Project description:Investigating the Mechanisms of Lactulose on Gut Health and Uric Acid Metabolism in Geese via Transcriptomics

Project description:Wheat germ is known for its antioxidant, anti-inflammatory, and disease resistance properties in animals. However, its effect on the gut of Sichuan white geese remains unclear. In this study, thirty 250-day-old geese were divided into three equal groups, the control group, LWG group (21.8% wheat germ) and HWG group (43.6% wheat germ), the experiment lasted 12 weeks. We assessed various aspects of geese intestinal health, including barrier function, digestibility, antioxidant capacity, immunity, microbiota, and metabolism. The study revealed a significant increase in villus height (VH), villus height-to-crypt depth (VH/CD) ratio, amylase, and lipase activities in the duodenum and ileum, increased putrescine levels in the duodenum and jejunum, as well as spermidine levels in the jejunum(P < 0.05). LWG increased the total antioxidant capacity (T-AOC) in the duodenum, while decreasing levels of intestinal malondialdehyde (MDA), serum lipopolysaccharide (LPS), interleukin-6 (IL-6), and diamine oxidase (DAO) activity (P < 0.05). Furthermore, LWG increased the relative abundance of Oscillospiraceae_unclassified, Ligilactobacillus, and Roseburia, as well as increased levels of acetic acid, butyric acid, and valeric acid, while decreasing the relative abundance of Subdoligranulum, Flavonifractor, and Klebsiella. Additionally, we observed 17 up-regulated genes and 25 down-regulated genes in the jejunum, which are associated with the cell cycle and immunity. These genes play roles in pathways such as the p53 signaling pathway, cell cycle regulation, and pathways associated with immune modulation. On the other hand, HWG increased intestinal VH and spermidine content, as well as amylase and lipase activities in the duodenum (P < 0.05). It also elevated ileal T-AOC and sIgA levels ( P <0.05), while reducing intestinal MDA content, serum LPS levels, DAO activity, and propionic acid in cecum contents (P < 0.05). Moreover, HWG increased the relative abundance of Ligilactobacillus, Oscillospiraceae_unclassified, and Roseburia (P < 0.05). Overall, wheat germ diets, particularly the LWG diet demonstrated the ability to enhance antioxidant capacity, digestibility, immunity, and barrier properties of the intestinal tract, while modulating the gut microbiota and metabolism. Therefore, wheat germ diets hold promise in improving intestinal health by preserving barrier function and regulating flora structure.

Project description:Milk urea concentration is an indicator for dietary nitrogen (N)-supply and urinary nitrogen excretion. Dairy cows with high (HMU) compared to low milk urea (LMU) concentration have greater plasma urea, creatinine and uric acid concentrations, but if the liver metabolism accounts for these differences is unknown. Eighteen HMU and 18 LMU cows were fed either a diet with a low (LP) and normal (NP) crude protein concentration. An N-balance study was performed and a 13C-urea bolus was administered followed by a series of blood samplings. Liver samples were analysed by 2D-gel-based proteomics and real-time RT-PCR. Although HMU cows had a higher urea pool, plasma urea, uric acid, and hippuric acid concentrations, these differences were not associated with increased activation of the hepatic urea cycle or non-urea nitrogen metabolite pathways. Instead, HMU cows had a higher oxidative stress level. Conclusively, other factors than hepatic urea metabolism account for the milk urea concentration. Despite higher plasma urea concentrations on the LP diet, urea cycle mRNA expression was not affected, indicating it is not controlled at transcriptional level. Feeding the LP diet resulted in higher expressions of enzymes catabolizing fatty acids, which is likely due to diminished microbial growth and insufficient energy supply.

Project description:Intramuscular fat (IMF) serves as a crucial economic indicator of meat quality. To investigate the heterogeneity of IMF composition and its regulatory mechanisms in Xingguo (XG) geese with varying IMF levels, lipidomics and transcriptomics were utilized. The analysis of lipid profiles revealed that the predominant lipids in the IMF of XG geese were glycerophospholipids (GPs), followed by glycerides (GLs). Interestingly, the low-IMF group exhibited an increase in GPs, specifically phosphatidylethanolamines (PEs) and phosphatidylcholines (PCs), while the high-IMF group showed elevated levels of triacylglycerols (TAGs). Transcriptomic analysis indicated that genes related to extracellular matrices (ECM)-receptor interactions, focal adhesion, mitogen-activated protein kinase (MAPK), and forkhead transcription factors O (FoxO) signaling pathways were upregulated in the low-IMF group. In contrast, genes involved in metabolic processes were more pronounced in the high-IMF group. A comprehensive analysis combining lipidomics and transcriptomics identified CD36, fatty acid-binding protein 5 (FABP5), troponin I2 (TNNI2), and coronin-6 isoform X1 (CORO6) as essential regulators influencing IMF accumulation in XG geese. This research emphasizes the significant lipids, genes, and signaling pathways that play roles in IMF accumulation, providing a theoretical basis for enhancing the meat quality of XG geese.

Project description:A 10-week feeding trial was conducted to determine an appropriate carbohydrate source evaluating growth performance, feed utilization, hepatic activity, whole-body fatty/amino acid composition, liver transcriptomics and gut microbiome for Florida pompano (Trachinotus carolinus). Five isonitrogenous (46.67% crude protein), iso-lipidic (15.15% crude lipid) and isocaloric (385Kcal/100g digestible energy) diets were formulated containing 14% of different source of carbohydrates: whole wheat grain flour (WG), wheat starch (WS), whole corn grain flour (CG), corn starch (CS) and dextrinized corn starch (DCS). The results indicated that: highest percentage weight gain (PWG) and specific growth rate (SGR) were found in fish fed with whole wheat grain flour (WG) diet, the highest feed efficiency (FE) was shown in WG and WS diets, lowest conversion index (CI) was observed in fish fed with WG diet and the highest protein efficiency ratio (PER) was shown in in WS diet. The poorest values were observed in fish fed with CS and DCS diets. The whole-body crude protein and total amino acid and fatty acids composition was not significantly affected by different sources of carbohydrates in the diets. In fish fed with the WG diet, glucose levels in plasma and liver were significantly low while liver glycogen content was statistically high compared to the other diets. Liver transcriptomics analysis revealed differentially expressed genes (DEGs) and gene ontology (GO) enrichment analysis highlighting up/down regulated biological functions depending on the carbohydrate source. The microbial community presented high diversity and richness among treatments. Overall, results indicated that whole wheat grain flour is the more adequate dietary carbohydrate source based on production performance, physio-biochemical and molecular approaches. These data are critical when formulating a complete commercial feed for sustainable and profitable culturing of Florida pompano

Project description:Approximately 15% of US adults have circulating levels of uric acid above its solubility limit, which is causally linked to the inflammatory disease gout. In most mammals, uric acid elimination is facilitated by the enzyme uricase. However, human uricase is a pseudogene, having been inactivated early in hominid evolution. Though it has long been known that a substantial amount of uric acid is eliminated in the gut, the role of the gut microbiota in hyperuricemia has not been studied. Here we identify a gene cluster, widely distributed in the gut microbiome, that encodes a pathway for uric acid degradation. Stable isotope tracing demonstrates that gut bacteria metabolize uric acid to xanthine or short chain fatty acids such as acetate, lactate and butyrate. Ablation of the microbiota in uricase-deficient mice causes profound hyperuricemia, and anaerobe-targeted antibiotics increase the risk of gout in humans. These data reveal a role for the gut microbiota in uric acid excretion and highlight the potential for microbiome-targeted therapeutics in hyperuricemia.

Project description:DCs and B cells are main target cells activated by uric acid (MSU, one of DAMP molecules). Ultimately, we would like to figure out signaling pathways significantly affected, and narrow down potential receptor candidates for uric acid (MSU).

Project description:The experiment was conducted at the Kołuda Wielka Experimental Station of the National Research Institute of Animal Production (Kołuda Wielka, Poland). All birds were kept in semi-intensive rearing system according to the oat-fattening technology. At 15.5 weeks of age, 8 geese were selected and divided into two groups (n=4) depending on final body weight. Group I (light) were geese with the flock average weight of 7,10 kg, group II (heavy) consisted of geese with above-average growth potential, which achieved a body weight of 7,95 kg during the same time. Up to 20 min after slaughter, the whole pituitary and hypothalamus were collected and stabilized in RNAlater solution to RNA isolation purpose.

Project description:Five experimental diets were prepared with equal levels of protein (48% crude protein) and lipid (12% crude lipid): a diet based on fishmeal (referred to as Group FM), a diet containing 7% β-conglycinin (referred to as Group 7S), a diet containing 10% glycinin (referred to as Group 11S), a β-conglycinin diet supplemented with 2% alanine-glutamine (referred to as Group CCgGln), and glycinin diet supplemented with 2% alanine-glutamine (referred to as Group GcGln). Healthy hybrid groupers (8.50 ± 0.01 g) were fed each diet for 8 weeks. After the feeding trial finished, distal intestine (DI) samples from the three groups were obtained to determine proteome.

Project description:Uric acid-degrading bacterium