Nutritional Strategies for Nutrient Metabolism Disorders in Animals under Stress

A special issue of Metabolites (ISSN 2218-1989). This special issue belongs to the section "Animal Metabolism".

Deadline for manuscript submissions: closed (10 July 2024) | Viewed by 4253

Special Issue Editors

School of Animal Science and Nutritional Engineering, Wuhan Polytechnic University, Wuhan 430023, China
Interests: swine; poultry; nutrition; feed additives; stress; intestine
Special Issues, Collections and Topics in MDPI journals
School of Animal Science and Nutritional Engineering, Wuhan Polytechnic University, Wuhan 430023, China
Interests: piglets; intestine; nutrition; immunity; feed additives
School of Animal Science and Nutritional Engineering, Wuhan Polytechnic University, Wuhan 430023, China
Interests: piglets; metabolism; intestine; nutrients
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

The productive performance of animals is rapidly improved today thanks to the continuous improvement of breeding technology. However, the anti-stress capacity of animals is weakening, which seriously affects the health status and quality of livestock products. Animals often suffer from various stresses, such as weaning stress, heat stress, transport stress, immune stress, high density stress, cold stress, and so on. The metabolism of nutrients in the body is often disturbed when animals are under various stresses, which reduces the utilization of nutrients. Some potential nutritional strategies could alleviate stress in animals to improve health status, performance, as well as the quality of animal products. The purpose of this Special Issue is to collect new papers on the mechanism of nutrient metabolism disorder in animals under stress and the relevant nutritional strategies, so as to help livestock production.

Dr. Xiao Xu
Dr. Kan Xiao
Dr. Dan Wang
Guest Editors

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Keywords

  • animals
  • nutrition
  • stress
  • metabolism
  • intestine
  • performance

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Published Papers (2 papers)

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Research

19 pages, 4061 KiB  
Article
Effects of Heated Drinking Water during the Cold Season on Serum Biochemistry, Ruminal Fermentation, Bacterial Community, and Metabolome of Beef Cattle
by Tengfei He, Guang Yi, Xilin Wang, Yan Sun, Jiangong Li, Zhenlong Wu, Yao Guo, Fang Sun and Zhaohui Chen
Metabolites 2023, 13(9), 995; https://doi.org/10.3390/metabo13090995 - 6 Sep 2023
Cited by 1 | Viewed by 1395
Abstract
This study explored the effects of drinking heated water in the cold seasons on the serum metabolism, rumen microbial fermentation, and metabolome of beef cattle. Twelve fattening cattle (642 ± 14.6 kg) aged 21 to 22 months were randomly and equally divided into [...] Read more.
This study explored the effects of drinking heated water in the cold seasons on the serum metabolism, rumen microbial fermentation, and metabolome of beef cattle. Twelve fattening cattle (642 ± 14.6 kg) aged 21 to 22 months were randomly and equally divided into two groups based on body weight: one receiving room-temperature water (RTW; average 4.39 ± 2.55 °C) and the other heated water (HW; average 26.3 ± 1.70 °C). The HW group displayed a significant decrease in serum glucose (p < 0.01) and non-esterified fatty acid (p < 0.01), but increases in insulin (p = 0.04) and high-density lipoprotein (p = 0.03). The rumen fermentation parameters of the HW group showed substantial elevations in acetate (p = 0.04), propionate (p < 0.01), isobutyrate (p = 0.02), and total volatile fatty acids (p < 0.01). Distinct bacterial composition differences were found between RTW and HW at the operational taxonomic unit (OTU) level (R = 0.20, p = 0.01). Compared to RTW, the HW mainly had a higher relative abundance of Firmicutes (p = 0.07) at the phylum level and had a lower abundance of Prevotella (p < 0.01), norank_f_p-215-o5 (p = 0.03), and a higher abundance of NK4A214_group (p = 0.01) and Lachnospiraceae_NK3A20_group (p = 0.05) at the genus level. In addition, NK4A214_group and Lachnospiraceae_NK3A20_group were significantly positively correlated with the rumen propionate and isovalerate (r > 0.63, p < 0.05). Prevotella was negatively correlated with rumen propionate and total volatile fatty acids (r = −0.61, p < 0.05). In terms of the main differential metabolites, compared to the RTW group, the expression of Cynaroside A, N-acetyl-L-glutamic acid, N-acetyl-L-glutamate-5-semialdehyde, and Pantothenic acid was significantly upregulated in HW. The differentially regulated metabolic pathways were primarily enriched in nitrogen metabolism, arginine biosynthesis, and linoleic acid metabolism. Prevotella was significantly positively correlated with suberic acid and [6]-Gingerdiol 3,5-diacetate (r > 0.59, p < 0.05) and was negatively correlated with Pantothenic acid and isoleucyl-aspartate (r < −0.65, p < 0.05). NK4A214_group was positively correlated with L-Methionine and glycylproline (r > 0.57, p < 0.05). Overall, our research demonstrates the important relationship between drinking water temperature and metabolic and physiological responses in beef cattle. Heating drinking water during cold seasons plays a pivotal role in modulating internal energy processes. These findings underscore the potential benefits of using heated water as a strategic approach to optimize energy utilization in beef cattle during the cold seasons. Full article
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11 pages, 18571 KiB  
Article
Magnolol as a Protective Antioxidant Alleviates Rotenone-Induced Oxidative Stress and Liver Damage through MAPK/mTOR/Nrf2 in Broilers
by Weishi Peng, Nanxuan Zhou, Zehe Song, Haihan Zhang and Xi He
Metabolites 2023, 13(1), 84; https://doi.org/10.3390/metabo13010084 - 4 Jan 2023
Cited by 5 | Viewed by 1660
Abstract
This study aimed to investigate the protective effects and molecular mechanism of magnolol supplementation on rotenone-induced oxidative stress in broilers. Two hundred and eighty-eight old male AA broilers were randomly divided into four groups: the CON group: basic diet with sunflower oil injection; [...] Read more.
This study aimed to investigate the protective effects and molecular mechanism of magnolol supplementation on rotenone-induced oxidative stress in broilers. Two hundred and eighty-eight old male AA broilers were randomly divided into four groups: the CON group: basic diet with sunflower oil injection; the ROT group: basic diet with 24 mg/kg BW rotenone; the MAG + ROT group: basic diet with 300 mg/kg magnolol and rotenone injection; and the MAG group: basic diet with 300 mg/kg magnolol and sunflower oil injection. At 21–27 days of age, the broilers in each group were intraperitoneally injected with rotenone (24 mg/kg BW) or the same volume of sunflower oil. The results showed that magnolol reversed the decrease in ADG post-injection and FBW via rotenone induction. Compared to the ROT group, MAG + ROT group enhanced the average daily gain post injection (p < 0.05). Magnolol supplement could improve the activity and mRNA expression of rotenone-suppressed antioxidant enzymes such as GSH and GSH-PX (p < 0.05). Similarly, the MDA content as an oxidative damage marker was significantly reduced after magnolol addition (p < 0.05). The hepatocyte apoptosis and the mRNA expression of apoptosis-related signaling pathway in the ROT group increased, but magnolol supplementation inhibited rotenone-induced apoptosis through the Nrf2 signaling pathway. Through RNA transcriptome analysis, there were 277 differential genes expressions (DEGs) among the CON group with ROT group, and 748 DEGs were found between the ROT group and the MAG + ROT group. KEGG pathway enrichment found that magnolol relieved rotenone-induced energy metabolism disorder and oxidative damage through signaling pathways such as MAPK and mTOR. In conclusion, magnolol attenuates rotenone-induced hepatic injury and oxidative stress of broilers, presumably by restoring hepatic antioxidant function via the MAPK/mTOR/Nrf2 signaling pathway. Full article
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