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Effect of clinically uneventful carotid endarterectomy on pentraxin 3 concentration: relationships between cognitive functions, local inflammation, and duration of brain ischemia
IntroductionThe pentraxins are a superfamily of proteins characterized by the presence of a pentraxin domain at the C-terminal. One of them is pentraxin 3 (PTX3), which is of great interest to scientists, primarily due to its function as an endogenous modulator of the inflammatory response. Local inflammation is a common phenomenon during various types of surgery and procedures, and its causes, among others, are local ischemia or tissue irritation. One such procedure is carotid plaque removal by carotid endarterectomy (CEA), which is performed to reduce the risk of stroke.Material and methodsThe purpose of this study was to investigate the effect of CEA on PTX3 concentration and the relationship between cognitive functions and the duration of brain ischemia in patients. We evaluated the relationships using blood collected from patients undergoing CEA, the Mini-Mental State Examination (MMSE) questionnaire, and commercially available ELISA tests.ResultsResults: We found that the concentration of PTX3 increased after surgery (from 0.59 ± 0.11 to 1.29 ± 0.29 ng mL<sup>–1</sup>; <i>P</i> < 0.01). Also, a decrease in the MMSE score was observed 24 hours after the procedure (<i>P</i> < 0.01). However, just one month after the procedure, it significantly increased compared to the day of admission to the hospital (<i>P</i> < 0.01). Our results did not demonstrate any interactions between the tested parameters. It can be concluded that neither the changes in PTX3 concentration following the procedure nor the timing of these changes directly contribute to the temporary deterioration of cognitive functions observed after CEA.ConclusionsPTX3 increases independently of the duration of cerebral hypoxemia/ hypercapnia after clamping the carotid artery. This rise is an inflammatory marker that occurs independently within the central nervous system.
Cord Blood Spexin Level in Mothers with Obesity—Forecast of Future Obesity?
Spexin (SPX) is a peptide that plays an important role in the regulation of food intake and body weight (BW) by the effect on carbohydrate-lipid metabolism. However, the role of SPX in fetal life, in children, and in adolescent metabolism is limited. Therefore, we decided to check whether obesity affects the concentration of SPX in the mother’s peripheral blood (MB) and umbilical cord blood (UCB). Using MB and UCB sera on the day of delivery obtained from 48 women (24 non-obese and 24 obese) and commercially available Elisa kits and colorimetric assays, we determined changes in SPX and the relationship between SPX concentration and other metabolic and anthropometric markers (body weight and BMI) on the day of delivery and in children at the age of 36 months. We found lower concentrations of SPX in MB (p < 0.05) and UCB (p < 0.01) derived from obese women (BMI > 30) and a moderate linear correlation (r = 0.4429; p < 0.01) between SPX concentrations in MB and UCB. We also noted that the concentration of SPX is not correlated with the child’s body weight on the day of birth (r = −0.0128). However, there is a relationship between SPX at birth and body weight at 3 years of age (r = −0.3219; p < 0.05). Based on the obtained results, it can be assumed that spexin is one of the factors modulating the child’s metabolism already in the fetal period and can be considered a potential marker of future predisposition to obesity. However, confirmation of this thesis requires additional research.
Isolation method and characterization of adipocytes as a tool for equine obesity research – In vitro study
LEAP2 in Physiology—A Narrative Review
Liver Enriched Antimicrobial Peptide 2 (LEAP2) is a fascinating peptide that has gained significant attention since its discovery in 2003. Initially identified as an antimicrobial peptide, LEAP2 has more recently been found to play a key role in the regulation of energy metabolism. One of the most notable functions of LEAP2 is its interaction with the ghrelin hormone, which is known for stimulating hunger. LEAP2 acts as an inhibitor of ghrelin, thereby reducing food intake and influencing energy balance. The physiological roles of LEAP2 extend beyond appetite suppression. Studies have shown that LEAP2 has an impact on insulin secretion, suggesting its potential involvement in glucose metabolism and possibly insulin sensitivity, which is crucial in managing conditions like type 2 diabetes. Moreover, LEAP2 levels appear to fluctuate based on factors such as gender, developmental stage, and even interventions like bariatric surgery, which is known for its role in managing obesity and diabetes. Given these findings, LEAP2 shows potential as a therapeutic target, particularly for addressing obesity and metabolic diseases such as type 2 diabetes. Its ability to influence food intake and energy balance makes it a promising candidate for further research into therapies aimed at weight regulation and glycemic control. In the future, LEAP2 could become an important agent in the development of treatments aimed at curbing obesity and its associated metabolic disorders.
The effect of amylase supplementation on individual variation, growth performance, and starch digestibility in broiler chickens
MOTS-c modulates pancreatic islet function in rats and pigs in vitro
Abstract MOTS-c is a promising regulator of metabolism and energy homeostasis. While its effects have been studied in cell lines, our team aimed to investigate its influence on more complex structures—specifically, isolated pancreatic islets. We used two animal models: the rat, which is commonly studied, and the pig, which shares greater physiological similarities with humans. This study assessed the expression and secretion of insulin and glucagon, the expression of their receptors, cell viability, and cell death following MOTS-c treatment of the islets. Additionally, we examined how MOTS-c secretion is affected by different incubation media, such as the presence of free fatty acids, pancreatic hormones, and different glucose concentrations. The results indicate that MOTS-c impacts pancreatic islet physiology by, for example, reducing insulin and glucagon secretion and enhancing cell viability. Notably, the effects differed between the two species, which may be attributed to anatomical differences in their pancreatic islets or structural variations in rat and pig MOTS-c. These facts may lead to the conclusion that if MOTS-c may be helpful in human medicine, the pig model should be considered another valuable choice.
The effect of heat stress on performance, fertility, and adipokines involved in regulating systemic immune response during lipolysis of early lactating dairy cows
Neopterin Concentration in Umbilical Cord Blood as a Reflection of Maternal Insulin Resistance—A Pilot Study
Background/Objective: Insulin resistance (IR) during pregnancy, even in women with normal body mass index (BMI), may affect maternal and fetal metabolic and immune status. This study aimed to evaluate neopterin (NPT), leptin, insulin, and ghrelin concentrations in maternal blood (MB) and umbilical cord blood (CB) in normoglycemic women with and without IR, all with normal BMI. Methods: Peripheral and cord blood was collected from 36 Caucasian women with term, uncomplicated vaginal deliveries. The participants were classified into control (n = 16; age = 30.81 ± 4.875 years) and IR (n = 20; age = 31.95 ± 4.979 years) groups based on a professional medical diagnosis. Anthropometric parameters were recorded, and metabolic/hormonal markers were measured using ELISA and RIA. Results: NPT concentrations in CB were significantly higher in the IR group (p < 0.05), correlated positively with MB NPT levels (r = 0.3809, p < 0.05). A significantly higher concentration of both insulin and leptin was observed in the MB of women with IR compared to the control group (p < 0.0001), whereas in CB, only insulin concentration was significantly higher in the IR group than in healthy controls (p < 0.05). Ghrelin levels did not differ between the groups. Conclusions: Insulin resistance in non-obese pregnant women is associated with increased NPT concentration in CB, which may suggest fetal immune activation. However, defining the role of NTP as a metabolic “messenger” between mother and child requires further study.
Combination of milk variables and on-farm data as an improved diagnostic tool for metabolic status evaluation in dairy cattle during the transition period
Impact of heat stress during close-up dry period on performance, fertility and immunometabolic blood indices of dairy cows: prospective cohort study
AbstractThis study aimed to investigate whether heat stress, as defined by the temperature-humidity index (THI) during the close-up dry period, had any impact on the productive performance, fertility, and immunometabolic blood indices of dairy cows in the subsequent lactation. Lactation performance was associated with increasing THI values on − 21, − 14, and − 7 d before calving resulting in decreased milk yield by about 2.30, 2.60, and 2.90 kg, respectively. The THI on the − 7 d before the calving was negatively associated with fertility parameters such as delayed first estrus postpartum, an elongated calving interval by approximately 32 d, a higher number of services per conception by 1.00, and an elongated artificial insemination service period, days open, and inter-calving period by about 20, 52, and 52 d, respectively. The study found that the immunometabolic blood indices were associated with increasing THI values during the close-up dry period. The study showed that exposing dairy cows to close-up dry period heat stress had negative consequences on performance, fertility, and immunometabolic blood indices in the subsequent lactation. Therefore, it is recommended that herd management and barn microclimate changes be implemented earlier, starting from the late dry period, to mitigate the negative impact of heat stress.
MOTS-c regulates pancreatic alpha and beta cell functions in vitro
AbstractThe aim of this study is to determine the influence of the mitochondrial open-reading-frame of the twelve S rRNA-c (MOTS-c) peptide on pancreatic cell physiology. Moreover, in this study, we examined the changes in MOTS-c secretion and expression under different conditions. Our experiments were conducted using laboratory cell line cultures, specifically the INS-1E and αTC-1 cell lines, which represent β and α pancreatic cells, respectively. As the pancreas is an endocrine organ, we also tested its hormone regulation capabilities. Furthermore, we assessed the secretion of MOTS-c after incubating the cells with glucose and free fatty acids. Additionally, we examined key cell culture parameters such as cell viability, proliferation, and apoptosis. The results obtained from this study show that MOTS-c has a significant impact on the physiology of pancreatic cells. Specifically, it lowers insulin secretion and expression in INS-1E cells and enhances glucagon secretion and expression in αTC-1 cells. Furthermore, MOTS-c affects cell viability and apoptosis. Interestingly, insulin and glucagon affect the MOTS-c secretion as well as glucose and free fatty acids. These experiments clearly show that MOTS-c is an important regulator of pancreatic metabolism, and there are numerous properties of MOTS-c yet to be discovered.
MOTS-c Impact on Muscle Cell Differentiation and Metabolism Across Fiber Types
Background/Aims: MOTS-c belongs to a group of mitochondrial peptides involved in metabolic processes in the body. This peptide has garnered increasing attention since its discovery in 2015 because of its potential to ameliorate metabolic parameters in animals with diabetes or insulin resistance. MOTS-c is involved in muscle metabolism; however, little is known about its role in fiber differentiation. Materials: We conducted a study to explore the effect of MOTS-c on cellular processes using the C2C12 and L6 cell lines, representing different metabolic types of muscle fibers. The research methods were real-time PCR, Western blot, and lipid accumulation measurement. Results: >Notably, our investigations revealed that MOTS-c increased the survival of C2C12 cells at doses of 10 and 100 nM (p<0.01) and stimulated the phosphorylation of extracellular signal-regulated kinase within 5 min of incubation (p<0.05). Remarkably, these effects were not observed in L6 cells; however, both cell lines showed a reduced rate of proliferation. Furthermore, MOTS-c promotes the differentiation of C2C12 cells by increasing the expression of muscle regulatory factors, but it does not produce such an effect in L6 cells. Additionally, cells were treated with physiological concentrations of free fatty acids and MOTS-c, unveiling an augmentation in lipid accumulation observed in L6 cells and a decrease in lipid accumulation in C2C12 cells. Conclusion: In conclusion, our findings have suggested a diverse response to MOTS-c depending on the type of muscle fibers, particularly in the domains of survival, cell differentiation, and lipid accumulation.
Structural and biomechanical analysis of femurs from mice treated with diclofenac, miR-15b and miR-365
PurposeNonsteroidal anti-inflammatory drugs (NSAIDs) are used to treat pain, but they have side effects, including the inhibition of bone healing. Diclofenac (DF), a member of the NSAID group, affects bone health adversely. One potential approach to protect bones from the effects of NSAIDs involves the administration of short nucleic acids, such as microRNAs (miRNAs). This study aimed to determine whether two specific miRNAs, miR-15b and miR-365, could mitigate the effects of DF on bone.MethodsWe used the C57BL/6J mouse strain and the MC3T3-E1 pre-osteoblast cell line derived from this mouse strain. Female C57BL/6J mice were treated with DF and miR-15b or miR-365 mimics. After euthanising the mice, we analysed their femurs using micro-computed tomography (μCT) and dynamic mechanical analysis (DMA). In addition, we performed experiments in cultured MC3T3-E1 cells, which were transfected with either miR-15b or miR-365. We assessed the relative mRNA levels of osteoblast differentiation markers using real-time PCR.ResultsOur findings indicated that miR-15b and miR-365 were effective in reversing the detrimental effects of DF on bone mineral density. DF decreased the bone’s storage modulus (E’), while miR-15b and miR-365 ameliorated this effect. In the preosteoblast MC3T3-E1 cells, DF did not significantly regulate marker genes; however, the administration of miR-15b and miR-365 reduced the gene expression of Runx2, Alp, and Satb2.ConclusionsIn summary, the impact of DF on the structural and mechanical properties of bone was not mediated by gene regulation in osteoblasts. However, osteoblasts were responsive to the administration of miR-15b and miR-365.
Genistein stimulates the viability and prevents myofibroblastic transformation in human trabecular meshwork cells stimulated by TGF-β
Effect of a high-fat high-fructose diet on the composition of the intestinal microbiota and its association with metabolic and anthropometric parameters in a letrozole-induced mouse model of polycystic ovary syndrome
Nutrient digestion efficiency: a comparison between broiler chickens and growing pigs fed maize, barley and oats-based diets with an emphasis on starch
Abstract We investigated the hypotheses that broilers and pigs have distinct starch digestion capacities and that different cereals could trigger diet–species interactions. Ten replicates of two broilers (14 d old) or one pig (50 d old) each were distributed into a 3 × 2 randomised factorial design with three pelleted diets (maize, barley or oat-based) and the two species. Nutritional composition was equal for both species. Diets were fed for 10 d, and then the pancreas and organs from the stomach region and small intestine were collected with contents. It was observed that both species were similarly efficient at digesting starch but differed in some digestive aspects. Broilers had higher ileal digestibility coefficients (P < 0·001) of DM (0·69) and crude protein (0·75) than pigs (0·66 and 0·67), presented a higher volume of particles < 0·1 mm in duodenal digesta (P < 0·001) and had a lower gizzard pH (3·68) than pig stomach (4·48; P < 0·05). Conversely, pigs had lower ileal viscosity (1·44 v. 2·77 cP; P < 0·05) and higher pancreatic lipase activity (27 v. 5·9 U/g of pancreas; P < 0·05) compared with broilers. In the jejunum, oat led to higher starch digestibility (0·96; P < 0·05) than maize and barley regardless of species. In the ileum, starch digestibility was higher for broilers fed oats (0·99) than broilers fed barley (0·94; P < 0·05), establishing that oats provided, in general, a superior starch availability. The results imply that starch utilisation capacity is more related to its dietary source than to the species to which it is fed.
Model ex vivo układu podwzgórze-przysadka – alternatywa dla badań in vivo nazwierzętach. Udział feniksyny w modulacji aktywności osi gonadotropowej u owiec
Impact of Lactobacillus acidophilus and Its Combination with Isoflavone Products on Calcium Status, Calcium Transporters, and Bone Metabolism Biomarkers in a Post-Menopausal Osteoporotic Rat Model
Osteoporosis in menopausal women requires alternatives to current medications, considering their adverse effects. In this context, probiotics and isoflavone products are promising dietary interventions. The objective of our study was to examine the impacts of Lactobacillus acidophilus and its combination with daidzein and tempeh on calcium status, calcium transporters, and bone metabolism biomarkers in a post-menopausal osteoporotic rat model. A total of 48 female Wistar rats were exposed to a two-stage experiment involving calcium deficit induction and subsequent dietary interventions across six groups. Calcium levels, the gene expression of TRPV5 and TRPV6 calcium transporters, bone histopathology, serum bone metabolism markers, and blood biochemistry were evaluated. The results revealed that, while decreasing serum calcium levels, the groups that received the probiotic L. acidophilus and isoflavone combination exhibited increased bone metabolism biomarkers and decreased calcium transporter expressions, akin to the effects of bisphosphonate. Additionally, significant improvements in bone histopathology were observed in these groups. However, the group receiving probiotic L. acidophilus alone did not exhibit significant changes in bone resorption biomarkers, calcium transporter expression, or various blood parameters. Meanwhile, the combination of probiotic L. acidophilus with tempeh positively influenced hematological parameters and reduced cholesterol and triglyceride levels, but it led to elevated blood glucose levels. Correlation analyses highlighted associations between serum calcium levels, calcium transporter expression, and bone metabolism biomarkers. In conclusion, our findings suggest that the daily consumption of probiotic L. acidophilus in combination with isoflavone products may improve bone health in ovariectomized rats, warranting further research to elucidate potential interactions with other nutrients.
