Cervantes Miguel, Sakkas Panagiotis, Valle José A, Arce Néstor, Avelar Ernesto, Quilichini Nicolas, Morales Adriana
Instituto de Ciencias Agrícolas, Universidad Autónoma de Baja California, Mexicali 21100, Mexico.
Laboratory of Nutrition, Faculty of Veterinary Medicine, Aristotle University, 54124 Thessaloniki, Greece.
Animals (Basel). 2025 Jun 14;15(12):1757. doi: 10.3390/ani15121757.
A spp.-based phytogenic solution (PHY) improved the performance and thermal tolerance of heat-stressed (HS) growing pigs. Two trials were conducted to further evaluate the HS pig response to supplemental PHY. Trial 1: The effects on the serum concentrations of amino acids (AAs) and the gene expression of tight junction proteins in the jejunum and ileum were assessed with 42 pigs (Landrace-Hampshire-Duroc; 27.0 ± 4.5 kg BW). There were three treatments (14 replicates): pigs under thermoneutral (TN) conditions fed control diet (TN-C); and HS pigs fed control diet without (HS-C) or with PHY (HS-PHY). Trial 2: Two-period digestion trial with eight ileal-cannulated pigs to analyze apparent ileal digestibility (AID) of AAs. Period 1: All TN pigs, fed the control (TN-C) or PHY-supplemented (TN-PHY) diet. Period 2: All HS pigs, fed the same diet as in period 1 (HS-C and HS-PHY). The control diet was based on wheat-soybean meal. In the jejunum, HS-C pigs had reduced occludin gene expression ( < 0.01) compared to TN-C pigs. HS-PHY pigs increased claudin-2 and tight-junction-protein-1 gene expression compared to HS-C ( < 0.05). In the ileum, HS-C and HS-PHY pigs had reduced occludin gene expression ( < 0.01). The serum concentrations of AAs decreased in HS-C compared to TN-C pigs ( < 0.05); except for arginine and isoleucine, HS-PHY pigs partially recovered serum AA levels. HS tended to reduce ( < 0.10; lysine and methionine) and reduced ( < 0.05) the AID of essential AAs. PHY did not mitigate the HS-associated reduced AA digestibility. In conclusion, these results support the concept that a phytogenic solution improves intestinal integrity and partially restores the post-absorption metabolism of amino acids, independent of the amino acid digestibility of heat-stressed pigs.
一种基于特定植物提取物的植物源制剂(PHY)改善了热应激(HS)生长猪的生产性能和热耐受性。进行了两项试验以进一步评估热应激猪对补充PHY的反应。试验1:用42头猪(长白-汉普夏-杜洛克;体重27.0±4.5千克)评估其对血清氨基酸(AA)浓度以及空肠和回肠紧密连接蛋白基因表达的影响。有三种处理方式(14个重复):处于热中性(TN)条件下的猪饲喂对照日粮(TN-C);热应激猪饲喂不添加(HS-C)或添加PHY(HS-PHY)的对照日粮。试验2:对8头回肠造瘘猪进行两阶段消化试验,以分析氨基酸的表观回肠消化率(AID)。第1阶段:所有热中性猪,饲喂对照(TN-C)或添加PHY的日粮(TN-PHY)。第2阶段:所有热应激猪,饲喂与第1阶段相同的日粮(HS-C和HS-PHY)。对照日粮以小麦-豆粕为基础。在空肠中,与TN-C猪相比,HS-C猪的闭合蛋白基因表达降低(P<0.01)。与HS-C猪相比,HS-PHY猪的claudin-2和紧密连接蛋白-1基因表达增加(P<0.05)。在回肠中,HS-C和HS-PHY猪的闭合蛋白基因表达降低(P<0.01)。与TN-C猪相比,HS-C猪血清氨基酸浓度降低(P<0.05);除精氨酸和异亮氨酸外,HS-PHY猪部分恢复了血清氨基酸水平。热应激倾向于降低(P<0.10;赖氨酸和蛋氨酸)并降低了(P<0.05)必需氨基酸的表观回肠消化率。PHY并未减轻热应激相关的氨基酸消化率降低。总之,这些结果支持这样一种观点,即植物源制剂可改善肠道完整性并部分恢复氨基酸的吸收后代谢,而与热应激猪的氨基酸消化率无关。
