Sorghum Protein Extract Protects RBC from Sodium Nitrite-Induced Oxidative Stress and Exhibits Anticoagulant and Antiplatelet Activity

Introduction: Oxidative stress plays a critical role in the progression of diabetes, arthritis, cancer, eryptosis, cardiovascular disease, and thrombosis. Currently, antioxidants from natural sources are in high demand due to their beneficial role in the management of said diseases. Aim: The purpose of the study was to evaluate the protective effect of sorghum protein buffer extract (SBE) on sodium nitrite-induced oxidative stress and thrombosis. Materials and methods: Protein characterization of SBE was done using SDS-PAGE. Oxidative stress in RBC was induced using sodium nitrite (NaNO2) and the key stress markers such as lipid peroxidation (LPO), protein carbonyl content (PCC), and the level of antioxidant enzymes (SOD and CAT) were measured. The anticoagulant effect of SBE was identified by employing in-vitro plasma recalcification time, activated partial thromboplastin time (APTT), prothrombin time (PT), and in-vivo mouse tail bleeding time. SBE antiplatelet activity was examined using agonist adenosine diphosphate (ADP) and epinephrine-induced platelet aggregation. Non-toxic property of SBE was identified using in-vitro direct haemolytic, haemorrhagic, and edema forming activities using experimental mice. Results: SBE revealed similar protein banding pattern under both reduced and non-reduced conditions on SDS-PAGE. Interestingly, SBE normalized the level of LPO, PCC, SOD, and CAT in stress-induced RBCs. Furthermore, SBE showed anticoagulant effect in platelet rich plasma by enhancing the clotting time from the control 250 s to 610 s and bleeding time from the control 200 s to more than 500 s (p<0.01) in a dose dependent manner. In addition, SBE prolonged the clot formation process of only APTT but not PT. SBE inhibited the agonists ADP and epinephrine induced platelet aggregation. SBE did not hydrolyze RBC cells, devoid of edema and haemorrhage properties. Conclusions: This study demonstrates for the first time the anticoagulant, antiplatelet, and antioxidant properties of SBE. Thus, the observed results validate consumption of sorghum as good for health and well-being.

Differential expression of gluconeogenic enzymes in early- and late-stage diabetes: the effect of Citrullus colocynthis (L.) Schrad. Seed extract on hyperglycemia and hyperlipidemia in Wistar-Albino rats model

Background The medicinal plant Citrullus colocynthis (L.) Schrad. (C. colocynthis) may benefit patients at different phases of diabetes by attuning to contrasting situations. Our primary objective was to find the mechanism(s) behind the antidiabetic/anti-hyperlipidemic effects of C.colocynthis seed aqueous extract (CCAE) in two different stages of type 2 diabetes (T2D) in rats. Methods Fasting blood sugar (FBS) levels, body weights, and the degree of impaired glucose tolerance (IGT) were measured in healthy nondiabetic control rats (Con), as well as rats with early and late stages of T2D, denoted as ET2D and LT2D, respectively. CCAE was intraperitoneally (IP) injected for 28 days. In the end, the hepatic mRNA expression levels of the following genes were determined by RT-PCR: glucose-6-phosphatase (G6Pase), phosphoenolpyruvate carboxykinase (PEPCK), insulin-dependent sterol regulatory element-binding protein-1c (SREBP-1c), acetyl-CoA carboxylase (ACC), fatty acid synthase (FAS), peroxisome proliferator-activated receptor alpha (PPARα), and carnitine palmitoyltransferase I (CPT1). The liver was examined by hematoxylin and eosin (H&E) and Oil-Red O staining. CCAE was partially analyzed by HPLC-DAD. Results ET2D and LT2D were characterized by differentially elevated FBS, deteriorated bodyweight, and significant IGT compared to Con. Hepatosteatoses of varying morphologies and higher hepatic expression of G6Pase than PRPCK in ET2D versus the opposite in LT2D further confirmed the divergent nature of metabolic aberrations. At the end of 28 days, the high levels of FBS, alkaline phosphatase (ALP), triglyceride (TG), urea, hepatic protein carbonyl content (PCC), and alanine and aspartate aminotransferases (AST and ALT, respectively) persisted in untreated LT2D. CCAE ameliorated oxidative stress and upregulated PPARα expression in diabetic groups and Con; it downregulated CPT1 expression in the LT2D group. CCAE’s ability to lower FBS and serum and hepatic TG in both ET2D and LT2D indicated its ability to act via different mechanisms. Ferulic acid (Fer A) and rutin hydrate (RH) were detected in CCAE. Conclusion CCAE lowered the FBS in ET2D via inhibiting the hepatic G6Pase expression (glycogenolysis). In LT2D, CCAE abated sugar levels by diverting PEPCK activity, preferably towards glyceroneogenesis than gluconeogenesis. The preserved triglyceride/fatty acid (TG/FA) cycle, the upregulated PPARα, and the downregulated CPT1 gene expressions reduced serum and hepatic TG.

Co-Carcinogenicity of Arsenic: Probable Mechanisms

Presence of carcinogens, like Polycyclic Aromatic Hydrocarbons (PAH), in the form of cigarette smoke, vehicular emission and industrial emissions in our immediate surroundings is a potent health hazard. Arsenic, a carcinogenic metalloid, omnipresent in the environment, can act as co-carcinogen, where it enhances the carcinogenicity of other carcinogens. In the present study, the co-carcinogenic effect of Arsenic has been investigated, upon the 7,12-dimethylbenz[a]-anthracene (DMBA), a PAH, induced skin cancer model, in Swiss albino mice. Histological analysis revealed earlier development of invasive carcinoma in the DMBA and arsenic treated group in comparison to the DMBA treated mice alone. To understand this phenomena, ROS generation, DNA damage, lipid peroxidation, protein carbonyl content, total antioxidant capacity and activity of pro-inflammatory cytokines (TNF-α, IL6, IL17a, IL22) and their downstream modulators (NF-κB) was assessed. The results suggested that arsenic in the presence of DMBA induced higher ROS generation, greater DNA damage, elevated lipid peroxidation, increased protein carbonyl content, upregulated activity of pro-inflammatory cytokines and their downstream regulators as well as down regulated the total antioxidant capacity in comparison to DMBA alone. These findings hint at the co-carcinogenic potential of arsenic, as it significantly enhances the carcinogenicity of DMBA and hastens carcinogenesis.

Morchella importuna Polysaccharides Alleviate Carbon Tetrachloride-Induced Hepatic Oxidative Injury in Mice

This study aimed to investigate the effects of Morchella importuna polysaccharides (MIPs) on carbon tetrachloride (CCl4)-induced hepatic damage in mice. A total of 144 female mice were randomly assigned to four treatment groups, namely, control, CCl4, low-dose MIP (LMIP) group, and high-dose MIP (HMIP) group. After the 10-day experiment, serum and liver were sampled for biochemical and metabolomic analyses. The HMIPs markedly decreased the liver weight under CCl4 intoxication. Furthermore, the significantly elevated concentrations of five serum biochemical parameters, including alanine aminotransferase, aspartate aminotransferase, triglyceride, total cholesterol, and total bile acid under CCl4 treatment were subverted by MIP administration in a dose-dependent manner. Moreover, MIPs relieved the increased hepatic malonaldehyde and protein carbonyl content and the decreased superoxide dismutase and catalase contents caused by CCl4 intoxication. There was also a dose-dependent decrease in the CCl4-induced inflammatory indices, such as the levels of interleukin-1, interleukin-6, tumor necrosis factor-alpha, and myeloperoxidase, with MIP administration. Subsequent ultra-high performance liquid chromatography–tandem mass spectrometry-based serum metabolomics identified nine metabolites between the control and CCl4 groups and 10 metabolites between the HMIP and CCl4 groups, including some critical metabolites involved in flavonoid biosynthesis, amino acid metabolism, energy metabolism, and toxicant degradation. These novel findings indicate that MIPs may be of therapeutic value in alleviating the oxidative stress and inflammation caused by CCl4. Liquid chromatography-mass spectrometry-based metabolomics provides a valuable opportunity for identifying potential biomarkers and elucidating the protective mechanisms of medicinal mushrooms against hepatic oxidative injury.

Circadian Rhythms of Oxidant-Antioxidant Agents, HPA Axis and Protein Carbonyl Content in Serum, Brain and Adrenal Gland Tissues

The aim of this experiment is to study the circadian rhythm of oxidant-antioxidant components in the body. A total of 20 adult male rabbits were divided into 2 groups (G1and G2)and kept in 2 different rooms. Serum was isolated after blood collection at 12 A.M or 12 P.M respectively from G1 and G2.The results reveal a significant elevation in serum GSH, MDA and SOD during night hours. The B-endorphin showed a value of 84.36±1.36 in rabbits serum during night compared with 53.23±1.12 during day hours. Serum ACTH and cortisone concentration during night hours expressed a value of 71.03±0.16 and 24.46±0.38 compared to 52.80±0.37 and 11.80±0.57 during day hours respectively. Protein carbonyl contents shows a regular variation between serum and tissues during day and night hours. It was concluded that the oxidant-antioxidant imbalance lead to such variation between day and night hours due to activities and metabolism. Extensive research is needed to minimize and overlap such stress.

Effects of Cornus and its Mixture with Oregano and Thyme Essential Oils on Dairy Sheep Performance and Milk, Yoghurt and Cheese Quality under Heat Stress

The effect of a diet supplemented with a novel cornus extract, enriched with essential oils of oregano and thyme, on the performance of Chios cross-bred dairy sheep was investigated during the summer period. The plant extracts were prepared using a “green” method based on aqueous extraction. A total of 45 lactating ewes were allocated into three equal groups in a randomized block design. The three groups were fed the same feed allowance, roughage based on Lucerne hay and wheat straw and a concentrate based on cereals and oil cakes (the control diet). The diet of two groups was fortified with cornus extract, with or without oregano and thyme essential oils, at a level 0.515 g of plant extract/essential oils per kg of concentrate. Individual milk yield was recorded weekly and feed refusals were recorded on a pen basis daily, during a six-week period of lactation. Milk samples were analyzed for the chemical composition of protein, fat, lactose and solids-not-fat constituents, somatic cell counts and total viable bacteria counts. Moreover, the milk of each group was used for yoghurt and Feta cheese production. The lipid oxidative stability, protein carbonyl content and fatty acid composition of milk, yoghurt and cheese samples were also evaluated. The results showed that the incorporation of novel plant extracts and essential oils increased the milk production per ewe. Dietary supplementation with cornus extracts and essential oils lowered lipid and protein oxidation in milk, yoghurt and cheese samples, compared to the control. However, diet supplementation with herbal extracts did not affect the fatty acid profile in milk, cheese and yoghurt or the serum biochemical parameters. In conclusion, dietary supplementation with cornus in combination with oregano and thyme has the potential to improve feed utilization and the performance of high-yield dairy Chios cross-bred ewes reared under heat stress.

Effect of GSH and niacin combination on protein oxidation, ER stress, glycation and aggregation in HLE cells under high glucose condition

AIM: To evaluate the effects of reduced glutathione (GSH) and niacin combination on protein oxidative stress, endoplasmic reticulum (ER) stress, glycation, and aggregation of the αβ crystalline in human lens epithelial (HLE) cells treated with high glucose levels. METHODS: HLE cells were cultured and exposed to 25 mmol/L glucose to promote high glucose conditions. Groups of cells were co-treated with three different combinations of dosages: 10 μmol/L GSH+25 μmol/L niacin (P1), 30 μmol/L GSH+25 μmol/L niacin (P2), and 100 μmol/L GSH+25 μmol/L niacin (P3). After 72h incubation, protein carbonyl content (PCC) and glucose reactive protein (GRP78) content were assessed using ELISA examinations. After two-week incubation, advanced glycation end products (AGEs) were also assessed and the expression of αβ crystalline was measured using Western blot examination. RESULTS: PCC and GRP78 levels in the co-treated groups were not significantly reduced compared to control (P>0.05). In contrast, there was a significant decrease of the AGEs levels in all groups co-treated with GSH and niacin when compared with the control group (P<0.05). In addition, the αβ crystalline expression increased after high dose glucose administration, but decreased in all groups co-treated with GSH and combinations of GSH and niacin. CONCLUSION: Combinations of GSH and niacin inhibit the aggregation of proteins and prevent glycation in hyperglycemic HLE cells. This study shows that this combination may play an active role in preventing diabetic cataract mainly from the AGEs pathway.

Protein network analyses of pulmonary endothelial cells in chronic thromboembolic pulmonary hypertension

Chronic thromboembolic pulmonary hypertension (CTEPH) is a vascular disease characterized by the presence of organized thromboembolic material in pulmonary arteries leading to increased vascular resistance, heart failure and death. Dysfunction of endothelial cells is involved in CTEPH. The present study describes for the first time the molecular processes underlying endothelial dysfunction in the development of the CTEPH. The advanced analytical approach and the protein network analyses of patient derived CTEPH endothelial cells allowed the quantitation of 3258 proteins. The 673 differentially regulated proteins were associated with functional and disease protein network modules. The protein network analyses resulted in the characterization of dysregulated pathways associated with endothelial dysfunction, such as mitochondrial dysfunction, oxidative phosphorylation, sirtuin signaling, inflammatory response, oxidative stress and fatty acid metabolism related pathways. In addition, the quantification of advanced oxidation protein products, total protein carbonyl content, and intracellular reactive oxygen species resulted increased attesting the dysregulation of oxidative stress response. In conclusion this is the first quantitative study to highlight the involvement of endothelial dysfunction in CTEPH using patient samples and by network medicine approach.

Oxycodone Enhances the Effects of Metformin Therapy in Mices With Painful Diabetic Neuropathy Induced by Alloxan

Background DN (diabetic neuropathy) is a common disorder and two thirds of diabetic patients have clinical or subclinical neuropathy. Pain in DN can be spontaneous or stimulus induced and aggravate in nights. µ-opioid receptor make weak-reply to an antinociceptive effect of opioid agonist but κ-opioid receptors create antinociceptive response appropriately. Methods Diabetic animals were treated intraperitoneally for 3weeks in 9 groups including different doses of oxycodone and codeine with constant dose of metformin (200mg/kg). The normal saline group was considered as a negative control group and diabetic group as positive control. After 3 weeks Hot plate and tail flic test were done and fasting blood glucose was measured. After that Animals were sacrificed and oxidative stress biomarkers including lipid peroxidation, protein carbonyl content, and glutathione content were measured in brain and liver isolated mitochondria. Conclusion In this study finding demonstrated that Oxycodone (high dose 8mg/kg) with effect on both µ-opioid receptor and κ-opioid receptor significantly enhances the effects of metformin therapy in mices with painful diabetic neuropathy. In addition, opioid drugs induced stress oxidative and MDA formation in brain and liver.As well as, in diabetic mices, glucose level in all drug groups significantly decreased in compared to positive diabetic group.

Defensive proclivity of bacoside A and bromelain against oxidative stress and AChE gene expression induced by dichlorvos in the brain of Mus musculus

The objective of current study was to evaluate the neuroprotective effects of bacoside A and bromelain against dichlorvos induced toxicity. The healthy, 6–8 weeks old male Swiss mice were administered in separate groups subacute doses of dichlorvos (40 mg/kg bw), bacoside A (5 mg/kg bw) and bromelain (70 mg/kg bw). In order to determination of oxidative stress in different groups, thiobarbituric acid reactive substances (TBARS) and protein carbonyl content (PCC) were studied in the present investigation. Moreover, for toxic manifestation at molecular level the site-specific gene amplification of acetylcholinesterase (AChE) gene was studied in the brain. Nonetheless, the protective effects of bacoside A and bromelain were also evaluated on the TBARS, PCC and AChE gene. The exposure of dichlorvos leads to significant increase in TBARS level (p < 0.01, p < 0.001) and PCC. Besides, the decline in DNA yield, expression of amplified products of AChE gene was observed in the brain of dichlorvos treated group. The bacoside A and bromelain treatments significantly decreased the level of TBARS (p < 0.05, (p < 0.01) and PCC whereas, increase in the DNA yield and expression of amplified AChE gene products were observed in the brain compared to only dichlorvos treated mice. The overall picture which emerged after critical evaluation of results indicated that the dichlorvos induced oxidative stress and alteration in AChE gene expression showed significant improvement owing to the treatments of bacoside A and bromelain. Thus, bacoside A and bromelain are very effective in alleviating neurotoxicity induced by dichlorvos.