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Angina might persist or reoccur despite successful revascularisation with percutaneous coronary intervention (PCI) and antianginal therapy. Additionally, PCI in stable patients has not been shown to improve survival compared with optimal medical therapy. Trimetazidine is an antianginal agent that improves energy metabolism of the ischaemic myocardium and might improve outcomes and symptoms of patients who recently had a PCI. In this study, we aimed to assess the long-term potential benefits and safety of trimetazidine added to standard evidence-based medical treatment in patients who had a recent successful PCI. We did a randomised, double-blind, placebo-controlled, event-driven trial of trimetazidine added to standard background therapy in patients who had undergone successful PCI at 365 centres in 27 countries across Europe, South America, Asia, and north Africa. Eligible patients were aged 21–85 years and had had either elective PCI for stable angina or urgent PCI for unstable angina or non-ST segment elevation myocardial infarction less than 30 days before randomisation. Patients were randomly assigned by an interactive web response system to oral trimetazidine 35 mg modified-release twice daily or matching placebo. Participants, study investigators, and all study staff were masked to treatment allocation. The primary efficacy endpoint was a composite of cardiac death; hospital admission for a cardiac event; recurrence or persistence of angina requiring an addition, switch, or increase of the dose of at least one antianginal drug; or recurrence or persistence of angina requiring a coronary angiography. Efficacy analyses were done according to the intention-to-treat principle. Safety was assessed in all patients who had at least one dose of study drug. This study is registered with the EU Clinical Trials Register (EudraCT 2010-022134-89). From Sept 17, 2014, to June 15, 2016, 6007 patients were enrolled and randomly assigned to receive either trimetazidine (n=2998) or placebo (n=3009). After a median follow-up of 47·5 months (IQR 42·3–53·3), incidence of primary endpoint events was not significantly different between the trimetazidine group (700 [23·3%] patients) and the placebo group (714 [23·7%]; hazard ratio 0·98 [95% CI 0·88–1·09], p=0·73). When analysed individually, there were no significant differences in the incidence of the components of the primary endpoint between the treatment groups. Similar results were obtained when patients were categorised according to whether they had an elective or urgent PCI. 1219 (40·9%) of 2983 patients in the trimetazidine group and 1230 (41·1%) of 2990 patients in the placebo group had serious treatment-emergent adverse events. Frequencies of adverse events of interest were similar between the groups. Our results show that the routine use of oral trimetazidine 35 mg twice daily over several years in patients receiving optimal medical therapy, after successful PCI, does not influence the recurrence of angina or the outcome; these findings should be taken into account when considering the place of trimetazidine in clinical practice. However, the long-term prescription of this treatment does not appear to be associated with any statistically significant safety concerns in the population studied. Servier.

We investigated the impact of trimetazidine treatment on left ventricular (LV) functions and cardiac biomarkers in diabetic patients with diastolic dysfunction as an early stage of diabetic cardiomyopathy. Sixty-three patients were randomly assigned to receive either trimetazidine or a placebo for 3 months. At baseline and after 3-months of treatment, measurements of serum levels of glycemic control parameters, lipid profile, tumor necrosis factor alpha, transforming growth factor beta 1, n-terminal pro brain natriuretic peptide and assessment of modified Medical Research Council (mMRC) dyspnea score, echocardiographic indices of LV functions and LV global longitudinal strain (GLS) were performed. After 3-months, trimetazidine group exhibited a significant reduction in left atrial volume index by 6.99% versus an increase by 0.66% in placebo group, p = 0.034. Moreover, average e’ increased by a significantly higher percentage in trimetazidine versus placebo group (8.46 ± 18.64 vs. -2.49 ± 14.52, respectively. p  = 0.015). Trimetazidine treatment resulted in a significant increase in LVGLS by 6.66% versus LVGLS reduction by 2.79% in placebo group ( p  = 0.004). Trimetazidine group had a significantly lower median mMRC dyspnea score compared to placebo (0 vs. 1, respectively, p  = 0.015) and a significantly lower low-density lipoprotein (LDL-C) (103.43 ± 28.31 vs. 125.34 ± 45.27, respectively, p  = 0.032). There was no significant difference between both groups in levels of other biomarkers. Three-months treatment with trimetazidine improved diastolic function parameters, LVGLS, dyspnea severity and LDL-C levels in diabetic patients with diastolic dysfunction.

Background Trimetazidine, as an anti-ischemic and antioxidant agent, has been demonstrated to have many cardioprotective effects. However, whether early administration of trimetazidine has an effect on diabetic cardiomyopathy and the mechanisms underlying the effect have not yet been elucidated. Methods We established a type 2 DCM rat model by high-fat diet and low-dose streptozotocin. Rats were separated into different groups: control, diabetes, and diabetes + trimetazidine (n = 6, each). Cardiac autophagy, cardiac functions, and cardiomyocyte apoptosis were monitored. Results Rats with type 2 DCM showed severe insulin resistance, left ventricular dysfunction, increased cardiomyocyte apoptosis, and reduced cardiac autophagy. Collagen volume fraction (CVF) and perivascular collagen area/luminal area (PVCA/LA) ratio were significantly higher in the diabetic group than the control group. We found that trimetazidine treatment ameliorated metabolic disturbance and insulin resistance, reduced cardiomyocyte apoptosis, and restored cardiac autophagy. CVF and PVCA/LA ratio were also lower in the diabetes + trimetazidine group than the diabetic group (CVF, 4.75 ± 0.52 % vs. 11.04 ± 1.67 %, p  < 0.05; PVCA/LA, 8.37 ± 0.51 vs. 17.97 ± 2.66, p  < 0.05). Furthermore, trimetazidine inhibited phosphorylation of ERK and P38 MAPK to reduce myocardial fibrosis. Inhibited phosphorylation of AMPK was restored and the interaction between Bcl-2 and Beclin1 was enhanced in diabetes + trimetazidine group, resulting in the initiation of autophagy and alleviation of apoptosis. Conclusions Early administration of trimetazidine could ameliorate diabetic cardiomyopathy by inhibiting myocardial fibrosis and cardiomyocyte apoptosis and enhancing autophagy. Therefore, trimetazidine may be a good choice in the prevention of diabetic cardiomyopathy if applied at the early stage of diabetes.

Latest clinical research shows that trimetazidine therapy during the perioperative period relieves endothelial dysfunction in patients with unstable angina induced by percutaneous coronary intervention. In this study we investigated the effects of TMZ on myocardial angiogenesis in pressure overload-induced cardiac hypertrophy mice. Cardiac hypertrophy was induced in mice by transverse aortic constriction (TAC) surgery. TAC mice were administered trimetazidine (2.8 mg/100 µL, i.g.) for 28 consecutive days. We showed that trimetazidine administration significantly increased blood vessel density in the left ventricular myocardium and abrogated cardiac dysfunction in TAC mice. Co-administration of a specific HSF1 inhibitor KRIBB11 (1.25 mg/100 µL, i.h.) abrogated the angiogenesis-promoting effects of trimetazidine in TAC mice. Using luciferase reporter and electrophoretic mobility shift assays we demonstrated that the transcription factor HSF1 bound to the promoter region of VEGF-A, and the transcriptional activity of HSF1 was enhanced upon trimetazidine treatment. In molecular docking analysis we found that trimetazidine directly bound to Akt via a hydrogen bond with Asp292 and a pi–pi bond with Trp80. In norepinephrine-treated HUVECs, we showed that trimetazidine significantly increased the phosphorylation of Akt and the synergistic nuclear translocation of Akt and HSF1, as well as the binding of Akt and HSF1 in the nucleus. These results suggest that trimetazidine enhances myocardial angiogenesis through a direct interaction with Akt and promotion of nuclear translocation of HSF1, and that trimetazidine may be used for the treatment of myocardial angiogenic disorders in hypertensive patients.

Growth and maintenance of skeletal muscle is essential for athletic performance and a healthy life. Stimulating the proliferation and differentiation of muscle cells may help prevent loss of muscle mass. To discover effective natural substances enabling to mitigate muscle loss without side effects, we evaluated muscle growth with several compounds extracted from Catalpa bignonioides Walt. Among these compounds, pinoresinol and vanillic acid increased C2C12, a mouse myoblast cell line, proliferation being the most without cytotoxicity. These substances activated the Akt/mammalian target of the rapamycin (mTOR) pathway, which positively regulates the proliferation of muscle cells. In addition, the results of in silico molecular docking study showed that they may bind to the active site of insulin-like growth factor 1 receptor (IGF-1R), which is an upstream of the Akt/mTOR pathway, indicating that both pinoresinol and vanillic acid stimulate myoblast proliferation through direct interaction with IGF-1R. These results suggest that pinoresinol and vanillic acid may be a natural supplement to improve the proliferation of skeletal muscle via IGF-1R/Akt/mTOR signaling and thus strengthen muscles.

Bipolar disorder’s core feature is the pathological disturbances in mood, often accompanied by disrupted thinking and behavior. Its complex and heterogeneous etiology implies that a range of inherited and environmental factors are involved. This heterogeneity and poorly understood neurobiology pose significant challenges to existing drug development paradigms, resulting in scarce treatment options, especially for bipolar depression. Therefore, novel approaches are needed to discover new treatment options. In this review, we first highlight the main molecular mechanisms known to be associated with bipolar depression–mitochondrial dysfunction, inflammation and oxidative stress. We then examine the available literature for the effects of trimetazidine in said alterations. Trimetazidine was identified without a priori hypothesis using a gene-expression signature for the effects of a combination of drugs used to treat bipolar disorder and screening a library of off-patent drugs in cultured human neuronal-like cells. Trimetazidine is used to treat angina pectoris for its cytoprotective and metabolic effects (improved glucose utilization for energy production). The preclinical and clinical literature strongly support trimetazidine’s potential to treat bipolar depression, having anti-inflammatory and antioxidant properties while normalizing mitochondrial function only when it is compromised. Further, trimetazidine’s demonstrated safety and tolerability provide a strong rationale for clinical trials to test its efficacy to treat bipolar depression that could fast-track its repurposing to address such an unmet need as bipolar depression.

We studied the effect of [N.sup.1]-(2,3,4-trimethoxybenzyl)-[N.sup.2]-2- [(2,3,4-trimethoxybenzyl)amino]ethyl-1,2- ethanediamine (compound ALM-802) on the physical performance of mice after acute fatigue. The animals' performance was assessed on a treadmill. The criterion for assessing exercise tolerance was the length of the distance passed when running on a treadmill until complete fatigue. To assess the actoprotective activity of compound ALM-802, we used a method of stepwise increase in load with an initial running speed of 42 cm/sec and its subsequent increase by 5 cm/sec every 5 min. The maximum speed of movement of the treadmill belt is 77 cm/sec. Animals that received compound ALM-802 (2 mg/kg intraperitoneally), 1 day after acute fatigue, ran a distance to complete fatigue that exceeded that of control mice by 68% (387.9[+ or -]60.5 and 230.6[+ or -]29.6 m, respectively, p=0.023). The reference drug trimetazidine (30 mg/kg, intraperitoneally) did not have a significant effect on the distance traveled. Compound ALM-802 helps restore physical performance, i.e. exhibits significant actoprotective activity.

We studied the effect of [N.sup.1]-(2,3,4-trimethoxybenzyl)-[N.sup.2]-{2- [(2,3,4-trimethoxybenzyl)amino]ethyl}-1,2- ethanediamine (compound ALM-802) on the physical performance of mice after acute fatigue. The animals' performance was assessed on a treadmill. The criterion for assessing exercise tolerance was the length of the distance passed when running on a treadmill until complete fatigue. To assess the actoprotective activity of compound ALM-802, we used a method of stepwise increase in load with an initial running speed of 42 cm/sec and its subsequent increase by 5 cm/sec every 5 min. The maximum speed of movement of the treadmill belt is 77 cm/sec. Animals that received compound ALM-802 (2 mg/kg intraperitoneally), 1 day after acute fatigue, ran a distance to complete fatigue that exceeded that of control mice by 68% (387.9[+ or -]60.5 and 230.6[+ or -]29.6 m, respectively, p=0.023). The reference drug trimetazidine (30 mg/kg, intraperitoneally) did not have a significant effect on the distance traveled. Compound ALM-802 helps restore physical performance, i.e. exhibits significant actoprotective activity. Key Words: compound ALM-802; trimetazidine; treadmill; acute fatigue; actoprotective activity

Hexavalent chromium salt, like potassium dichromate (PD), is chromium’s most precarious valence state in industrial wastes. Recently, there has been increasing interest in β-sitosterol (BSS), a bioactive phytosterol, as a dietary supplement. BSS is recommended in treating cardiovascular disorders due to its antioxidant effect. Trimetazidine (TMZ) was used traditionally for cardioprotection. Through the administration of BSS and TMZ, the cardiotoxic effects of PD were to be countered in this study, in addition to examining the precise mechanism of PD-induced cardiotoxicity. Thirty male albino rats were divided into five groups; the control group: administered normal saline daily (3 mL/kg); the PD group: administered normal saline daily (3 mL/kg); BSS group: administered BSS daily (20 mg/kg); TMZ group: administered TMZ daily (15 mg/kg); and the BSS + TMZ group: administered both BSS (20 mg/kg) and TMZ (15 mg/kg) daily. All experimental groups, except the control, received on the 19th day a single dose of PD (30 mg/kg/day, S.C.). Normal saline, BSS, and TMZ were received daily for 21 consecutive days p.o. The exposure to PD promoted different oxidative stresses, pro-inflammatory, and cardiotoxicity biomarkers. BSS or TMZ succeeded solely in reducing these deleterious effects; however, their combination notably returned measured biomarkers close to normal values. The histopathological investigations have supported the biochemical findings. The combination of BSS and TMZ protects against PD cardiotoxicity in rats by reducing oxidative stress and apoptotic and inflammatory biomarkers. It may be promising for alleviating and protecting against PD-induced cardiotoxicity in people at an early stage; however, these findings need further clinical studies to be confirmed. Highlights • Potassium dichromate induces cardiotoxicity in rats through the upregulation of oxidative stress, proinflammatory, and apoptotic pathways biomarkers. • β-Sitosterol possesses a possible cardioprotective effect by modulating several signaling pathways. • Trimetazidine, the antianginal agent, has a potential cardioprotective impact on PD-intoxicated rat model. • The combination of β-Sitosterol and trimetazidine was the best in modulating different pathways involved in PD cardiotoxicity in rats via the interplay between NF-κB/AMPK/mTOR/TLR4 and HO-1/NADPH signaling pathways. Graphical Abstract