Project description:This study aimed to investigate the effect of dietary supplementation with postbiotic from dead cell Lactobacillus ingluviei CR37 (DCLI) on blood biochemical parameters, and jejunal epithelium transcriptomic profiles in calves. Transcriptomic analysis identified 76 DEGs, with significant upregulation of genes involved in fatty acid metabolism (FABP1), intestinal barrier function (B4GALNT2), and detoxification (GSTA1), alongside downregulation of immune response regulation (FCRLA, FCRL4). Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses highlighted enrichment in pathways related to Glutathione metabolism, Drug metabolism, and Vitamin digestion, indicating postbiotic supplementation improved detoxification, oxidative stress defense, and nutrient absorption in calves. This study provides novel insights into the molecular mechanisms underlying the benefits of postbiotics and supports their potential as a sustainable alternative to probiotics in calf nutrition

Project description:The objective of present work is to use foodomics approaches in calves’ skeletal muscle and plasma to fully assess the effects of the supplementations of leucine and threonine in the MR during preweaning period (5.6 days to 53.6 days) under the hypothesis that AA supplementation will modify the energy metabolism, especially of the muscle tissue. This study extends our understanding on the metabolism in dairy calves and help to optimize their nutritional status.

Project description:We analysed effects of different feeding regimes of milk replacer (MR) during rearing on ovarian physiology with specific emphasis on the numbers of granulosa cells (GCs) as well as gene expression characteristics in GCs at the age of puberty onset. Animals of the 20% feeding group had a significantly higher body weight, but the proportion of animals having a corpus luteum at the time of slaughter was not different between groups, suggesting a similar onset of puberty. Calves of the 10% group showed a constant granulosa cell count regardless of the number of follicles (r = 0.23) whereas in the 20% group increasing numbers of GCs were detected with a higher follicle count (r = 0.71). The mRNA microarray analysis revealed a total of 557 differentially expressed genes in GCs (fold change > |1.5| and p<0.05). Among the top downregulated genes were OAS1X, MX2 and OAS1Z, whereas the top upregulated genes were BOLA, XCL1 and MT1E, which are known to be regulated by interferon. Subsequent signaling pathway analysis revealed the involvement of several immune response mechanisms in accordance with a number of interferons as upstream regulators. The results indicate that the plane of MR feeding in early life have an impact on the number and physiology of GCs later in life. This might influence the overall reproductive life initiated by the onset of puberty in cattle. In addition, the observed alterations in GCs of calves fed less MR might be a consequence of interferon regulated immunological pathways.

Project description:The aim of the overall study was to investigate the development of immune competence in artificially reared dairy calves and in two breeds of naturally suckled beef calves over the first 168h of life. Dairy calves were fed 5% total body weight of colostrum, with beef calves monitored to ensure natural ingestion of colostrum. Blood samples were taken from all calves at 24h 48h 72h and 168h, and analysed for alterations to immunes genes.

Project description:We used a smooth muscle cell-specific mineralocorticoid receptor knockout mouse to generate young and aged MR-intact and SMC-MR-KO aortic miRNA to examine the effect of age on vascular miRNA alterations in the presence and absence of SMC-MR. For more information about the mouse model see: McCurley, A et al. Direct regulation of blood pressure by smooth muscle cell mineralocorticoid receptors. Nat Med. 2012 Sep;18(9):1429-33

Project description:We used a smooth muscle cell-specific mineralocorticoid receptor knockout mouse to generate young and aged MR-intact and SMC-MR-KO aortic mRNA to examine the effect of age on vascular mRNA alterations in the presence and absence of SMC-MR. For more information about the mouse model see: McCurley, A et al. Direct regulation of blood pressure by smooth muscle cell mineralocorticoid receptors. Nat Med. 2012 Sep;18(9):1429-33

Project description:We used a smooth muscle cell-specific mineralocorticoid receptor knockout mouse to generate young and aged MR-intact and SMC-MR-KO aortic miRNA to examine the effect of age on vascular miRNA alterations in the presence and absence of SMC-MR. For more information about the mouse model see: McCurley, A et al. Direct regulation of blood pressure by smooth muscle cell mineralocorticoid receptors. Nat Med. 2012 Sep;18(9):1429-33 Total miRNA was extracted from young (3-4 mo) and aged male (12mo) MR-intact and SMC-MR-KO mice to investigate aging-induced alterations in vascular miRNA expression

Project description:Background. Food can affect the microbial balance in the human intestine, and the ingestion of probiotics may play a role in the current obesity pandemic. The objective of our study was to determine if increased Lactobacillus spp. in the intestinal microflora of mice can promote growth and if changes in the intestinal microflora are associated with modifications in metabolism. Methodology. Female BALBc mice were divided between one control and two experimental groups and inoculated either once or twice with 4×1010 Lactobacillus per animal in PBS or with PBS alone. Fecal samples were collected and tested using qPCR to detect and quantify Lactobacillus spp., Bacteroidetes and Firmicutes. Gene expression by microarray and RT-PCR was studied in liver and adipose tissue. Finally, metabolic parameters in the plasma were tested. Principal Findings. In three independent experiments, we observed an increase in both weight gain and liver weight in mice inoculated with 4×1010 Lactobacillus. Inoculation with Lactobacillus sp. (ostrich) increased the Lactobacillus spp. and Firmicutes DNA copy number in feces. The transcriptional profile of liver tissue from mice inoculated with Lactobacillus sp. (ostrich) was enriched for Gene Ontology terms related to the immune response and metabolic modifications. The mRNA levels of fatty acyl synthase (Fas), sterol regulatory element binding factor 1 (Srebp1c), tumor necrosis factor alpha (Tnf), cytochrome P450 2E1 (Cyp2e1) and 3-phosphoinositide-dependent protein kinase-1 (Pdpk1) were significantly elevated in liver tissue in experimental group animals. In gonadal adipose tissue, the expression of leptin, peroxisome proliferator-activated receptor gamma (Pparg and Srebp1c was significantly higher in experimental group animals, whereas the expression of adiponectin was significantly lower. Conclusions. Alterations in the intestinal microbiota resulted in increased weight gain. Furthermore, increased Lactobacillus spp. in the intestinal microflora of mice inoculated with Lactobacillus sp. (ostrich) resulted in accelerated weight gain, liver enlargement and metabolic changes in the plasma, liver and adipose tissue.

Project description:<p><strong>BACKGROUND:</strong> Long-distance transportation, a frequent practice in the cattle industry, stresses calves and results in morbidity, mortality and growth suppression, leading to welfare concerns and economic losses. Alkaline mineral water (AMW) is an electrolyte additive containing multiple mineral elements and shows stress-mitigating effects on humans and bovines.</p><p><strong>RESULTS:</strong> Here, we monitored the respiratory health status and growth performance of 60 Simmental calves subjected to 30 hours of road transportation using a clinical scoring system. Within the three days of commingling before the transportation and 30 days after the transportation, calves in the AMW group (n = 30) were supplied with AMW, while calves in the Control group (n = 29) were not. On three specific days, namely the day before transportation (day -3), the 30th day (day 30) and the 60th day (day 60) after transportation, sets of venous blood, serum and nasopharyngeal swab samples were collected from ten calves for routine blood testing, serology detection, whole blood transcriptomic sequencing, serum untargeted metabolic sequencing and 16S rDNA sequencing. The field data showed that calves in the AMW group displayed lower rectal temperatures (38.967 vs 39.022 °C; p &lt; 0.001), respiratory scores (0.079 vs 0.144; p &lt; 0.001), appetite scores (0.024 vs 0.055; p &lt; 0.001), ocular and ear scores (0.185 vs 0.338; p &lt; 0.001), nasal discharge scores (0.143 vs 0.241; p &lt; 0.001) and higher body weight gains (30.87 vs 7.552 kg; p &lt; 0.001). The outcomes of laboratory and high throughput sequencing data revealed that the calves in the AMW group demonstrated higher cellular and humoral immunities, antioxidant capacities, intestinal absorption and lipogenesis abilities, and lower inflammatory levels on days -3 and 60. The nasopharynx 16S rDNA microbiome results revealed the different composition and structure of the nasopharyngeal microflora in the two groups of calves on day 30. Joint analysis of multi-omics revealed that on days -3 and 30, bile secretion was a shared pathway enriched by differentially expressed genes and metabolites, and there were strong correlations between the differentially expressed metabolites and the main genera in the nasopharynx.</p><p><strong>CONCLUSIONS:</strong> These results suggest that AMW supplementation enhances peripheral immunity, nutrition absorption and metabolic processes, subsequently affecting the nasopharyngeal microbiota and improving the respiratory health and growth performance of transported calves. This investigation provided a practical approach to mitigate transportation stress and explored its underlying mechanisms, which are beneficial for the development of the livestock industry.</p>

Project description:In cattle, two of the most common technologies for embryo production are “in vivo”, after multiple ovulation and embryo transfer (MOET), or “in vitro” (IVP). IVP can sometimes impact fetal growth, resulting in large offspring, although most IVP calves are born apparently healthy. However, gene regulation changes in the organs involved in the developmental process in phenotypically normal postnatal calves are unknown and could indicate physiological programming. The objective was to compare the epigenomic and transcriptomic modifications in the liver, muscle, and organs of the hypothalamus-pituitary-gonadal and adrenal (HPGA) axes between IVP and MOET male calves of three months of age. Pregnancies were monitored until delivery. Male calves were maintained in similar conditions during the postnatal period until euthanasia at around 100 days of age. There were no differences regarding body weight at birth and growth rate among the animals in both groups at this age.