Lipid profile of subcutaneous fat, growth performance, and carcass characteristics of gilts fed with diets supplemented with ractopamine, organic chromium or subjected to energetic feed restriction

ABSTRACT: This study identified the effects of dietary supplementation with ractopamine, chromium picolinate, chromium yeast, or an energetic feed restriction on the growth performance and lipid profile of subcutaneous fat, in late finishing gilts. Twenty genetically similar gilts with initial body weight of 105.35 ± 4.77 kg and a final body weight of 131.37 ± 5.58 kg were distributed in a completely randomized block design with five treatments (control; ractopamine: 20 ppm; chromium picolinate: 0.48 ppm; chromium yeast: 0.80 ppm; and energetic feed restriction: -150 kcal kg-1 of metabolizable energy), with four replicates of one animal each. The experimental diets were isonutritives, except for the metabolizable energy level of the diet fed to the group subjected to energy restriction. There were no effects on the growth performance and carcass characteristics. Ractopamine and organic chromium (picolinate and yeast) supplementation increased the concentration of total polyunsaturated fatty acid. The proportion of α-linolenic fatty acids were higher when the diets were supplemented with ractopamine or chromium yeast. The energy restriction increased the n-6:n-3 ratio and reduced α-linolenic acid concentration. Therefore, ractopamine, chromium picolinate, chromium yeast supplementation, and energetic feed restriction did not affect the growth performance or carcass characteristics but altered the lipid profile of subcutaneous fat in finishing gilts. Ractopamine and organic chromium supplementation increased PUFA in the fat of finishing female pigs.

Diet Supplementation with Madagascar Cockroach Flour (Gromphadorhina portentosa) Improved Malnourished Mice Metabolism and Ameliorated Liver Inflammatory Markers

Background: Malnutrition and accessible high-quality protein food sources are two of the world’s alimentary challenges. Edible insects are nowadays recognized as a possible functional food solution with lower environmental impacts and beneficial health effects. Objective: In this context, the aim of the present study is to evaluate Madagascar cockroach (Gromphadorhina portentosa) flour supplementation effects on a malnourished mice model, considering its effects on metabolism, adiposity, and inflammatory liver profiles. Method: Male Swiss mice are divided into five groups and fed with experimental diets for eight weeks, including a standard diet (ST) ad libitum, AIN93 ad libitum (AIN), insect flour-enriched AIN93 (AIN+IM), AIN-40% feed restriction (AIN-FR), and insect flour-enriched AIN-40% of feed restriction (AIN-FR+IM). The metabolic profiles, adipose tissue, biochemical parameters, and liver IL-6 and IL-10 expression are evaluated. Results: The main findings show a body weight and metabolism improvement followed by an increased recovery of the adipocyte area in the AIN-FR+IM group when compared to the AIN-FR malnourished group. Reduced hepatic IL-6 and increased IL-10 expression are also detected in the AIN-FR+IM group. Conclusion: The results show that insect flour supplementation enhances both body weight and adiposity gain/recovery. The results also show hepatic improvement of inflammatory markers.

The Role of Feed Restriction on DNA Methylation, Feed Efficiency, Metabolome, Biochemical Profile, and Progesterone Patterns in the Female Filial Generation (F1) Obtained From Early Feed Restricted Ewes (F0)

Deficient management of replacement animals in the farm during early developmental windows may promote adverse programming effects on reproductive traits and subsequent transmission to the next generation. In this sense, DNA methylation profiles allow researchers to decode epigenetic regulation mechanisms in mammals and identify novel candidate genes correlated with phenotype differences in both dams and offspring. Therefore, improving knowledge in the field of epigenetics and intergenerational effects caused by prenatal and postnatal early nutritional events (e.g., feed restriction) is crucial for refining strategies dedicated to animal breeding. In this study, we determined differences in the global blood methylation patterns, biochemical profile, and metabolome of ewe lambs (F1) born from either early feed restricted dams (F0-RES) or fed ad libitum (F0-ADL). Our data show that functional categories such as those related to cellular processes, phosphorylation, nervous system, immunity response, or reproductive function were enriched significantly in the F1-RES lambs due to differences in the methylation of genes in these categories. These F1-RES lambs did not show differences in feed efficiency during the replacement period but presented higher levels of insulin and triglycerides and reduced concentration of progesterone, whereas the metabolome profile demonstrated variations in the bile acid composition when compared with the F1-ADL lambs. Taken together, all these results suggest that intergenerational effects caused by early feed restriction of dams (F0) may persist in the F1 female lambs with negative consequences on genes involved in cellular processes and reproductive traits.

Effects of Isochronal Induced Feed Restriction With Transition Period On mRNA Abundance of The Hepatic Genes Related to Lipid Metabolism in Fat-Tailed Ewes

The process of fat mobilization during the transition period requires deep re-orchestration of the energy indices, and understanding its mechanism has generated considerable interest among the TP-related studies. The present study aims to validate the effect of feed restriction and TP on the mRNA abundance of hepatic genes related to fat metabolism in fat-tailed sheep. Twenty pregnant ewes with the age of 40.8 ± 6.2 (mean ± standard error) month were randomly assigned to Control (n=10) or Restriction (n=10), and investigated from week -5 to 5 relative to parturition. Control animals received 100% DM during the trial. Restriction animals received 100% DM through weeks -5, -1, 1 and 5 and were fed with 50, 65, and 80% DM in the weeks -4, -3, -2 and 2,3, and 4, respectively. On the third week of experiment (65%) during both pre and post-partum, the hepatic tissue was biopsied, and the mRNA load of the fatty acid synthase, acetyl-CoA carboxylase, carnitine palmitoyltransferase (CPT) 1, CPT2, and acyl-CoA synthase long-chain family member-1 genes was quantified by the TaqMan qPCR technique. Data were analyzed using the Mixed Model procedure of SAS. The mRNA abundance of the target genes was not influenced by feed restriction, during the pre and postpartum periods. Parturition suppressed the mRNA abundance of target genes in both groups. It can be concluded that the liver of the fat-tailed sheep would have a higher capacity for the metabolism of free fatty acids mobilization during the feed insufficiency and the challenging period of transition.

322 Impact of Feed Restriction and Fasting Suffered in Assembly Centers and Transportation on Energy Balance and Gut Permeability in Unweaned Angus-holstein Calves

Twenty unweaned Angus-Holstein calves (44.1 ± 2.0 kg; 14.7 ± 0.63 d) were used to evaluate the effects of feed restriction and fasting on energy balance (serum concentration of glucose, BHBA, and NEFA), and intestinal permeability (serum concentration of citrulline, Cr-EDTA, lactulose, and D-mannitol). Calves were randomly assigned to 1 of 4 treatments that simulated assembly center management and transportation; Control (CT; n = 5): from d-4 to -1, 2.5 L of milk replacer (MR) twice daily, concentrate and straw ad-libitum; Mild (MD; n = 5): only MR (d-4 to -1) as described for CT, and on d-1 feed withdrawal for 9 h; Moderate (MO; n = 5): only MR as described for CT and on d-1 feed withdrawal for 19 h; and Severe (SV; n = 5): only 2.5 L of a hydrate solution (HS) twice daily (d -4 to -1) on d-1 feed withdrawal for 19 h. From d 0 to day 7 all calves were fed MR, concentrate, and straw ad-libitum. Data were analyzed using mixed models with repeated measures. At d -1 for SV and d 0 in all restricted calves (MD, MO, SV), serum glucose concentration was lesser (P < 0.01) compared with CT. At d 0 NEFA and BHBA serum concentrations increased (P < 0.01) in SV calves compared with the other treatments. Serum citrulline concentration (P < 0.05) was lower for SV on d -1 and greater for CT on d 2 compared with other treatments. CT calves had the lesser concentration of Cr-EDTA (d -1 and d 0, P =0.04), lactulose (d 0, P =0.02), and D-mannitol (d 0, P =0.01) compared with MD, MO, and SV. The degree of dietary restriction, the type of liquid diet, and amount of fasting hours affected calves’ serum concentration of markers indicative of energy balance and gut permeability.