Live Weight Research Articles

MOR23 deficiency exacerbates hepatic steatosis in mice.

Hepatic steatosis, a common liver disorder, can progress to severe conditions such as nonalcoholic steatohepatitis and cirrhosis. While olfactory receptors are primarily known for detecting odorants, emerging evidence suggests that they also influence liver lipid metabolism. This study generated a mouse model with a specific knockout of olfactory receptor 23 (MOR23) to investigate its role in hepatic steatosis. MOR23 knockout mice on a normal diet showed a slight increase in liver weight compared to wild-type (WT) mice. When fed a high-fat diet (HFD), these knockout mice exhibited accelerated hepatic steatosis, indicated by increased liver weight and hepatic triglyceride levels. Our findings suggest that the cyclic adenosine monophosphate/protein kinase A/AMP-activated protein kinase pathway is involved in the role of MOR23, leading to the upregulation of peroxisome proliferator-activated receptor α, peroxisome proliferator-activated receptor-γ coactivator 1-α, and their target β-oxidation genes in the liver. MOR23 also appeared to regulate lipogenesis and free fatty acid uptake in HFD-fed mice, potentially by influencing sterol regulatory element-binding protein 1 activity. Notably, administering a potential MOR23 ligand, cedrene, attenuated hepatic steatosis in WT mice, but these effects were largely nullified in MOR23 knockout mice. These findings provide valuable insights into the invivo role of MOR23 in hepatic steatosis development.

Evaluate the role of Moringa oleifera in improving the performance and productivity of broiler chickens

Moringa oleifera, popularly known as the "tree of life" or "miracle tree," is considered an essential herbal plant due to its numerous medical and non-medicinal properties. So, the current study aimed to evaluate the role of M. oleifera in improving the performance and productivity of broiler chickens. 120 broiler chicks of the Lohman breed were raised in the poultry field belonging to the College of Agriculture/University of Tikrit for the period from February to April 2024. The herd was divided into three groups: the first group was the control treatment, and the second group was given 10% M. oleifera leaf powder to the diet. As for the third group, 10% M. oleifera seed oil was used with the feed, this study was designed to calculate the following criteria: live body weight, weight gain, feed intake, and mortality rate. The results showed that the live body weight was better in treatment with M. oleifera seed oil (2095.16±25.42) compared to treatment with M. oleifera leaves (1983.14±29.26) still, when compared to the control group (1842.65±13.57), the two groups had a significant difference (P≤0.05). The average weight gain was better in treatment with M. oleifera seed oil (1968.83±12.62) compared to treatment with M. oleifera leaves (1935.37±8.02), but the two groups showed a significant difference (P≤0.05) compared with the control group (1820.61± 11.35). The average of feed intake was better in treatment with M. oleifera seed oil (3391.41±9.57) compared to treatment with M. oleifera leaves (3315.27±11.82) still, when compared to the control group (3137.18±14.21), the two groups had a significant difference (P≤0.05). the mortality rate was better in treatment with M. oleifera seed oil (2.5%) compared to treatment with M. oleifera leaves (5.0%), but the two groups were better than the control group (7.5%). it is concluded that the leaves and seed oil of M. oleifera are a good enhancer in improving the performance and productivity of broiler chickens.

Dietary soy protein reverses obesity-induced liver steatosis and alters fecal microbial composition independent of isoflavone level

IntroductionMetabolic dysfunction-associated steatotic liver disease (MASLD) is a major public health concern that is exacerbated by the obesity pandemic. Dietary interventions have the potential to alleviate obesity-associated MASLD through variable mechanisms, including optimizing the gut microbiota. Previously, we reported that soy protein concentrate (SPC) with low or high levels of isoflavone (LIF or HIF) protected young obese Zucker rats from developing liver steatosis. The current study was designed to test whether SPC-LIF and SPC-HIF diets would reverse liver steatosis and alter fecal microbial composition in adult obese Zucker rats with existing steatosis.MethodsSix-week-old male obese Zucker rats (n = 26) were fed a casein control diet (CAS) for 8 weeks and 7 rats were randomly selected and sacrificed to confirm liver steatosis. The remaining rats were randomly assigned to receive CAS, SPC-LIF, or SPC-HIF diet (n = 6–7/group) for an additional 10 weeks.ResultsCompared to CAS diet, feeding SPC-LIF and SPC-HIF diets resulted in significantly lower liver weight, liver steatosis score, and liver microvesicular score (p < 0.05), but did not lead to difference in body weight, liver macrovesicular score, serum ALT, or serum AST. Isoflavone levels (e.g., LIF vs. HIF) did not affect any of these measurements except in the SPC-HIF group, which had an additional decrease in liver weight (p < 0.05) compared to the SPC-LIF group. The SPC-HIF group also had significantly higher levels of the aglycone forms of daidzein, genistein, and equol as well as the total levels of daidzein, genistein, and equol compared to SPC-LIF or CAS diet fed rats (p < 0.05). The distribution of microbial communities based on measures of beta diversity of both SPC-LIF and SPC-HIF groups were significantly different to that of the CAS group (p ≤ 0.005). Alpha-diversity did not differ between any of the groups.ConclusionTaken together, dietary soy protein can reverse liver steatosis in adult Zucker rats, and the reversal of steatosis is accompanied by alterations in gut microbial composition.

Therapeutic effects of FGF21 mimetic bFKB1 on MASH and atherosclerosis in Ldlr-/-.Leiden mice.

Fibroblast growth factor 21 (FGF21) is a promising target for treatment of obesity-associated diseases including metabolic dysfunction-associated steatohepatitis (MASH) and atherosclerosis. We evaluated the effects of the bispecific anti-FGF21-β klotho (KLB) agonist antibody bFKB1 in a preclinical model of MASH and atherosclerosis. Low-density lipoprotein receptor knockout (Ldlr-/-).Leiden mice received a high-fat diet for 20 weeks, followed by treatment with an isotype control antibody or bFKB1 for 12 weeks. Effects on plasma risk markers and (histo)pathology of liver, adipose tissue, and heart were evaluated alongside hepatic transcriptomics analysis. bFKB1 lowered body weight (-21%) and adipose tissue mass (-22%) without reducing food intake. The treatment also improved plasma insulin (-80%), cholesterol (-48%), triglycerides (-76%), alanine transaminase (ALT: -79%), and liver weight (-43%). Hepatic steatosis and inflammation were strongly reduced (macrovesicular steatosis -34%; microvesicular steatosis -100%; inflammation -74%) and while the total amount of fibrosis was not affected, bFKB1 did decrease new collagen formation (-49%). Correspondingly, hepatic transcriptomics and pathway analysis revealed the mechanistic background underlying these histological improvements, demonstrating broad inactivation of inflammatory and profibrotic transcriptional programs by bFKB1. In epididymal white adipose tissue, bFKB1 reduced adipocyte size (-16%) and inflammation (-52%) and induced browning, signified by increased uncoupling protein-1 (UCP1) protein expression (8.5-fold increase). In the vasculature, bFKB1 had anti-atherogenic effects, lowering total atherosclerotic lesion area (-38%). bFKB1 has strong beneficial metabolic effects associated with a reduction in hepatic steatosis, inflammation, and atherosclerosis. Analysis of new collagen formation and profibrotic transcriptional programs indicate that bFKB1 treatment may have antifibrotic potential in a longer treatment duration as well.

Wire injury induced moderate aortic valve stenosis in mice is accompanied by a chronic systemic inflammatory reaction

Abstract Background Patients with aortic valve stenosis (AS) have elevated serum levels of inflammation markers, and blood cytokine levels correlate with ventricular recovery after transcatheter aortic valve replacement. While presence of inflammatory processes in stenotic aortic valves is acknowledged, no systematic characterization of the systemic immune reaction upon AS has been performed, yet. Purpose Hypothesis of this study was that AS induces a systemic inflammatory reaction linked with local processes in the heart. Methods AS was induced by wire injury (WI) or sham surgery was performed in 3-4 months old male C57Bl/6J mice. AS severity, left ventricular (LV) function and hypertrophy indices were assessed with echocardiography (echo). After four weeks, explanted organs were weighted, and flow cytometry identified total leukocyte numbers in blood, heart, and peripheral immune organs (spleen, liver, lymph nodes) and uptake of Cy5-labelled perfluorocarbon nanoemulsions by whole blood leukocytes. Costimulatory molecules (flow cytometry, RT-qPCR) and cytokines (RT-qPCR, Multiplex Immunoassay) were analysed in heart, peripheral immune organs and blood. Results R-values were positive for spleen weight correlation with AS severity, cardiac function and mass suggesting cardiac hypertrophy to preserve heart function. Myocardial myeloid and T cell r-values were positive or negative, respectively, for correlation with spleen and liver weight, hinting at T cell recruitment from peripheral stores. Immune cell numbers in peripheral lymph nodes and spleen showed negative r-values for correlation with heart hypertrophy indices; number of liver myeloid cells correlated negatively with LV wall thickness (monocytes=-0.8571, p=0.0238) suggesting immune cell recruitment to hypertrophic hearts. Cytokine mRNA levels trended mainly towards increase in heart and regional lymph nodes and reduction in spleen and liver after WI. Correlation with echo was more homogeneous after WI, with r-values mainly positive, except of T cell activation markers, for aortic valves, but negative for myocardium, hinting at mechanisms preserving heart function. Correlating unchanged cytokine protein levels in myocardium and plasma with echo, r-values were mostly positive for myocardium, and were more positive than in sham for plasma. Echo and costimulatory molecule correlation showed a more homogeneous pattern in WI, with mostly positive r-values in myocardium and periphery, while most r-values were negative in sham. Together with reduced PFC-uptake by lymphatic cells, this hints at systemic immune cell activation in AS. Conclusion The results suggest that number and activation state of leukocytes in peripheral organs are directly linked to cardiac processes in AS. Considering the pathological value of inflammation, it is crucial to in future studies find out if modulation of the systemic inflammatory reaction relieves severity of AS and prevents development of heart failure.

Statistical Models and Evaluation Criteria Used in Poultry Farming

In this thesis study, the statistical models and evaluation criteria used in poultry breeding were examined comprehensively, taking into account live weight gain, egg weight and egg numbers. For this purpose, as an example of live weight increase; 9-week live weight gains of Ross-308 broiler line, as an example of egg weight; The average of 20-week-old egg weights of brown Lohmann laying hens and 9-week egg yields of Japanese quail were used as an example of the number of eggs. In modeling, for live weight gain; 10 different models for egg production; 11 different models and 8 different models for egg weight were considered. In evaluating the models; error mean squares, coefficient of determination, corrected coefficient of determination, Akaike information criterion, corrected Akaike information criterion, Bayesian information criterion, accuracy factor, deviation factor and Durbin-Watson autocorrelation values were taken into consideration. As a result of the study, in terms of live weight gain; The cubic piecewise regression model is the best model in terms of egg yields; It was determined that the modified Compartmental model and the logistic model gave better results than the others in terms of egg weight. The worst models are in live weight gains; Brody, egg yields; It was concluded that there was a quadratic linear and Von Bertalanffy model for egg weight.

Environmental benefits of crude protein reduction in growing pig diets: Is it worth going further?

Nitrogen (N) excretion and emissions can be reduced in fattening pigs by reducing dietary crude protein (CP) level. Effects of this strategy are well documented for moderate CP reduction, but little literature exists on further CP reduction made possible by free isoleucine, histidine, and leucine. This trial evaluated the effects of two levels of reduction in CP on growth performance, N balance, and gaseous emissions. Forty-eight pigs were allocated to 12 gaseous emission-measuring chambers at 28kg live weight. Three dietary treatments (CTRL; -1.2pt; -2.4pt), with a CP content, respectively, of 18.1%, 16.9%, and 15.0% in phase 1 (28-48kg) and 16.1%, 15.0%, and 13.8% in phase 2 (48-80kg), were fed ad libitum. Growth performance was recorded for each phase. Body lipid and protein composition were analyzed by dual-energy X-ray absorptiometry in two animals per chamber at the beginning and end of the trial. These results were used to calculate the N balance. Slurry volume and composition were measured at the end of the trial. Ammonia, methane, and nitrous oxide emissions were recorded continuously. Data were analyzed with a general linear model including the linear and quadratic effect of CP reduction and phase as fixed effects. A trend for a quadratic effect of CP reduction on feed intake was observed (P = 0.085) with a decrease from CTRL to -1.2pt and then an increase with the -2.4pt treatment. Daily gain and gain to feed were improved by the low-CP diets in phase 1 but were degraded in phase 2 (phase × CP interaction, P < 0.001) while body composition was not affected. Nitrogen excretion decreased with CP reduction (linear effect, P = 0.023) but tended to plateau with the low-CP diets (quadratic effect, P = 0.081). Methane emissions per kg of gain were reduced with CP reduction (linear effect, P = 0.031). Ammonia emissions decreased with CP reduction, mostly in phase 1 (phase × CP interaction, P = 0.015); however, the emission factor (g N-NH3 / g urinary N) was not affected. Nitrous oxide emissions were not affected by CP reduction and its emission factor (g N-N2O / g N) tended to increase (linear effect, P = 0.07). Slurry ammonia-N decreased (linear effect, P < 0.023; quadratic effect, P = 0.049), but other slurry components were not significantly impacted. In this trial, a plateau in N excretion and emission reduction was reached with the -2.4pt treatment. Nevertheless, it is important to study such a reduction in conditions closer to commercial ones.

Statistical modelling of growth curve for longitudinal data on a feeding trial in goat breeds

The growth curve parameters were estimated extending a linear regression to higher degree polynomial with attempts to use also the biologically appealing Gombertz function. The data contained monthly weight records from weaning to the age of 14 months of kids in two Omani goat breeds Sahrawi and Jabbali used in a feeding trial assessing the effect of concentrate supplement (14% crude protein). The growth curve parameters were estimated within the fixed effects breed and feed concentrate level (2 or 3% of live body weight) with an extension to mixed models using animals as random effects. The parameters and model contrasting were performed with ML or REML as appropriate with relative comparison relying on AIC and significance testing of estimated parameters. The mixed model analyses were performed with publicly available R software package programs. The fixed effect cubic regression with linear random effect model fitted into the data. The higher level of concentrates improved the immediate post-weaning growth in the same way in the breeds while the subsequent growth curve differed with more pronounced weight increments in the Jabbali breed.

Selection and genetic parameters of productivity of sheep (&lt;i&gt;ovis aries&lt;/i&gt;) of the Trans-Baikal breed of the Khangil type

The study was conducted to investigate the selection and genetic parameters of productivity of fine-wool sheep of the Trans-Baikal breed of the Khangil typein order to increase the efficiency of the selection process. The relationships between the selected traits (live weight, wool yield) and the exterior and constitutional features were determined using the method of correlation and regression analysis. Of the assessed parameters, the greatest variability was observed for body weight (11.9…19.4 %), wool yield (9.9…11.1 %) and latitudinal linear measurements (8.2…12.4 %). According to the constitution indices, rams differed from ewes by greater leg length, better chest development, stronger skeleton, while ewes were characterized by a more stretched, compact and massive body with a better developed back part. Live weight and wool yield of rams were more closely associated with linear measurements than those of ewes. Live weight of both males and females correlated more strongly with chest girth (respectively +0.916, p 0.001 and +0.740, p 0.001), wool yield – with chest depth in rams (+0.737, p 0.001) and hip width in ewes (+0.469, p 0.001). In Trans-Baikal breed of the Khangil type rams, with an increase in the hip width measurement by 1 cm, it is possible to predict an increase in live weight by 5.50 kg (r = 0.839; p 0.001), in ewes with an increase in chest girth by 1 cm – by 1.04 kg (r = 0.740; p 0.001). The analysis of paired regression equations shows that the live weight of Trans-Baikal breed of the Khangil type ewes is largely determined by the linear measurement of the chest girth: in rams – 83.9 %, in ewes – 54.7 %, the influence of other factors accounts for 16.1 and 45.3 %, respectively. At the same time, in the multivariate regression models, 94.3 and 74.7 % of the change in body weight is explained by the effect of a complex of linear measurements, and the remaining share is attributed to the influence of other factors.

Effect of Stocking Density on Growth Performance and Carcass Characteristics of Broilers Grown to 3 Kg under Antibiotic Free Diets1,2

Background: Stocking densities could have a significant impact on birds when reducing or eliminating antimicrobials (antibiotic-free; ABF) in poultry diets. This study investigated the effects of stocking densities on growth performance and carcass characteristics of broilers fed antibiotic-free diets grown to 3 kg. Methods: A total of 888 1-d-old Ross × Ross 708 chicks were randomly distributed into 24 pens. The treatments were four stocking densities including 29, 33, 39 and 42 kg of BW/m2; each treatment was represented by six replicates. Treatments were blocked within the room to account for any variations in room conditions. Treatment assignments were randomized within each block. Used bedding was obtained from commercial farms to simulate commercial conditions and litter microflora. Birds were fed antibiotic-free (ABF) diets and provided a three phase-feeding program (Starter: 0-14 d, Grower: 15-28 d and Finisher: 29-42 d). Feed and water were provided ad libitum. Birds and feed were weighed on 1, 14, 28 and 42 d of age to measure growth performance. On d 43, 10 (5 males and 5 females) birds from each pen were processed to determine weights and yields. Result: The BW and BW gain, live weight, carcass weights and carcass yield percentage were not affected by stocking density. Also, mortality was not affected by stocking density. However, FI and FCR for the starter period were significantly elevated (P less than 0.001 and P less than 0.001, respectively) at lower stocking densities, but were not different for the remainder of the growout. In conclusion, stocking densities evaluated from 29 to 42 kg/m2 with appropriate environmental management has a negligible effect on overall production and processing yield in ABF broilers.

Alterations in tissue content of iron and zinc in mice bearing hepatoma 22a and their correction by zinc sulphate supplementation

It is known that many tumors induce iron and zinc deficiency in the organism. We studied the content of these metals, as well as the specific activity of two antioxidant metal-dependent enzymes – catalase and superoxide dismutase of three distal organs (thymus, liver and spleen) in animals bearing transplantable hepatoma 22a. These alterations were compared to weight changes of organs. On day 21 of tumor growth, as compared to control group, nonheme iron content in all three organs was decreased, and zinc content – only in the thymus. The specific activities of catalase and superoxide dismutase were both increased in the thymus, while in the liver activity of superoxide dismutase decreased. At the same time point thymic involution and splenomegaly were developed. In order to normalize metal content mice bearing hepatoma 22a were supplemented with 22 mkg of zinc sulphate per ml of drinking water during 3 weeks. Zinc sulphate supplementation partly compensated zinc deficiency in the thymus, increased zinc content in the liver and restored iron content in three organs. It also normalized superoxide dismutase activity in the liver and had no influence on enzymes in other organs. Zinc supplementation did not influence the weight of spleen and liver, but prevented the development of thymic involution. Moreover, metal deficiency in the thymus was restored while the activity of antioxidant enzymes remained unchanged. Based on this we can conclude that thymus involution in hepatoma 22a mice was associated with iron and zinc deficiency in this organ and was not linked with antioxidant enzyme activity, while splenomegaly had no relation to both types of parameters in the spleen. Thus, zinc sulphate positively influences metabolism of two vital trace elements – zinc and iron in animals bearing hepatoma 22a, what contributes to maintaining of the central immune organ – the thymus, and along with this it improves antioxidant system of the liver.

Deficiency of GPR10 and NPFFR2 receptors leads to sex-specific prediabetic syndrome and late-onset obesity in mice.

GPR10 and neuropeptide FF receptor 2 (NPFFR2) play important role in the regulation of food intake and energy homeostasis. Understanding the interaction between these receptors and their specific ligands, such as prolactin-releasing peptide, is essential for developing stable peptide analogs with potential for treating obesity. By breeding and characterizing double knockout (dKO) mice fed standard or high-fat diet (HFD), we provide insights into the metabolic regulation associated with the GPR10 and NPFFR2 deficiency. Both WT and dKO mice were subjected to behavioral tests and an oral glucose tolerance test. Moreover, dual-energy X-ray absorptiometry (DEXA) followed by indirect calorimetry were performed to characterize dKO mice. dKO mice of both sexes, when exposed to an HFD, showed reduced glucose tolerance, hyperinsulinemia, and insulin resistance compared with controls. Moreover, they displayed increased liver weight with worsened hepatic steatosis. Mice displayed significantly increased body weight, which was more pronounced in dKO males and caused by higher caloric intake on a standard diet, while dKO females displayed obesity characterized by increased white adipose tissue and enhanced hepatic lipid accumulation on an HFD. Moreover, dKO females exhibited anxiety-like behavior in the open field test. dKO mice on a standard diet had a lower respiratory quotient, with no significant changes in energy expenditure. These results provide insights into alterations associated with disrupted GPR10 and NPFFR2 signaling, contributing to the development of potential anti-obesity treatment.

LncRNA Snhg3 aggravates hepatic steatosis via PPARγ signaling.

LncRNAs are involved in modulating the individual risk and the severity of progression in metabolic dysfunction-associated fatty liver disease (MASLD), but their precise roles remain largely unknown. This study aimed to investigate the role of lncRNA Snhg3 in the development and progression of MASLD, along with the underlying mechanisms. The result showed that Snhg3 was significantly downregulated in the liver of high-fat diet-induced obesity (DIO) mice. Notably, palmitic acid promoted the expression of Snhg3 and overexpression of Snhg3 increased lipid accumulation in primary hepatocytes. Furthermore, hepatocyte-specific Snhg3 deficiency decreased body and liver weight, alleviated hepatic steatosis and promoted hepatic fatty acid metabolism in DIO mice, whereas overexpression induced the opposite effect. Mechanistically, Snhg3 promoted the expression, stability and nuclear localization of SND1 protein via interacting with SND1, thereby inducing K63-linked ubiquitination modification of SND1. Moreover, Snhg3 decreased the H3K27me3 level and induced SND1-mediated chromatin loose remodeling, thus reducing H3K27me3 enrichment at the Pparg promoter and enhancing PPARγ expression. The administration of PPARγ antagonist T0070907 improved Snhg3-aggravated hepatic steatosis. Our study revealed a new signaling pathway, Snhg3/SND1/H3K27me3/PPARγ, responsible for mice MASLD and indicates that lncRNA-mediated epigenetic modification has a crucial role in the pathology of MASLD.

Disruption of canonical AHR-mediated induction of hepatocyte PKM2 expression compromises antioxidant defenses and increases TCDD-induced hepatotoxicity

Metabolic reprogramming by the pyruvate kinase M2 isoform is associated with cell proliferation and reactive oxygen species (ROS) defenses. 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD), an environmental contaminant that induces ROS and hepatotoxicity, dose-dependently induces pyruvate kinase muscle isoform M2 (PKM2) in the liver. To further investigate its role in combating TCDD hepatotoxicity, a PkmΔDRE mouse was constructed lacking the dioxin response element mediating aryl hydrocarbon receptor (AHR) induction. TCDD failed to induce hepatic PKM2 in PkmΔDRE mice and in primary hepatocytes isolated from an AHR knockout model (AHRV375Afl/flAlb-CreERT2), demonstrating induction is AHR dependent. Both wild-type (WT) and PkmΔDRE mice exhibited dose-dependent increases in liver weight after treatment with TCDD every 4 days for 28 days. Glutathione (GSH) levels increased in WT mice while oxidized glutathione (GSSG) levels increased in both models with a 24-fold decrease in the GSH/GSSG ratio in PkmΔDRE mice suggesting lower antioxidant and recycling capacity. Moreover, TCDD-induced fibrosis was more severe in PkmΔDRE mice while PkmΔDRE hepatocytes exhibited greater cytotoxicity following co-treatment with TCDD and hydrogen peroxide. TCDD also induced PKM2 in human HepaRG™ cells with AHR enrichment at a conserved DRE core within the locus. These results suggest AHR-mediated PKM2 induction is a novel antioxidant response to TCDD.

LncRNA Snhg3 aggravates hepatic steatosis via PPARγ signaling

LncRNAs are involved in modulating the individual risk and the severity of progression in metabolic dysfunction-associated fatty liver disease (MASLD), but their precise roles remain largely unknown. This study aimed to investigate the role of lncRNA Snhg3 in the development and progression of MASLD, along with the underlying mechanisms. The result showed that Snhg3 was significantly downregulated in the liver of high-fat diet-induced obesity (DIO) mice. Notably, palmitic acid promoted the expression of Snhg3 and overexpression of Snhg3 increased lipid accumulation in primary hepatocytes. Furthermore, hepatocyte-specific Snhg3 deficiency decreased body and liver weight, alleviated hepatic steatosis and promoted hepatic fatty acid metabolism in DIO mice, whereas overexpression induced the opposite effect. Mechanistically, Snhg3 promoted the expression, stability and nuclear localization of SND1 protein via interacting with SND1, thereby inducing K63-linked ubiquitination modification of SND1. Moreover, Snhg3 decreased the H3K27me3 level and induced SND1-mediated chromatin loose remodeling, thus reducing H3K27me3 enrichment at the Pparg promoter and enhancing PPARγ expression. The administration of PPARγ antagonist T0070907 improved Snhg3-aggravated hepatic steatosis. Our study revealed a new signaling pathway, Snhg3/SND1/H3K27me3/PPARγ, responsible for mice MASLD and indicates that lncRNA-mediated epigenetic modification has a crucial role in the pathology of MASLD.

Features of the growth and histostructure of the duodenum of japanese quails (Coturnix japonica) of the meat and universal direction

The article presents data on the relationship between the live weight, weight of the gastrointestinal tract and the productivity type of Japanese quail (Coturnix japonica domestica). It is shown that during the first week of the experiment, quails of the universal (dual-purpose) productivity type developed faster than the meat quails in terms of live weight, however, by the age of 28 days, this indicator becomes higher in meat quails. This pattern persists until the end of rearing. The relative weight of the gastrointestinal tract, as well as the duodenum, was higher in meat quails in the first week, and later it became less than in a universal type quail.The histological structure of the duodenum was also studied. On histological slides, the preservation of all layers of the duodenum is observed. The lamina propria of the mucosa is rich in lymphoid tissue. The submucosa is poorly distinguishable. The thickness of the mucosa of the duodenum prevailed throughout the experiment in quails of the universal type. In the first 7 days, the length of the duodenum villi was significantly higher than that of meat quails. The ratio of the length of the villi to the crypt increases with age in all groups of quails. In the first 7 days, this indicator was higher in quails of the egg-meat type, but by the 56th day it gradually leveled off. The depth of crypts (common intestinal glands) in the first week of growth prevailed in the intestines of meat quails (p ≤ 0.05).

Kadukkai maathirai (Indian herbal drug) prevents hepatocellular cancer progression by enhancing GSTM1 expression and modulating β catenin transcription: in-silico and in-vivo study

Background Hepatocellular carcinoma (HCC) is an aggressive malignancy with poor clinical outcomes. Hence cost-effective drugs with fewer side effects as a standard supportive therapy might yield substantial advantages in efficacy and safety. Kadukkai maathirai (KM) is being used as a supplement in hepatocellular carcinoma. We evaluated whether KM has any preventive action on cancer progression in diethyl nitrosamine (DEN) - induced HCC in rats. Methods DEN was injected to produce HCC in rats, which was confirmed after 16 weeks. All the rats were orally administered KM for 4 weeks. Hepatoprotective potential (serum AST, ALT, ALP, Bilirubin) and anticancer efficacy (body weight, nodule count, tumor progression by histopathology, expression of GSTM1 by Liquid chromatography-mass spectrometry (LC-MS), and In-silico analysis of phytoconstituents against β catenin and LRP analysis were evaluated. Results KM prevented cancer progression against DEN-induced HCC by an increase in GSTM1, a phase II detoxifying enzyme. It significantly reversed altered nodule count, relative liver weight, body weight, and histopathological features of HCC. In silico analysis of phytoconstituents of KM showed that they modulate the intracellular transcription process by inhibiting the armadillo repeat region of β catenin. Conclusions Our results elucidate the potential of KM as a supplement in HCC by reducing nodule count, protecting the liver from further damage, GSTM1 expression, and inhibiting armadillo repeat region of β catenin.

Associations of different genotypes with the meat productivity of sheep

Identification of the potential to increasthe agricultural production of farm animals has become possible through the use of genomic selection methods. It is advisable to improve breeding and pedigree qualities of local breeds, since these have the best adaptability to the features of the natural and geographical conditions in a given area. He controlled slaughter of animals with different genotypes allowed us to determine their meat qualities, such as biological value, slaughter yield and slaughter weight. The ratio of slaughter weight and pre‐slaughter weight gives the slaughter yield in percent.PCR (polyamino acid chain reaction) using specific synthesised sets of oligonucleotides in the genotyping of experimental sheep populations was carried out in order to study the allelic variants of the CAST and GH genes.When studying the indices characterising body weight in sheep which have different genotypes, significant increases in the indices could be observed before the periods of driving to summer pastures (17.2 kg) and during lambing (25.8 kg). The lowest indices were noted during driving both from winter pastures to summer pastures and from summer pastures to winter pastures (30.5 kg).In the period before driving, the live weight index was higher in the CASTMM genotype by 5.8 %; upon arrival in the mountains the difference was 6.1 %; during lambing — 4.7 %; before leaving for winter pastures — 8.4 % and upon arrival at winter pastures — 9.5 %.

Implication of dietary barberry (Berberis Vulgaris) leaves inclusion on growth performance, nutrient digestibility, and carcass traits in ostriches

This study determined production performance, nutrient intake, digestibility, and carcass traits from ostrich chicks fed with barberry (Berberis Vulgaris) leaves (BVL) as a replacement for alfalfa hay (AH). For 150 days, 30 male ostrich (Struthio camelus) (9.10 ± 0.89 kg live weight, mean ± SD) were randomly grouped into five dietary BVL inclusion levels to replace AH: a control diet based on 100% AH (CTRL), and four groups with BVL as a substitute for AH at varying levels including 25% (BVL25), 50% (BVL50), 75% (BVL75), and 100% (BVL100). The average daily feed intakes (ADFI) were recorded and birds were weighed monthly. The nutrient intake and digestibility were measured for the following final 5 days of the trial. The ADFI was higher (p = 0.025) for BVL100 and BVL75 than for CTRL. Ostriches fed on BVL50 had the highest average daily gain (ADG, p = 0.025) and the lowest feed conversation ratio (FCR, p = 0.0001). Return per kg BW gain was also enhanced (p = 0.018) with BVL50 feeding. Dietary BVL levels did not affect the digestibility of OM (p = 0.257), CP (p = 0.260), EE (p = 0.610), CF (p = 0.427), and Ash (p = 0.461). Also, there were no changes in AME (p = 0.180) or AMEn (p = 0.670). The hot carcass weight (HCW, p = 0.331) and dressing BW (p = 0.237) were not affected. Overall, the results suggest that BVL can replace AH in ostrich diets without deleterious impact on performance, however, its partial substitution (for 50% AH of diet) has been associated with improved ADG, FCR, and reduced feeding costs.

The Productive and physico-chemical performance at two seasons of the year in trout (oncorhynchus mykiss)

The objective of the research was to evaluate the productive and physicochemical performance of trout (Oncorhynchus mykiss) in two seasons of the year. The months of April-June for the rainy season and July-September for the dry season in the Junín region of Peru were considered. The productive performance variables were: length, live weight, carcass weight and yield; on the other hand, the physicochemical variable (pH, water retention, humidity, ash, ethereal extract and protein). The results indicate that no differences (p&gt;0.05) were found between the rainy and dry seasons for: length (cm), moisture (%), ash (%), ethereal extract (%) and protein (%). On the contrary, differences (p&lt;0.05) were found between the rainy and dry seasons for live weight (g) with 239.37 g and 186.30 g respectively, as well as differences for carcass weight (g) in the rainy (186.30 g) and dry (140.77 g) seasons; likewise, differences were found for carcass yield (%), with 88.17 % and 86.89 % for the rainy and dry seasons, respectively. It is evident that in the rainy season there is an increase in their productive behavior. In terms of physicochemical performance, both seasons do not influence the chemical characteristics