不同剩余采食量和健康状况猪骨骼肌中过氧化物还毒素-2谱和蛋白质氧化的新观察

Meat and Muscle Biology Pub Date : 2021-06-24 DOI:10.22175/mmb.12241

B. Patterson, Amanda C. Outhouse, E. Helm, L. Johnson, E. Steadham, J. Dekkers, K. Schwartz, N. Gabler, S. Lonergan, E. Huff-Lonergan

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引用次数: 1

摘要

本研究的目的是确定呼吸和肠道双重细菌健康挑战对2个品系猪骨骼肌中抗氧化蛋白过氧化物还毒素-2 (Prdx-2)谱和蛋白质氧化的影响，这些品系被不同地选择用于剩余采食量(RFI)。假设是:(1)2个RFI品系和感染状态之间存在Prdx-2谱的差异;(2)低效率高RFI和健康受损猪的肌肉有更大的细胞蛋白质氧化。采用来自爱荷华州立大学高rfi品系(N = 12)和低rfi品系(N = 12)第11代的Barrows(50±7 kg, N = 24)。在感染后第0天接种猪肺炎支原体和细胞内裂裂菌(MhLI)，诱导呼吸道和肠道健康挑战(每系6只)。未接种猪作为对照(每系6头)。感染后21 d尸检。测定了肌浆蛋白氧化、各种形式的Prdx-2和甘油醛3-磷酸脱氢酶(GAPDH)的含量。RFI系和感染状态均未显著影响蛋白羰基化。在非还原条件下，MhLI猪有更多的迁移较慢的GAPDH条带(P = 0.017)，表明氧化修饰。无论健康状况如何，与高rfi猪相比，低rfi猪的Prdx-2总量(P = 0.035)和Prdx-2十聚体(P = 0.0007)较少，高氧化过氧还蛋白相对于Prdx-2的比例(P = 0.028)较高。高rfi猪中活性Prdx-2的增加表明，与低rfi猪相比，高rfi猪的肌肉氧化应激更大。在MhLI猪(尤其是高rfi MhLI猪)的肌肉中，氧化GAPDH的增加可能是对高rfi MhLI中更大氧化应激的反应。这项工作表明抗氧化蛋白在生长和健康挑战的情况下是重要的。

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Novel Observations of Peroxiredoxin-2 Profile and Protein Oxidation in Skeletal Muscle From Pigs of Differing Residual Feed Intake and Health Status

This study’s objective was to determine the impact of a dual respiratory and enteric bacterial health challenge on the antioxidant protein peroxiredoxin-2 (Prdx-2) profile and protein oxidation in the skeletal muscle of pigs from 2 lines that were divergently selected for residual feed intake (RFI). The hypotheses were that (1) differences exist in the Prdx-2 profile between 2 RFI lines and infection status and (2) muscle from less efficient high-RFI and health-challenged pigs have greater cellular protein oxidation. Barrows (50 ± 7 kg, N = 24) from the 11th generation of the high-RFI (n = 12) and low-RFI (n = 12) Iowa State University lines were used. Pigs (n = 6 per line) were inoculated with Mycoplasma hyopneumoniae and Lawsonia intracellularis (MhLI) on day 0 post infection to induce a respiratory and enteric health challenge. Uninoculated pigs served as controls (n = 6 per line). Necropsy was at 21 d post infection. Sarcoplasmic protein oxidation, various forms of Prdx-2, and glyceraldehyde 3-phosphate dehydrogenase (GAPDH) content were determined. Neither RFI line nor infection status significantly affected protein carbonylation. Under nonreducing conditions, MhLI pigs had a greater amount of a slower-migrating GAPDH band (P = 0.017), indicating oxidative modification. Regardless of health status, the low-RFI pigs had less total Prdx-2 (P = 0.035), Prdx-2 decamer (P = 0.0007), and a higher ratio of hyperoxidized peroxiredoxin relative to Prdx-2 (P = 0.028) than the high-RFI pigs. The increased pool of active Prdx-2 in high-RFI pigs suggests greater oxidative stress in muscle in high- versus low-RFI pigs. The increase in oxidized GAPDH seen in muscle from MhLI pigs—particularly the high-RFI MhLI pigs—may be a response to the greater oxidative stress in the high-RFI MhLI. This work suggests that antioxidant proteins are important in growth and health-challenge situations.

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Meat and Muscle Biology

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3.50

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