorial arrangement. Main effects included diet (complex versus simple), oil (menhaden fish (MFO) versus corn (CO)), and immunogen (saline versus lipopolysaccharide (LPS)). Experimental diets contained 6% oil (6% CO or 5% MFO+1% CO) and were fed for 14 days. On day 12, i.v. injections of either LPS (150 μg/kg) or saline were given, followed by blood collection at 30 min intervals for 6 h. After the immune challenge (day 14), pigs were placed onto a common corn-soybean meal fortified diet and growth performance was evaluated until termination of the study (day 28). Pigs were weighed and feed intakes recorded at 7, 14, and 28 days. Prior to immune challenge (day 12), there were differences in BW for pigs fed complex versus simple diets (P<0.01; 13.1 and 12.1 kg, respectively) and pigs fed CO versus MFO diets (P<0.05; 12.9 and 12.3 kg, respectively). During the challenge period, for pigs treated with LPS there was a Time×Immunogen×Oil effect (P<0.001) for serum cortisol with MFO fed pigs having lower serum cortisol as compared to CO fed pigs. Also, during the challenge period, for pigs treated with LPS there was a Time×Diet×Immunogen×Oil effect (P<0.001) for serum tumor necrosis factor- (TNF-) with pigs fed complex diets supplemented with CO having higher serum TNF- as compared with pigs fed complex diets supplemented with MFO. At days 14 and 28, LPS-treated pigs had lower BW than saline injected controls (P<0.001 and 0.01, respectively). In addition, pigs fed simplified diets continued to have lower BW after challenge compared to pigs fed a complex diet. Interestingly, there were no differences (P>0.10) in BW after challenge in pigs fed MFO. This study suggests that MFO supplementation alters the immune response during LPS challenge and that simplified diets may compromise nursery performance. 相似文献
18.
本试验旨在研究饲粮中添加谷氨酰胺(Gln)对断奶仔猪不同阶段生长性能的影响,以及其对脂多糖(LPS)诱导肠道损伤后断奶仔猪血清生化指标和生长性能的影响。选用24头28日龄健康的"杜×长×大"三元杂交断奶仔猪,随机分为3组,每组8个重复,每个重复1头猪。对照组和LPS组饲喂基础饲粮,Gln+LPS组饲喂添加了1%的外源性Gln的基础饲粮;在试验第22、25、28、30天,LPS组和Gln+LPS组腹腔注射100μg/kg BW LPS,对照组则注射相同剂量的生理盐水。试验期30 d。结果表明:1)LPS处理前(试验第1~21天),与对照组相比,Gln+LPS组显著提高了试验第1~7天断奶仔猪的平均日采食量(ADFI)和平均日增重(ADG)(P0.05),显著提高了试验第8~14天和第1~21天断奶仔猪的ADFI(P0.05)。2)LPS处理后(试验第22~30天),对照组断奶仔猪的ADFI、ADG、第30天体重均显著高于LPS组和Gln+LPS组(P0.05),Gln+LPS组断奶仔猪的ADFI、ADG、第30天体重均高于LPS组(P0.05)。3)LPS组断奶仔猪的小肠长度显著低于对照组和Gln+LPS组(P0.05),而对照组和Gln+LPS组之间无显著差异(P0.05)。4)与对照组相比,Gln+LPS组断奶仔猪的血清高密度脂蛋白胆固醇(HDLC)含量和碱性磷酸酶(ALP)活性显著降低(P0.05),而Gln+LPS组与LPS组之间无显著差异(P0.05);Gln+LPS组和LPS组断奶仔猪的血清免疫球蛋白M(Ig M)含量显著提高(P0.05)。由此可见,饲粮中添加1%的Gln能够显著提高仔猪断奶后第1~7天的生长性能,之后效果不明显。饲粮中添加1%的Gln能够调节应激仔猪的血清生化指标,改善其生长性能和小肠长度,从而缓解仔猪断奶应激。 相似文献
19.
An acute stress response can be provoked by abrupt social, nutritional, and environmental changes associated with weaning, and this may disrupt homeostasis and thus compromise well-being. Manipulating environmental factors, such as photoperiod, might provide a simple way to reduce the physiological consequences that piglets experience due to weaning stress. The objective of this study was to evaluate the impacts of photoperiod manipulation across various weaning ages on leukocyte populations, lymphocyte proliferation, natural killer cytotoxicity (NK), chemotaxis, phagocytosis, and immunoglobulin G, cortisol, and BW of piglets during the nursery phase. Sixty-eight crossbred piglets were obtained from sows kept on a short-day (8 h of light/d) photoperiod from d 90 of gestation until weaning. Piglets were weaned at 14, 21, or 28 d of age and kept on a short or long (16 h of light/d) photoperiod until 10 wk of age. Piglet BW and blood samples were collected at weaning and at 6, 8, and 10 wk of age. Pigs weaned at 28 d had reduced neutrophil counts (P < 0.001), phagocytosis (P < 0.001), and lymphocyte proliferation (P < 0.05) at weaning compared with those weaned at 14 and 21 d. Pigs weaned at 21 d tended to have lower (P = 0.08) lymphocyte counts than did pigs weaned at 14 or 28 d. Pigs weaned at 14 d had reduced (P < 0.01) NK relative to those weaned at 21 or 28 d. Photoperiod also influenced pig BW and immune status. Generally, those pigs on the long-day photoperiod and weaned at 28 d were heavier (P < 0.001) than their counterparts weaned at 14 or 21 d. At 6 wk of age, NK was greater (P = 0.002) in pigs kept on a long day and weaned at 14 or 21 d than in pigs weaned at 28 d. Phagocytosis was less (P = 0.005) at 6 wk of age, but was greater at 8 wk, in piglets kept on the long day and weaned at 28 d than in long-day pigs weaned at 14 or 21 d. These results suggest that photoperiod differentially influences immune responses in piglets weaned at different ages and indicate an inverse relationship between growth and immune status. Here, weaning at 28 d and a long-day photoperiod was the treatment combination that was most physiologically beneficial to piglets, whereas a 14-d weaning and short-day photoperiod was least physiologically beneficial. 相似文献
20.
Effects of exogenous ghrelin on feed intake, weight gain, behavior, and endocrine responses in weanling pigs 总被引:3,自引:0,他引:3
The objectives were to determine relative ADG, ADFI, behavior, and endocrine responses in weaned pigs receiving exogenous ghrelin. Twenty-four barrows weaned at 18 d of age (d 0 of the experiment) were catheterized via the jugular vein, weighed, and assigned to either a ghrelin (n = 12) or saline (control; n = 12) infusion group. Initial pig BW did not differ between treatments (7.87+/-0.39 vs. 7.92+/-0.35 kg for ghrelin and control treatments, respectively). Pig BW and feed intakes were measured once daily throughout the experiment. Starting on d 1, the ghrelin pigs were intravenously infused three times daily for 5 d with 2 microg/kg BW of human ghrelin, and the control pigs were similarly infused with saline. Activity observations and blood samples were taken at -15, 0, 15, 30, 60, 90, 120, 240, and 480 min relative to the first infusion and then three times daily (0800, 1600, and 2400) for 8 d. Weight gain during the 5-d infusion period was greater by the ghrelin than by control pigs (0.57+/-0.10 vs. 0.21+/-0.13 kg, respectively; P < 0.04); however, there was no increase in feed intake. During two behavioral observation periods, more pigs in the ghrelin treatment were observed eating compared with control pigs (P < 0.05). The initial infusion of exogenous ghrelin increased serum ghrelin, GH, insulin, and cortisol concentrations (P < 0.05). Endogenous serum ghrelin increased from d 1 to 8 of the experiment in control animals (P < 0.05). Serum IGF-I initially fell in both treatment groups from d 1 to 2 (P < 0.05) but then increased from d 5 to 8 (P < 0.05). Peripheral concentrations of glucose in the ghrelin pigs were greater on d 2, 3, 7, and 8 than on d 1 (P < or = 0.05). In both treatment groups, peripheral concentrations of leptin increased from d 7 to 8, and cortisol decreased from d 1 to 5 of the experiment. These observations provide evidence that ghrelin may positively influence weight gain and concomitantly increase GH, insulin, and cortisol secretion in weaned pigs. 相似文献