Non-treated Rats Research Articles

Aldosterone Robustly Promotes Atrial Fibrillation in the Presence of Chronic Volume Overload in Rats.

We investigated the modulatory effects of aldosterone on atrial remodeling induced by an abdominal aorto-venocaval shunt (AVS) in rats, as patients with primary hyperaldosteronism are suggested to have a higher risk of developing atrial fibrillation (AF). The rats were divided into four groups based on the basis of whether they underwent AVS surgery, received aldosterone using an intraperitoneally implanted osmotic minipump, or both. Aldosterone was started at 0.5 µg/h during the AVS surgery, and morphological and electrophysiological assessments were performed four weeks after AVS creation. The atrial structural changes induced by AVS, including atrial cell hypertrophy and fibrosis, were not modulated by aldosterone, whereas P-wave duration was longer in aldosterone-treated AVS rats than in non-treated rats. Although the average AF duration induced by burst pacing was 10-25 s in the untreated, aldosterone-treated, and AVS rats, the AF duration was approximately 100 s in the aldosterone-treated AVS rats. Meanwhile, there was no significant difference in the atrial effective refractory period among the four experimental groups. Notably, premature atrial contractions (PAC) were frequently observed in aldosterone-treated sham rats, while paroxysmal AF, in addition to PAC, was detected in aldosterone-treated AVS rats, which was not induced in non-treated AVS rats. These findings suggest that aldosterone robustly promotes AF, particularly in the presence of chronic volume overload.

Impact of keratocyte differentiation on corneal opacity resolution and visual function recovery in male rats

Intrastromal cell therapy utilizing quiescent corneal stromal keratocytes (qCSKs) from human donor corneas emerges as a promising treatment for corneal opacities, aiming to overcome limitations of traditional surgeries by reducing procedural complexity and donor dependency. This investigation demonstrates the therapeutic efficacy of qCSKs in a male rat model of corneal stromal opacity, underscoring the significance of cell-delivery quality and keratocyte differentiation in mediating corneal opacity resolution and visual function recovery. Quiescent CSKs-treated rats display improvements in escape latency and efficiency compared to wounded, non-treated rats in a Morris water maze, demonstrating improved visual acuity, while stromal fibroblasts-treated rats do not. Advanced imaging, including multiphoton microscopy, small-angle X-ray scattering, and transmission electron microscopy, revealed that qCSK therapy replicates the native cornea’s collagen fibril morphometry, matrix order, and ultrastructural architecture. These findings, supported by the expression of keratan sulfate proteoglycans, validate qCSKs as a potential therapeutic solution for corneal opacities.

Therapeutic implication of MicroRNA-320a antagonist in attenuating blood clots formed during venous thrombosis.

Venous thrombosis (VT) is a complex multi-factorial disease and a major health concern worldwide. Its clinical implications include deep vein thrombosis (DVT) and pulmonary embolism (PE). VT pathogenesis involves intricate interplay of various coagulants and anti-coagulants. Growing evidences from epidemiological studies have shown that many non-coding microRNAs play significant regulatory role in VT pathogenesis by modulating expressions of large number of gene involved in blood coagulation. Present study aimed to investigate the effect of human micro RNA (hsa-miR)-320a antagonist on thrombus formation in VT. Surgery was performed on Sprague-Dawley (SD) rats, wherein the inferior vena cava (IVC) was ligated to introduce DVT. Animals were divided into four groups (n = 5 in each group); Sham controls (Sham), IVC ligated-DVT (DVT), IVC ligated-DVT + transfection reagent (DVT-NC) and IVC ligated-DVT + miR320a antagonist (DVT-miR-320a antagonist). IVC was dissected after 6h and 24h of surgery to estimate thrombus weight and coagulatory parameters such as levels of D-dimer, clotting time and bleeding time. Also, ELISA based biochemical assays were formed to assess toxicity of miRNA antagonist in animals. Our experimental analysis demonstrated that there was a marked reduction in size of thrombus in hsa-miR-320a antagonist treated animals, both at 6h and 24h. There was a marked reduction in D-dimer levels in hsa-miR-320a antagonist treated animals. Also, blood clotting time was delayed and bleeding time was increased significantly in hsa-miR-320a antagonist treated rats compared to the non-treated and Sham rats. There was no sign of toxicity in treated group compared to control animals. Hsa-miR-320a antagonist could be promising therapeutic target for management of VT.

Synergistic antioxidant and anti-inflammatory effects of combined supplementation with oral zinc and dietary Moringa oleifera leaf in streptozotocin-induced diabetic rats

Individual interventions with zinc or M. oleifera leaf powder have shown some promise in managing diabetes-induced oxidative stress and inflammation. This study examined the synergistic effect of oral zinc and dietary M. oleifera leaf supplementation on the serum antioxidant and anti-inflammatory activities in streptozotocin-induced diabetic rats. Seven groups of 56 rats were used in the experiment: (1) normal rats + normal diet, (2) normal rats + 3% M. oleifera leaf-supplemented diet, (3) non-treated diabetic rats, (4) diabetic rats + 200 mg/kg metformin, (5) diabetic rats + 3% M. oleifera leaf-supplemented diet, (6) diabetic rats + 100 mg/kg oral zinc sulfate, and (7) diabetic rats + 3% M. oleifera leaf-supplemented diet + 100 mg/kg oral zinc sulfate. ELISA assay kits were used for antioxidant and anti-inflammatory markers respectively. The results suggest that when all treated diabetic groups were compared with non-treated diabetic control at p<0.05, only groups 4 and 7 showed a significant increase in superoxide dismutase activity. Only group 5 showed a significant increase in reduced glutathione. No significant changes were observed in catalase and the total antioxidant capacity. MDA decreased significantly in group 7 only. There was a significant reduction in interleukin-6 in groups 6 and 7. Only group 7 showed significantly reduced C-reactive protein. Tumor necrosis factor-α reduced significantly in group 6 only. Overall, the combined supplementation with zinc and M. oleifera outperformed the individual treatments with either zinc or M. oleifera in ameliorating diabetes-induced oxidative stress and inflammation, indicating a possible synergistic effect of their combination.

Chia seeds oil ameliorate chronic immobilization stress-induced neurodisturbance in rat brains via activation of the antioxidant/anti-inflammatory/antiapoptotic signaling pathways

Chronic immobilization stress plays a key role in several neuropsychiatric disorders. This investigation assessed the possible ameliorative effect of chia seed oil (CSO) against the neurodisturbance-induced in rats by chronic immobilization. Rats were randomly allocated into control, CSO (1 ml/kg b.wt./orally), restrained (6 h/day), CSO pre-restraint, and CSO post-restraint for 60 days. Results revealed a significant reduction in serum corticosterone level, gene expression of corticotrophin-releasing factor, pro-inflammatory cytokines, and oxidative biomarkers in restrained rats treated with CSO. The histopathological findings revealed restoring necrosis and neuronal loss in CSO-treated-restraint rats. The immunohistochemical evaluation revealed a significant reduction in the immuno-expression of caspase-3, nuclear factor kappa B, interleukin-6, and cyclooxygenase-2 (COX-2), and an elevation of calbindin-28k and synaptophysin expression compared to non-treated restraint rats. The molecular docking showed the CSO high affinity for several target proteins, including caspase-3, COX-2, corticotropin-releasing hormone binding protein, corticotropin-releasing factor receptors 1 and 2, interleukin-1 receptor types 1 and 2, interleukin-6 receptor subunits alpha and beta. In conclusion, CSO emerges as a promising candidate against stress-induced brain disruptions by suppressing inflammatory/oxidative/apoptotic signaling pathways due to its numerous antioxidant and anti-inflammatory components, mainly α-linolenic acid. Future studies are necessary to evaluate the CSO therapeutic impacts in human neurodisturbances.

Effect of Some Levels from Ziziphus Spina-christi Leaves and Choline on Acute Liver Disease in Rats

The study aims to investigate the effects of diets containing two levels of Ziziphus Spina-christi leaves, choline, and their combinationson nutritional evaluation, some biochemical analysis, anda histopathological examination of the livers of rats suffering from acute liver disease. This study involved the use of forty-eight male albino rats. Rats in this study were divided into2 main groups, as follows:The 1st main group (n=6 rats) was fed a basal dietas a negative control group. The 2ndmain group (42 rats) wasinjected subcutaneously with CCl4 in paraffin oil to induce acute liver disease in rats. The second main group of rats was divided into seven subgroups, each consisting of six rats,as follows: Subgroup (1)was only fed a basal diet (B.D.) as a control positive group. Subgroups 2 and 3were given diets containing 1% and 2% choline chloride, respectively. Subgroups 4 and 5were given diets containing 5% and 7.5% Zizyphus Spina-christi, respectively.Subgroups 6 and 7 were fed diets containing the combination of choline chloride and Zizyphus Spina-christi (1% choline chloride and 5% Zizyphus Spina-christi) and (2% choline chloride and 7.5% Zizyphus Spina-christi), respectively. The results indicated that injected rats with CCl4 increased liver enzymes, including AST, ALT, and ALP, while decreasing feed intake, body weight gain%, serum protein, albumin, globulin, and antioxidant enzymes, including (catalase "CAT", superoxide dismutase ("SOD"), glutathione ("GSH"), and glutathione peroxidase ("GPx"), as compared to non-injected rats. Treating acute liver disease rats with diets containing the two levels of Ziziphus Spina-christi leaves, choline, and their combinations improved all of these parameters and the histopathological changes in the liver as compared to non-treated rats. Conclusion: Ziziphus Spina-christi leaves, choline, and their combinationscan be used to reduce the side effects of acute liver diseases.

Pesticide exposure an unforseen trigger for atrial fibrillation

Abstract Background/Introduction Over the last few decades, the use of pesticides for improving crop yield has continued to soar. Recent evidence shows the residuals of pesticides in many fruits and vegetables in the local supermarket. Although acute exposure to pesticides has been related to various severe illness, including cardiovascular dysfunction, chronic pesticide exposure has been poorly studied. Herein we study the cardiotoxic effect of commonly used pesticides to the most common cardiac arrhythmia, atrial fibrillation (AF). Purpose Whether exposure to commonly-used pesticides triggers AF if so, explore the underlying molecular mechanism. Methods Ten commonly used pesticides in the Netherlands, including glyphosate, MCPA and boscalid, were used to study cardiotoxicity using experimental Drosophila and rat model systems for AF. Drosophila were exposed to three varying pesticide concentrations, ranging from reported environment concentrations, LD50 and high dose, followed by survival and heart wall measurements (heart rate (HR) and arrhythmicity index). In addition, rats were exposed to four pesticides, paraquat, glyphosate, round-up and MCPA for 16 months followed by AF detection (ECG) and Westernblot and metabolomic analyses of the atrial tissue samples. Results A dose dependant survival curve was observed of Drosophila fed with pesticides compared to controls. In prepupae a significant reduction in HR and increase in arrhythmicity index was found for all? utilized pesticides. Furthermore, a significant increase in AF and atrial arrhythmic episodes was observed in rats treated with pesticides (15-70%) compared to non-treated control rats (0%). Metabolomic analyses in rats revealed a significant increase in mitochondrial supercomplexes and 6-phosphoglyconlactate levels in pesticide treated rats compared to controls, suggesting a role for mitochondrial and energy dysfunction to underlie pesticide-induced AF. Conclusion(s) This study provides evidence that chronic exposure to commonly-used pesticides in the Netherlands affects longevity, heart wall function in Drosophila and triggers atrial arrhythmia and AF in rats. Likely, the pesticides impair mitochondrial function and energy metabolism.

Potential roles of circulating microRNAs in the healing of type 1 diabetic wounds treated with green tea extract: molecular and biochemical study

BackgroundCirculating miRNAs have been implicated in various aspects of diabetic wound healing, including inflammation, angiogenesis, and extracellular matrix remodeling. Thus, in alternative herbal medicine strategies, miRNAs will be potential therapeutic molecular targets in nonhealing wounds. These could be valuable elements for understanding the molecular basis of diabetic wound healing and could be used as good elements in bioinformatics. ObjectivesTo elucidate the molecular mechanisms of microRNAs in association with apoptosis-inducing genes in controlling skin wound healing in diabetic wounds treated with green tea polyphenols (GTPs). MethodsGreen tea hydro extract (GTE) at doses of100–200 mg/ml was topically applied to the skin tissues of rats with T1DM induced by a single dose of streptozotocin (STZ; 100 mg/kg, in 0.01 M sodium citrate, pH 4.3–4.5) injected intraperitoneally for seven consecutive days to induce T1DM. The rats were treated with green tea for three weeks. A sterile surgical blade was used to inflict a circular wound approximately 2 cm in diameter on the anterior-dorsal side of previously anesthetized rats by a combination of ketamine hydrochloride (50 mg/kg, i.e., body weight) and xylazine hydrochloride. Afterward, the molecular roles of the circulating miRNAs miR-21, miR-23a, miR-146a, and miR-29b and apoptotic genes were determined by quantitative real-time PCR to evaluate Bax, Caspase-3, and Bcl-2 in wound healing. In addition, HPLC analysis was also performed to estimate the active polyphenols (GTPs) present in the hydro extract of green tea leaves. ResultsWound healing was improved in diabetic skin wounds following treatment with GTE at doses of 100–200 mg/dl for three weeks. The wound parameters contraction, epithelialization, and scar formation significantly improved in a short time (14 days) compared to the longer periods identified in diabetic non-treated rats (20 days) and the standard control (15.5 days). Molecular analyses reported a significant increase in the levels of miR-21, miR-23a, and miR-146a and a decrease in the levels of miR-29b in green tea-treated diabetic rats compared to those in the standard control and STZ-diabetic non-treated rats. In addition, the molecular apoptotic genes Bax and caspase-3 significantly increased, and the BcL-2 gene significantly decreased following treatment with green tea polyphenols. ConclusionsThe data showed that active green tea polyphenols (GTPs) present in GTE significantly improved diabetic wound healing by controlling apoptotic genes and the circulating microRNAs miR-21, miR-23a, miR-146a, and miR-29b, which might be involved in cellular apoptosis and angiogenesis processes. Thus, to establish a future model for the treatment of diabetic wounds, further studies are needed to understand the potential association of these biological parameters with the wound-healing process in diabetic wounds.

Examining the Effects of Hyperbaric Oxygen Therapy on the Cardiovascular System and Oxidative Stress in Insulin-Treated and Non-Treated Diabetic Rats.

This study explored the effects of hyperbaric oxygen therapy (HBOT) on the cardiovascular system and oxidative stress in streptozotocin-induced diabetic rats. Wistar albino rats were divided into four groups: DM group (diabetic rats), DM+HBOT group (diabetic rats exposed to HBOT for 1 h daily, five days a week, at 2.8 atmosphere absolute (ATA) with 100% oxygen for two weeks), DM+INS group (diabetic rats treated with neutral protamine hagedorn (NPH) insulin at a dosage of 3-5 U/day), and DM+HBOT+INS group (diabetic rats treated with both NPH insulin and HBOT for two weeks). Evaluations included glycemic control, oxidative stress parameters, and cardiac function measurements. NPH insulin treatment reduced blood glucose levels, although normoglycemia was not achieved. The DM+HBOT+INS group demonstrated the lowest pro-oxidative marker levels. NPH insulin treatment improved cardiac function, and combination therapy effectively restored cardiac function in diabetic animals. NPH insulin treatment reduced hyperglycemia and improved cardiac function in diabetic rats. The combined approach of NPH insulin and HBOT resulted in decreased pro-oxidative markers. These findings provide valuable insights for managing cardiovascular complications and oxidative stress in diabetes.

Prophylactic Treatment of Intestinal Ischemia-Reperfusion Injury Reduces Mucosal Damage and Improves Intestinal Absorption.

Intestinal ischemia-reperfusion injury (i-IRI) involves a blood flow interruption in an intestinal segment followed by blood flow restoration. When blood flow is restored, oxidative and inflammatory molecules are distributed throughout the bloodstream, triggering both local and systemic damage. Our goal was to evaluate the potential of three antioxidant and/or anti-inflammatory compounds (curcumin, dexmedetomidine and α-tocopherol) to prevent or reverse local and systemic damage induced by i-IRI. i-IRI was induced by placing a microvascular clip in the superior mesenteric artery of female WAG/RijHsd rats; the clip was removed after 1h and reperfusion was allowed for 4h. Curcumin (200 mg/kg, orally), α-tocopherol (20 mg/kg, i.p.), and dexmedetomidine (5 or 20 µg/kg, s.c.; DEX5 and DEX20, respectively) were administered. Blood and terminal ileum specimens were collected for biochemical and histological determination. Furthermore, D-xylose absorption test was performed to evaluate intestinal absorption; after completing the 1-hour ischemia and 4-hour reperfusion period, 1 mL of aqueous D-xylose solution (0.615 mg/mL) was administered orally, and one hour later, plasma D-xylose levels were quantified. The histological injury degree (HID) measured by the Chiu scale was significantly reduced when the treatments were applied (non-treated rats, 2.6 ± 0.75; curcumin, 1.54 ± 0.8; DEX5, 1.47 ± 0.7; DEX20 1.14 ± 0.5; and α-tocopherol, 1.01 ± 0.6); intestinal absorptive capacity also improved in all cases healthy rats (2.06 ± 0.07 µg/mL; non-treated, 1.18 ± 0.07 µg/mL; curcumin 1.76 ± 0.3 µg/mL; DEX5, 2.29 ± 0.2 µg/mL; DEX20, 2.25 ± 0.26 µg/mL; and α-tocopherol 1.66 ± 0.21 µg/mL). However, it failed to reduce liver enzyme levels. Finally, only dexmedetomidine significantly reduced urea and creatinine levels compared to non-treated animals. All drugs were effective in reducing HID, although α-tocopherol was effective to a greater extent. Only dexmedetomidine reverted intestinal absorption to normal values of healthy animals.

The lncRNAs UCA1 and CRNDE target miR-145/TLR4/NF-қB/TNF-α axis in acetic acid-induced ulcerative colitis model: The beneficial role of 3,3-Diindolylmethane.

Ulcerative colitis (UC) is a chronic disease that alters the colonic and rectal mucosa. The high prevalence rates of UC make it a worldwide healthcare problem. However, its underlying molecular mechanisms remain vague. To investigate the molecular mechanisms underlying UC and to study the cross-talk among the regulatory role of the lncRNAs UCA1, CRNDE, and miR-145 on TLR4/NF-κB/TNF-α signaling pathway. Moreover, the study was extended to examine the beneficial effects of 3,3-Diindolylmethane (DIM) on relieving UC. UC was induced in rats by injecting 2ml of 4% acetic acid (AA) solution transrectally. After 24h, rats were treated with either DIM (20mg/kg) or sulphasalazine (SSZ) (500mg/kg) orally for 7days. The present study revealed that the gene expression of the lncRNAs UCA1 and CRNDE were significantly upregulated in the AA-induced UC model compared with the control group, whereas miR-145 was significantly downregulated. There was a significant association between the expression of these non-coding RNAs and TLR4/ NF-κB/TNF-α axis as well as malondialdehyde and glutathione levels. Favorably, the DIM-treated group showed significant downregulation of the lncRNAs UCA1 and CRNDE along with upregulated miR-145 compared with the AA-induced UC model. Furthermore, DIM showed remarkable inhibition of the TLR4/ NF-κB /TNF-α cascade compared with non-treated UC rats. The present study is the first to document the interrelated role of the lncRNAs UCA1 and CRNDE in UC via orchestrating miR-145/TLR4/ NF-κB /TNF-α inflammatory cascade. Furthermore, the study demonstrated a new molecular basis for the pleiotropic activities of DIM in relieving UC.

Amniotic fluid-derived exosomes attenuated fibrotic changes in POI rats through modulation of the TGF-β/Smads signaling pathway

In the current study, we investigated the regenerative effects of amniotic fluid exosomes (AF-Exos) in a rat model for premature ovarian insufficiency (POI). POI is a condition characterized by a decrease in ovarian function that can lead to infertility. We induced POI by administering cyclophosphamide (CTX) for 15 consecutive days, and then transplanted AF-Exos directly into both ovarian tissues. Four weeks later, we measured the serum levels of follicle-stimulating hormone (FSH), luteinizing hormone (LH), and estradiol (E2), and performed histopathological evaluations using H & E and Masson’s trichrome staining. We also monitored the expression of genes related to the TGF-β signaling pathway using real-time PCR and examined the fertility rate of POI rats after AF-Exos therapy. Histological analysis showed an increase in atretic follicles and a decrease in healthy follicle count after POI induction. Four weeks post-AF-Exos intervention, the healthy follicle count increased (p < 0.01) while the atretic follicle count decreased (p < 0.001). In parallel, the deposition of collagen fibers also decreased following AF-Exos transplantation. The concentrations of FSH and LH hormones in sera remained unchanged after injection of AF-Exos, while E2 levels increased (p < 0.05). The expression of Smad-4 (p < 0.01) and Smad-6 (p < 0.05) was upregulated in POI rats that received AF-Exos, while Smad-2, TGF-β1, TNF-α, and IL-10 remained statistically unchanged. Our records showed a notable increase in litter number after AF-Exos compared to the non-treated POI rats. These results suggest that AF-Exos transplantation has the potential to restore ovarian function through the TGF-β/Smads signaling pathway in POI rats.

#6153 SODIUM-GLUCOSE COTRANSPORTER 2 INHIBITORS VERSUS DIPEPTIDYL PEPTIDASE 4 INHIBITORS AS STABILIZERS OF HIF PATHWAY IN DIABETIC NEPHROPATHY RATS

Abstract Background and Aims With the diabetes pandemic, chronic kidney disease is a burden, with diabetic nephropathy (DN) being the primary leading cause of end-stage renal disease. Antidiabetic drugs have shown renoprotective effects via different mechanisms, and among those are SGLT2 inhibitors and DPP-4 inhibitors. Hypoxia-inducible factor (HIF) pathway, a significant contributor to inflammation development in the kidneys, is a major pathway that regulates erythropoietin synthesis. Prolyl hydroxylase domain (PHD) decreases erythropoietin synthesis by inhibiting HIFs. PHD inhibitors are anticipated to have additional effects, such as protection against metabolic diseases, due to HIF's impact on many genes. The diabetic kidney is characterized by enhanced HIF-1α activation but decreased HIF-2α activity. These actions may significantly contribute to glomerular and renal tubular dysfunction, renal inflammation and fibrosis, and decreased erythropoietin synthesis observed in DN. This work aims to test the renoprotective effect of SGLT2 inhibitors and DPP-4 inhibitors by controlling the proinflammatory and anti-inflammatory domains of the HIF pathway. Method Type 1 DM rat model was induced in 24-hour-fasted Sprague Dawley rats by a single intraperitoneal injection of 45 mg/kg streptozotocin (STZ). DM was verified by measuring blood glucose seven days following STZ injection, and only animals with glucose levels of ≥15 mM were included (n = 24), randomly and equally distributed, then received either saline or vildagliptin (3 mg/Kg) or empagliflozin (30 mg/Kg) once daily by oral gavage for three months. An additional group was used as a non-diabetic control. At the end of the experiment, rats were placed in metabolic cages for 24-h urine collection, then sacrificed. Blood samples and kidney tissue were collected. Kidney function was assessed by measuring serum creatinine and urinary albumin: creatinine ratio. HIF1α, HIF2α, and PHD3 mRNA expression in kidney tissues were assessed using quantitative real-time PCR, and to indirectly assess HIF2α protein stability, immunohistochemical staining for PHD3 was also performed. Results Vildagliptin and empagliflozin could significantly ameliorate the diabetic disturbance of renal function, as demonstrated in serum creatinine (F = 23.518, p&amp;lt;0.001) with a non-significant difference between both treated groups, and in the significantly reduced albumin/creatinine ratio (F = 14.453, p&amp;lt;0.001), with a significantly lower ratio for empagliflozin (4.73±0.54) than vildagliptin-treated group (9.09±1.04). Regarding the HIF pathway as a potential mechanism, empagliflozin-treated groups showed a significantly higher HIF2α gene expression in kidney tissue samples (0.98±0.10) than the vildagliptin-treated group (0.58±0.05). For the expression of its regulator, PHD3, there was a significant difference between groups (F = 5.694, p = 0.005). However, the vildagliptin-treated group (0.65±0.06) didn′t differ significantly from the untreated group (0.60±0.03), in contrast to the empagliflozin-treated group (2.01±0.50), which showed a significantly higher expression than the other groups (Figure 1). Conclusion Empagliflozin significantly increased the level of HIF-2α in renal tissue. In addition, it nearly neutralizes the tubular expression of PHD3 compared to non-treated and vildagliptin-treated rats. SGLT2 inhibition is effective for correcting the proinflammatory/anti-inflammatory imbalance in DN.

Dapagliflozin Mitigates Hypotension in Lipopolysaccharide-Induced Acute Inflammation Independent of Glycemia Level.

Sodium-glucose cotransporter-2 (SGLT2) inhibitors have been suggested to have anti-inflammatory properties in diabetes. The goal of this study was to evaluate the role of the SGLT2 inhibitor dapagliflozin (DAPA) in the attenuation of lipopolysaccharide (LPS)-induced hypotension. Male Wistar albino rats were divided into normal and diabetic groups and received DAPA (1 mg/kg/day) for two weeks followed by a single dose of 10 mg/kg LPS. Blood pressure was recorded throughout the study and the circulatory levels of cytokines were assessed using a multiplex array, while the aortas were harvested for analysis. DAPA attenuated the vasodilation and hypotension caused by LPS. Mean arterial pressure (MAP) was preserved in the normal and diabetic DAPA-treated septic groups (MAP = 83.17 ± 5.27, 98.43 ± 5.57 mmHg) compared to the vehicle-treated septic groups (MAP = 65.60 ± 3.31, 68.21 ± 5.88 mmHg). Most of the cytokines induced by LPS were decreased in the DAPA-treated septic groups. In the aorta, the inducible nitric oxide synthase-derived nitric oxide had lower expression in the DAPA-treated rats. In contrast, the expression of α-smooth muscle actin, a marker of the vessel's contractile state, was higher in the DAPA-treated rats in comparison with non-treated septic rats. These findings revealed that the protective role of DAPA against LPS-induced hypotension is likely to be glucose-lowering independent, as was observed in the non-diabetic septic group. Taken together, the results show that DAPA has a potential effect in the prevention of the hemodynamic disturbances of sepsis regardless of glycemia levels.

DISTINCT CARDIAC CONNEXIN-43 EXPRESSION IN HEMODYNAMICALLY UPLOADED AND UNLOADED HEART MAY IMPACT VULNERABILITY TO MALIGNANT ARRHYTHMIAS

Objective: Experimental and clinical studies suggest that myocardial hypertrophy in response to hypertension and hyperthyroidism increases propensity to cardiac arrhythmias. While these are rare in conditions resulting in myocardial atrophy, such as hypothyroidism or type-1 diabetes mellitus (T1DM). One of the crucial factors impacting the susceptibility of the heart to life-threatening arrhythmias is gap junction channel protein connexin-43 (Cx43), which ensure cardiac cell-to-cell coupling for electrical signal propagation that induce contraction. We aimed to explore abundance of Cx43 protein and its cardiomyocyte topology in hemodynamically uploaded hypertrophied versus unloaded hypotrophic cardiac phenotype. Design and method: Analysis were performed in left ventricular tissue of adult male rats of following groups: 1. spontaneously hypertensive rat (SHR); 2. normotensive Wistar Kyoto rats (WKY) treated for 8-weeks with L-thyroxine (0.15 μg/kg, i.v.) to induce hyperthyroid status; 3. WKY rats treated with methimazol (0.05% solution, p.o.) to induce hypothyroid status; 4. WKY rats treated with strepotozotocin (50mg/kg, i.p.) to induce T1DM. Animals were compared with non-treated normotensive control rats. Results: Comparing to healthy non-treated rats there was a decrease of total myocardial Cx43 protein and its variant phosphorylated at serine368 in SHR and hyperthyroid rats. Besides, enhanced abnormal localisation of Cx43 was demonstrated on lateral sides of hypertrophied cardiomyocytes. In contrast, total Cx43 protein and its serine368 variant were increased in atrophied left ventricle of hypothyroid and T1DM rats. It was associated with less pronounced alterations in Cx43 topology. In parallel, the abundance of PKC epsilon, which phosphorylates Cx43 at serine368 that stabilize Cx43 function and distribution was reduced in hypertrophied heart while enhanced in atrophied once. Conclusions: Findings suggest that differences in the abundance of cardiac Cx43, its variant phosphorylated at serine368 and Cx43 topology may explain, in part, distinct propensity of uploaded and unloaded heart to malignant arrhythmias. It suggests that hemodynamically overloaded heart might benefit from interventions promoting unloading. This research was supported by VEGA grants 2/0002/20, 2/0006/23, Slovak Research and Development Agency under the Contract no. 21-0410

Characterization, In Vitro Biological Activity and In Vivo Cardioprotective Properties of Trametes versicolor (L.:Fr.) Quél. Heteropolysaccharides in a Rat Model of Metabolic Syndrome.

The present study aimed to examine the biological activity and cardioprotective potential of Trametes versicolor heteropolysaccharides (TVH) in a rat model of metabolic syndrome (MetS). This study included 40 Wistar rats divided into 5 groups: CTRL-healthy non-treated rats; MetS-non-treated rats; and H-TV, M-TV and L-TV-rats with MetS treated with either 300, 200 or 100 mg/kg TVH per os for 4 weeks. After finishing the treatment, we conducted an oral glucose tolerance test (OGTT), hemodynamic measurements and the animals were sacrificed, hearts isolated and subjected to the Langendorff technique. Blood samples were used for the determination of oxidative stress parameters, lipid status and insulin levels. We showed that α-amylase inhibition was not the mode of TVH antidiabetic action, while TVH showed a moderate inhibition of pathogenic microorganisms' growth (MIC 8.00 mg·mL-1; MBC/MFC 16.00 mg·mL-1). H-TV and M-TV significantly reduced the level of prooxidants (O2-, H2O2, TBARS; p < 0.05), increased antioxidants activity (SOD, CAT, GSH; p < 0.05), reduced blood pressure (p < 0.05), improved glucose homeostasis in the OGTT test (p < 0.05), and ejection fraction (p < 0.05) and cardiac contractility (p < 0.05) compared to MetS (p < 0.05). Moreover, TVH treatment normalized the lipid status and decreased insulin levels compared to MetS rats (p < 0.05). The obtained results demonstrated that the TVH may be considered a useful agent for cardioprotection in MetS conditions.

Tissue Granulation in Cutaneous Wound Healing is Improved by a Camel Milk Peptide in Streptozotocin-induced Diabetes in Rat Models

Background: Diabetes alters keratinocyte proliferation and tissue granulation during wound healing, thereby delaying the healing process. Thus, we studied the correlation between keratinocyte proliferation and tissue granulation with healing stages and the impact of camel milk peptide (CMP). Methods: Rats were grouped into wounded normal, wounded diabetic and wounded diabetic with daily treatment of CMP at a dose of 100 mg/kg of body weight. One-way ANOVA and Tukey’s method were used to compare the overall effects of each treatment. Result: Diabetes strikingly impaired Protein kinase B (Akt) and Alpha Smooth Muscle Actin (SMA-á) concentrations in the wounded tissues. Furthermore, the gene expression of KGF in wounded tissues was downregulated in diabetic rats. Conversely, CMP showed notable restoration of these parameters. Thus, granulation was enhanced compared with that in non-treated diabetic rats. In addition, the wound margin epithelia of CMP-diabetic rats showed an increase in both size and migration, with two epidermal tongues directed inward and clearly visible on both sides of the wound. However, diabetic rats showed increased extent of wound margin neoepithelia without clear epidermal tongues. These data confirmed the potential role of CMP in wound healing in diabetic rats.

Does oestradiol treatment alleviate obesity-induced oxidative stress in the male liver?

The liver is an organ in which many oxidative processes occur and represents an important target of oxidative stress (OxS). Under physiological conditions of normal mitochondrial homeostasis, hepatocytes effectively remove reactive oxygen species (ROS) by enabling metabolic adaptations and through the antioxidant defence system mechanisms. However, obesity-induced lipid accumulation in the hepatocytes causes significantly elevated production of ROS, reduces oxidative capacity, and increases oxidative stress (OxS). In men, compared with premenopausal women, the development of insulin resistance (IR) and non-alcoholic fatty liver disease (NAFLD) in obesity are more prevalent, where oestradiol (E2), the most potent female sex steroid, is proposed as the main culprit. Exogenous oestradiol (E2) administration exerts beneficial effects on antioxidant properties, restores total plasma antioxidant capacity and decreases biomarkers of OxS in ovariectomized animal models. Thus, we hypothesized that E2 treatment in states of obesity could have beneficial effects againstOxS in the obese male's liver. We assumed that E2 could directly affect the level of OxS by increasing the level/activity of the AOS enzymes, particularly SOD1, SOD2, GPx, and CAT, in obese males' livers. In addition, we assumed that the level of malondialdehyde (MDA) and protein carbonyl content (PCC) in obese males' livers would be reduced after E2 treatment as a result of E2 inhibitory effect on lipid peroxidation and protein oxidation, respectively. To test our hypothesis, we used the liver of a high-fat (HF) diet-fed male Wistar rats as an animal model of obesity, treated with E2 intraperitoneally (40 μg/kg). Preliminary results from this study support our hypothesis that E2 increases liver protein expression of AOS enzymes: SOD1, GPx, and CAT, in control and HF male rats compared with their respective controls. The protein level of SOD2 and CAT activity was increased in HF treated with E2 compared with non-treated HF rats. Moreover, as we expected, E2 administration significantly decreased the MDA level in both E2-treated groups compared to their controls, while the PCC level was significantly decreased in HF treated group compared with untreated HF rats. In conclusion, the preliminary results we obtained in this study indicate that E2 administration can effectively inhibit the OxS-related processes in the liver in HF diet-induced obesity by increasing AOS enzymes levels and CAT activity, and also by decreasing levels of MDA and PCC. A consequence of our hypothesis is that treatment with E2 may be an innovative way to improve obesity-related liver disease prevention and healing.

Beneficial Effects of Viable and Heat-Inactivated Lactobacillus rhamnosus GG Administration on Oxidative Stress and Inflammation in Diet-Induced NAFLD in Rats

Oxidative stress and inflammation are well-known triggers of NAFLD onset and progression. The aim of this study is to compare the potential benefits of a viable probiotic (Lactobacillus rhamnosus GG) and its parabiotic (heat-inactivated) on oxidative stress, inflammation, DNA damage and cell death pathways in the liver of rats featuring diet-induced NAFLD. The consumption of the steatotic diet led to increased final body and liver weights, higher hepatic triacylglycerol content, altered serum transaminase levels and enhanced oxidative and inflammatory status. Administration of the probiotic and the parabiotic partially prevented the body weight increase induced by the steatotic diet, whereas the probiotic caused more effective decreasing hepatic triglyceride content. Sharp but nonstatistically significant decreases in serum transaminase levels were also observed for both treatments. The reduction in antioxidant enzyme activities found in the nontreated animals fed the steatotic diet was partially prevented by both treatments (GPx activity). Similarly, the reductions in nonenzymatic antioxidant protection (GSH content) and total antioxidant capacity (ORAC) found in the nontreated rats were restored by the administration of both treatments. These results show that both viable and heat-inactivated Lactobacillus rhamnosus GG administration partially prevent steatotic diet-induced liver oxidative stress and inflammation induced in rats.

Rosemary (Rosmarinus officinalis L.) Glycolic Extract Protects Liver Mitochondria from Oxidative Damage and Prevents Acetaminophen-Induced Hepatotoxicity.

Rosmarinus officinalis L. (rosemary) is an aromatic culinary herb. Native to the Mediterranean region, it is currently cultivated worldwide. In addition to its use as a condiment in food preparation and in teas, rosemary has been widely employed in folk medicine and cosmetics. Several beneficial effects have been described for rosemary, including antimicrobial and antioxidant activities. Here, we investigated the mechanisms accounting for the antioxidant activity of the glycolic extract of R. officinalis (Ro) in isolated rat liver mitochondria (RLM) under oxidative stress conditions. We also investigated its protective effect against acetaminophen-induced hepatotoxicity in vivo. A crude extract was obtained by fractionated percolation, using propylene glycol as a solvent due to its polarity and cosmeceutical compatibility. The quantification of substances with recognized antioxidant action revealed the presence of phenols and flavonoids. Dereplication studies carried out through LC-MS/MS and GC-MS, supported by The Global Natural Product Social Molecular Networking (GNPS) platform, annotated several phenolic compounds, confirming the previous observation. In accordance, Ro decreased the production of reactive oxygen species (ROS) elicited by Fe2+ or t-BOOH and inhibited the lipid peroxidation of mitochondrial membranes in a concentration-dependent manner in RLM. Such an effect was also observed in liposomes as membrane models. Ro also prevented the oxidation of mitochondrial protein thiol groups and reduced glutathione (GSH). In model systems, Ro exhibited a potent scavenger activity toward 2,2'-diphenyl-1-picrylhydrazyl (DPPH) radicals and superoxide anions. It also demonstrated an Fe2+ chelating activity. Moreover, Ro did not exhibit cytotoxicity or dissipate the mitochondrial membrane potential (∆Ψ) in rat liver fibroblasts (BRL3A cells). To evaluate whether such antioxidant protective activity observed in vitro could also be achieved in vivo, a well-established model of hepatotoxicity induced by acute exposure to acetaminophen (AAP) was used. This model depletes GSH and promotes oxidative-stress-mediated tissue damage. The treatment of rats with 0.05% Ro, administered intraperitoneally for four days, resulted in inhibition of AAP-induced lipid peroxidation of the liver and the prevention of hepatotoxicity, maintaining alanine and aspartate aminotransferase (ALT/AST) levels equal to those of the normal, non-treated rats. Together, these findings highlight the potent antioxidant activity of rosemary, which is able to protect mitochondria from oxidative damage in vitro, and effects such as the antioxidant and hepatoprotective effects observed in vivo.