This study aimed to investigate the characteristic proteomic pattern of plasma from sows supplemented with low dietary ω6:ω3 fatty acids (FAs) ratio during gestation and lactation. Two dietary treatments (n = 8 each) comprised either a control ratio of ω6:ω3 FAs (CR, 13:1 during gestation and 10:1 during lactation) or a low ratio (LR, 4:1 during gestation and lactation) by adding soybean oil or linseed oil, respectively. High-resolution mass spectrometry-based quantitative proteomics was applied on plasma (n = 5 each) at day 108 of gestation (G108) and at the end of lactation (L-End), and a total of 379 proteins and 202 master proteins were identified. Out of these, four differentially abundant proteins between LR and CR samples at G108 may relate to serine-type endopeptidase inhibitor activity. Differentially abundant proteins in L-End versus G108 (12 up-regulated and 10 down-regulated) were positively correlated with the events that regulate plasma lipoproteins, stimulus- and defence-responses. These findings demonstrate the benefit of increased dietary ω3 FAs in modifying proteins involved in protective mechanisms against increased stresses in key life cycle phases in pigs. In addition, proteome changes from late gestation to late lactation disclosed the underlying mechanism of pigs in response to reproduction-related stimuli. SIGNIFICANCE: This study aimed to provide a proteomics insight into the beneficial effects of maternal diet supplementation with a low ω6:ω3 fatty acids ratio, based on previously reported performance and zootechnical data. The results suggest that a low dietary ω6:ω3 fatty acids ratio could enhance the cellular defence mechanisms against increased stresses and in particular to oxidative stress in sows during gestation and lactation, as reflected in proteomic changes of haptoglobin (HP), alpha-1-antitrypsin (SERPINA1) and serum amyloid P-component (APCS). Furthermore, significantly changed proteome profiles in sow plasma between late gestation and lactation phases have been revealed for the first time. This finding identified the adaptation mechanisms of sows to changing physiological events during reproduction.
Keywords: Gestation; Haptoglobin; High-density lipoprotein; Lactation; Plasma proteome; ω6:ω3 fatty acids.
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