Evidence-Based Complementary and Alternative Medicine Effects of Capybara Oil on Cardiac Remodeling of C57bl/6 Mice

Cardiovascular diseases are the main cause of morbidity and mortality in the world, and obesity and the metabolic syndrome are risk factors for its development. One of the therapies to reduce cardiovascular risk is the use of polyunsaturated fatty acids. In Brazil, a source of such acid is the oil extracted from the fat of the capybara. The objective of this work is to study the effects of the capybara oil on lipid and glucose metabolism, as well as its effects on the adipose tissue and cardiac remodeling. We assessed the effects of capybara oil treatment on body mass, lipid and carbohydrate metabolism, systolic blood pressure, adipose tissue and cardiac remodeling, and performed an ultrastructural evaluation of the myocardium in C57Bl/6 mice treated with high-fat diet. Treatment with capybara oil reduced total cholesterol and triglyceride levels, systolic blood pressure, visceral and subcutaneous adipose tissue, and adipocyte diameter. In addition, cardiac remodeling was attenuated, preserving cardiomyocytes, increasing vascularization, reducing cardiomyocyte hypertrophy and the extracellular matrix, and preserving the morphological integrity of mitochondria. Capybara oil has several beneficial effects on the cardiovascular and metabolic system, and further studies are needed to better understand its role in the prevention or treatment of cardiovascular diseases.

Pyroptosis is a drug target for prevention of adverse cardiac remodeling: The crosstalk between pyroptosis, apoptosis, and autophagy

Acute myocardial infarction(AMI)is one of the main reasons of cardiovascular disease-related death.The introduction of percutaneous coronary intervention to clinical practice dramatically decreased the mortality rate in AMI.Adverse cardiac remodeling is a serious problem in cardiology.An increase in the effectiveness of AMI treatment and prevention of adverse cardiac remodeling is difficult to achieve without understanding the mechanisms of reperfusion cardiac injury and cardiac remodeling.Inhibition of pyroptosis prevents the development of postinfarction and pressure overload-induced cardiac remodeling,and mitigates cardiomyopathy induced by diabetes and metabolic syndrome.Therefore,it is reasonable to hypothesize that the pyroptosis inhibitors may find a role in clinical practice for treatment of AMI and prevention of cardiac remodeling,diabetes and metabolic syndrome-triggered cardiomyopathy.It was demonstrated that pyroptosis interacts closely with apoptosis and autophagy.Pyroptosis could be inhibited by nucleotide-binding oligomerization domain-like receptor with a pyrin domain 3 inhibitors,caspase-1 inhibitors,microRNA,angiotensin-converting enzyme inhibitors,angiotensinⅡreceptor blockers,and traditional Chinese herbal medicines.

Protective effects of rice bran hydrolysates on heart rate variability,cardiac oxidative stress,and cardiac remodeling in high fat and high fructose diet-fed rats

Objective:To examine the ameliorative effect of rice bran hydrolysates(RBH)on metabolic disorders,cardiac oxidative stress,heart rate variability(HRV),and cardiac structural changes in high fat and high fructose(HFHF)-fed rats.Methods:Male Sprague-Dawley rats were daily fed either standard chow diet with tap water or an HFHF diet with 10%fructose in drinking water over 16 weeks.RBH(500 and 1000 mg/kg/day)was orally administered to the HFHF-diet-fed rats during the last 6 weeks of the study period.At the end of the treatment,metabolic parameters,oxidative stress,HRV,and cardiac structural changes were examined.Results:RBH administration significantly ameliorated metabolic disorders by improving lipid profiles,insulin sensitivity,and hemodynamic parameters.Moreover,RBH restored HRV,as evidenced by decreasing the ratio of low-frequency to highfrequency power of HRV,a marker of autonomic imbalance.Cardiac oxidative stress was also mitigated after RBH supplementation by decreasing cardiac malondialdehyde and protein carbonyl,upregulating eNOS expression,and increasing catalase activity in the heart.Furthermore,RBH mitigated cardiac structural changes by reducing cardiac hypertrophy and myocardial fibrosis in HFHFdiet-fed rats.Conclusions:The present findings suggest that consumption of RBH may exert cardioprotective effects against autonomic imbalances,cardiac oxidative stress,and structural changes in metabolic syndrome.

Modification of Serum Galectin-3 and Reversal of Cardiac Remodeling Following Pediatric Transcatheter Atrial Septal Defect Closure

Objectives:We aimed to evaluate the effect of percutaneous atrial septal defect(ASD)closure in children using right heart indices and serum galectin-3(Gal-3),as potential biomarkers of right heart remodeling.Methods:This case–control prospective study included 40 children with ASD and 25 control subjects.An echocardiographic evaluation was performed before the procedure,as well as 24 h,1 month,and 6 months after intervention.Serum Gal-3 was measured before,and 1 month after the procedure.Results:Serum Gal-3 concentration,right atrial(RA)dimensions,right ventricular(RV)dimensions,indexed RA area,and right index of myocardial performance(RIMP)were significantly increased in children with ASD compared with control subjects while tricuspid annular plane systolic excursion(TAPSE)was significantly decreased.Six months after closure,RA,and RV dimensions significantly decreased and RVfunction improved(RIMP decreased and TAPSE increased).Gal-3 oncentration significantly decreased 1 month after ASD closure,but it did not reach normal range compared with control subjects.A positive correlation between Gal-3 and age at closure,RA area,RV dimensions,and RIMP was observed.A positive correlation was observed between the decrease in Gal-3 concentration and the decrease in RA area and RV dimensions 1 month after ASD closure.A significant negative correlation was observed between TAPSE and Gal-3 concentration before and after intervention.Conclusions:Percutaneous ASD closure can improve right-sided indices and decrease serum Gal-3 concentration.Gal-3 can be used as a sensitive biomarker of right heart remodeling,with a decrease in Gal-3 concentration suggesting reversal of maladaptive remodeling.

Sphingosine-1-Phosphate Protects Against the Development of Cardiac Remodeling via Sphingosine Kinase 2 and the S1PR2/ERK Pathway

Objective:Cardiac remodeling is a common pathological change in various cardiovascular diseases and can ultimately result in heart failure.Thus,there is an urgent need for more effective strategies to aid in cardiac protection.Our previous work found that sphingosine-1-phosphate(S1P)could ameliorate cardiac hypertrophy.In this study,we aimed to investigate whether S1P could prevent cardiac fibrosis and the associated mechanisms in cardiac remodeling.Methods:Eight-week-old male C57BL/6 mice were randomly divided into a sham,transverse aortic constriction(TAC)or a TAC+S1P treatment group.Results:We found that S1P treatment improved cardiac function in TAC mice and that the cardiac fibrosis ratio in the TAC+S1P group was significantly lower and was accompanied by a decrease inα-smooth muscle actin(α-SMA)and collagen type I(COL I)expression compared with the TAC group.We also found that one of the key S1P enzymes,sphingosine kinase 2(SphK2),which was mainly distributed in cytoblasts,was downregulated in the cardiac remodeling case and recovered after S1P treatment in vivo and in vitro.In addition,our in vitro results showed that S1P treatment activated extracellular regulated protein kinases(ERK)phosphorylation mainly through the S1P receptor 2(S1PR2)and spurred p-ERK transposition from the cytoplasm to cytoblast in H9c2 cells exposed to phenylephrine.Conclusion:These findings suggest that SphK2 and the S1PR2/ERK pathway may participate in the anti-remodeling effect of S1P on the heart.This work therefore uncovers a novel potential therapy for the prevention of cardiac remodeling.

Effect of Different Styles of Coronary Heart Disease and Its Risk Factors on Cardiac Remodeling and Dysfunction

Objectives To evaluate the effect of different styles of coronary heart disease （CHD）, different regions of acute myocardial infarction （AMI）, its risk factors and branches of coronary stenosis on left ventricular remodeling and dysfunction by applying echocardiography. Methods 251 patients with CHD and 96 patients without CHD （NoCHD） were verified by selective coronary angiography. CHD patients were divided into stable angina pectoris （SAP） 26, unstable angina pectoris（UAP） 53, acute myocardial infarction （AMI） 140 and old myocardial infarction （OMI） 30 based on clinical situation, cTnT, cardiac enzyme and ECG. AMI patients were further divided into subgroups including acute anterior myocardial infarct （Aa,n = 53）, acute inferior myocardial infarction （Ai, n=54） and Aa＋Ai （n=33） based on ECG. Cardiac parameters： end-diastolic interventricular septum thickness（IVSd）, end-diastolic left ventricular internal diameter （LVd）, left ventricular mass （LM）, end-diastolic left ventricular volume （EDV）, end-systolic left ventricular volume （ESV） and left ventricular ejection fraction（LVEF） were measured by ACUSON 128XP/10 echocardiography. Multiples linear regression analyses were performed to test statistical associations between LVEF and the involved branches of coronary stenosis, blood pressure, lipids, glucose and etc after onset of myocardial infarction. Results EDV and ESV were increased and LVEF decreased on patients with AMI,OMI and UAP （P〈0.05-0.0001）. LM was mainly increased in patients with OMI （P〈0.01） and LVd was mainly enlarged in patients with AMI. EF was significantly decreased and EDV, ESV, LM and LVd were remarkably increased in AMI patients with Aa and Aa＋Ai. With the multiple linear regression analyses by SPSS software, we found that LVEF was negatively correlated to the involved branches of coronary stenosis as well as to systolic blood pressure after onset of myocardial infarction while there was no significant correlation between LVEF and other factors. LVEF was significantly decreased, and LVd and LM increased in AMI patients with antecedent hypertension, compared to patients without hypertension （P〈0.001）. Conclusions Effects of different styles of CHD and different regions of AMI on left ventricular remodeling and cardiac function are different. Myocardial infarction, especially Aa and Aa＋Ai, is one of the most important causes of left ventricular remodeling and cardiac dysfunction. Multiple vessel stenosis and systolic blood pressure at the onset of myocardial infarction reduce LVEF in AMI patients. Antecedent hypertension may accelerate the effect of AMI on cardiac remodeling and dysfunction. Therefore primary and secondary preventions of CHD are critical for protecting heart from remodeling and dysfunction.

Tenascin-x facilitates myocardial fibrosis and cardiac remodeling through transforming growth factor-β1 and peroxisome proliferator-activated receptor γ in alcoholic cardiomyopathy

Background Tenascin-x, an extracellular matrix glycoprotein exclusively expressed in fibroblasts, can mediate fibrosis in the presence of collagen. Therefore, we have investigated its potential role in facilitating myocardial fibrosis and cardiac remodeling via the transforming growth factor-lβ1 and peroxisome proliferator-activated receptor γ（TGFβ1-PPARγ） pathway in alcoholic cardiomyopathy （ACM）.Methods Experimental animals were divided into control （group A） and tenascin-x knock-out groups （group B）receiving alcohol. Six months post treatment, cardiac ejections fraction （EF）, fractional shortening （FS）, left ventricle end-diastole internal diameter （LVEDd） and collagen column fraction （CVF） were observed. Tenascin-x, smad-3, TGFβ1,smad-7 and PPARγ protein expression levels were detected by Western blotting.Results Six months post treatment, EF and FS values were higher in group B than in group A （P 〈0.05 and P 〈0.01,respectively）, while LVEDd and CVF were lower in group B （P 〈0.05 and P 〈0.01, respectively）. Tenascin-x, smad-3 and TGFβ1 protein expression levels were higher in group A, while smad-7 and PPARY levels were lower than in group B （P〈0.01）, as measured by immunohistochemistry and Western blotting. Tenascin-x protein expression was negatively correlated with EF, FS, smad-7 and PPARγ, and positively correlated with LVEDd, CVF, smad-3, and TGFβ1 （P 〈0.001）.Conclusion Tenascin-x is an initiator of myocardial fibrosis and ACM development via upregulation of TGFβ1 and downregulation of PPARγ.

Effect of Moxibustion on Cardiac Remodeling and Myocardial Function in Rats with Exercise-Induced Fatigue

Objective:To explore the effect of moxibustion at Shenque(CV8)on myocardial structure and function in rats with exercise-induced fatigue.Methods:A 12-week treadmill training program was used to establish a rat model of exercise-induced fatigue.Fifty-six male SD rats removed six rats that did not reach the molding condition,Remaining rats were randomly divided into the following five groups:a normal group(n=10)that did not under go the exercise routine and were not treated,a control group(n=10)that did not under go the exercise routine,but received a mild dose of moxibustion at"Shenque"(CV 8)for 15 min,an untreated group(n=10)that received no treatment after exercise,a CV 8 group(n=10)that received a mild dose of moxibustion at"Shenque"(CV 8)for 15 min after exercise,a non-acupoint(tail)group(n=10)that received a mild dose of moxibustion at"non-acupoint"for 15 min after exercise.At one hour after the end of the 12-week training program,the left ventricular diastolic volume(LVDV),left ventricular systolic volume(LVSV),peak early diastolic mitral blood flow velocity(E),and peak late diastolic mitral blood flow velocity(A)were measured,and the E/A ratio were calculated.The serum myoglobin(Mb),creatine kinase-muscle/brain(CK-MB),and cardiac troponin-I(cTnI)levels were detected using an automatic biochemical analyzer.Results:When the values obtained before and after treatment were compared within the same groups,the LVDV,LVSV,E,and A were increased(P<0.05 or P<0.01),and the E/A were decreased(P<0.01)in the untreated group and the tail group.Regarding inter-group comparisons,the LVDV,LVSV,E,and A were increased(P<0.05 or P<0.01),and the E/A were decreased(P<0.01)in the untreated group and the tail group compared to the normal group and control group.Compared to the untreated group and the tail group,the LVDV,LVSV,E,and A were decreased(P<0.01)and the E/A were increased(P<0.01)in the CV 8 group.Compared to the normal group and the control group,the serum Mb,CK-MB,and cTnI levels were increased(P<0.01)in the untreated group and the tail group,and the serum Mb and CK-MB levels were also increased(P<0.01)in the CV 8 group.Compared to the untreated group and the tail group the serum Mb,CK-MB,and cTnI levels in the CV 8 group were decreased(P<0.01).Conclusions:Moxibustion at Shenque(CV8)can effectively prevent cardiac structural changes caused by exercise-induced fatigue and enhance heart function.This treatment does not have side effects in healthy rats and is a safe and effective technique..

Cardiac stromal cells on stage:From dull filler to specialized actors

Cardiac stromal cells have faced through the years a significant evolution in their definitions concerning their phenotypes,markers,and functions.They are surging to key roles in physiopathology,becoming important targets to be exploited for cardiac repair.In this perspective,we briefly discuss their role in novel therapeutic strategies for enhancing cardiac repair and regeneration.

Ameliorative Influence of Dietary Dates on Doxorubicin-Induced Cardiac Toxicity

Doxorubicin is a commonly used anticancer agent, which may cause cardiac toxicity. The present study designed to evaluate Phoenix dactylofera (dates) in doxorubicin (DXR) induced cardiac toxicity and cardiac remodeling in Wistar albino rats. The experimental rats procured, acclimatized and finally divided into five groups (n = 6). Group I served as normal controls, group II served as disease controls and groups 3, 4 & 5 served as therapeutic groups (Phoenix dactylofera 5%, 10%, and 15% respectively). Cardiac remodeling and toxicity in the rats were induced by administration of DXR (1.25 mg/kg i.p. in 16 divided doses/month). At the end of protocol, effect of Phoenix dactylofera on cardiac remodeling was evaluated by measuring parameters like haemodynamics, heart weight, anatomy, Troponin T, creatine phosphokinase (CPK), creatine phosphokinase-MB (CPK-MB), Lactate dehydrogenase (LDH), serum glutamate oxaloacetate transaminase (SGOT), serum glutamate pyruvate transaminase (SGPT), calcium ion Ca2+, sodium ion Na+, potassium ion K+, intracellular enzymes like Malondialdehyde (MDA), glutathione (GSH), superoxide dismutase (SOD) and catalase (CAT). The disease control groups showed significantly elevated (p dactylofera significantly (p 2+, Na+, K+ levels to a normal value. Further, the histological studies of the cardiac tissues demonstrated that the normal architecture of the cardiac cells was restored in the animals fed with dietary Phoenix dactylofera as compared to disease controls. The findings show that the administration of Phoenix dactylofera has the potential to prevent the toxicity induced by doxorubicin in the experimental rats.

Taurine Inhibits Myocardial Fibrosis via PKC-ERK1/2 Signaling Pathways

Previous studies have demonstrated the important role of taurine in inhibiting proliferation of myofibrob lasts（myoFb） and myocardial fibrosis. However, the underlying mechanisms are unclear. The present study was de signed to shed light on this issue through exploring the signal pathways via in vitro experiments. Angiotension II （AngII） treatment significantly increased myoFb proliferation and the levels of collagens I and III（P〈0.05）, whereas taurine, PKCα（PKC： protein kinase C） specific inhibitor L-threo-dihydro-sphingosine（D4681）, ERK1/2 inhibitor （PD98095） abrogated myoFb proliferation and collagen levels（P〈0.05, P〈0.01, respectively）, and increased the G0/G1 phase rate and decreased S phase rate. Immunocytochemistry, confocal fluorescence staining and image analy sis showed that taurine could inhibit the translocation and expression of p-PKCαin membrane, and then inhibit nuc lear translocation and expression of p-ERK1/2. These results have statistically significant differences compared with those of AngII group（P〈0.01）. Western blot results also show that taurine could inhibit the protein expression of p-PKCα and p-ERK1/2. We used p-PKCα specific inhibitor D4681 in order to elucidate the relationship between p-PKCα and p-ERK1/2 in signal transduction pathways. Finally, the results show that the protein expression of p-ERK1/2 and nuclear translocation were suppressed in D4681 group.

Effects of spironolactone on electrical and structural remodeling of atrium in congestive heart failure dogs

Background Renin-angiotensin-aldosterone system has been demonstrated to be associated with both congestive heart failure （CHF） and atrial fibrillation （AF）. This study investigated the effects of spironolactone, a kind of aldosterone antagonist, on atrial electrical remodeling and fibrosis in CHF dogs induced by chronic rapid ventricular pacing. Methods Twenty one dogs were randomly divided into sham-operated group, control group, and spironolactone group. In control group and spironolactone group, dogs were ventricular paced at 220 beats per minute for 6 weeks. Additionally, spironolactone at 15 mg.kgl.d1 was given to dogs 1 week before rapid ventricular pacing until pacing stopped. Transthoracic and transoesophageal echocardiographic examinations were performed to detect structural and functional changes of the atrium. Swan2 Ganz floating catheters were used to measure hemadynamics variances. Atrial effective refractory period （AERP）, AERP dispersion （AERPd） conduction velocity （CV） were determined. The inducib atrial fibrosis was quantified with Masson staining. intra- and inter-atrium conduction time （CT） and intra-atrium ity and duration of AF were also measured in all groups. Finally, Results AERP did not change significantly after dogs were ventricular paced for 6 weeks. However, AERPd, intra- and inter-atrium CT increased significantly, and CV decreased apparently, which was negatively correlated to the atrial fibrosis （r=-0.74, P〈0.05）. Simultaneously, left atriums were enlarged and cardiac hemadynamics worsened in pacing dogs. Although spironolactone could not affect cardiac hemadynamics effectively, it can obviously improve left atrial ejection fraction （P〈0.05）. Spironolactone treatment did not alter AERP duration, but this medicine dramatically decreased AERPd （P〈0.05）, shortened intra- and inter-atrium conduction time （P〈0.05）, and increased atrium CV. Moreover, spironolactone decreased the inducibility and duration of AF （P〈0.05）, as well as atrial fibrosis （P〈0.01） induced by chronic rapid ventricular pacing. Conclusion Spironolactone contributes to AF prevention in congestive heart failure dogs induced by chronic rapid ventricular pacing, which is related to atrial fibrosis reduction and independent of hemadynamics.

Lipopolysaccharide induced activin A-follistatin imbalance affects cardiac fibrosis

Background Inflammation plays a pivotal role in cardiac remodeling, especially in myocardial fibrosis. Abnormal growth of cardiac fibroblasts is critically involved in the pathophysiology of cardiac hypertrophy/remodeling. Previous study has demonstrated that many inflammation stimulating factors trigger transforming growth factor-β （TGF-β） induction and reactive myocardial fibrosis. Activin A （ACT A） is a member of TGF-β superfamily, and follistatin （FS） is an activin-binding protein, i.e. an antagonist of ACT A. Our previous studies have shown that ACT A-FS imbalance occurs in rats with heart failure （HF）, and overexpression of ACT A can lead to ventricular remodeling, and resultant HF. Low expression of FS after myocardial infarction further exacerbated HF. The pathogenic change resulting from overexpression of ACT A is consistent with that of overexpression of angiotensin II （Angll）. Ventricular remodeling includes cardiocyte remodeling and myocardial interstitial collagen deposition and fibrosis, Therefore, the present study was designed to investigate the effects of inflammatory factors on the ACT A-FS and the secretions of cardiac fibroblasts in order to explore in depth the mechanism of myocardial fibrosis. Methods A rat model with HF was established, and the results showed that there was a greater degree of cardiac fibrosis in HF rats. In addition, we found that there was an imbalance of the ACT A/FS system in HF rats, which was characterized by increased levels of ACT A. Further, primary rat cardiac fibroblasts were cultured and the MTT assay was performed to determine the effect of the inflammatory factor-bacterial endotoxin lipopolysaccharide （LPS） on cardiac fibroblast proliferation. Results The results showed that LPS can stimulate the cardiac fibroblasts to proliferate in a dose-dependent manner. Cellular immunohistochemical staining showed that the rat cardiac fibroblasts themselves could express ACT A and FS proteins, and stimulation by LPS could apparently promote the cultured primary rat cardiac fibroblasts to secrete ACT A, but inhibit the secretion of FS. The results also showed that ACT A promoted, in a dose-dependent manner, the proliferation of the cultured primary rat cardiac fibroblasts, and the expression of collagen types I and Ill. Moreover, ACT A promoted, in a dose dependent manner, the cardiac fibroblasts to secrete nitric oxide （NO）, and unregulated the expression of inducible nitric oxide synthase （iNOS） mRNA. Conclusions These results suggest that the inflammatory mediator LPS can promote ACT A-FS imbalance in cardiac fibroblasts, mainly overexpression of ACT A. Overexpression of ACT A promotes the proliferation and the secretion of collagens in cardiac fibroblasts through autocrine/paracrine stimulation of NO, and is involved in the pathological process of myocardial fibrosis.

The effect of rehabilitation exercise on the expression of glutaminase and cardiopulmonary remodeling in pulmonary hypertension

Pulmonary hypertension(PH)is featured by pulmonary vascular and cardiac remodeling.Rehabilitation exercise can improve patients’quality of life.We previously pinpointed a potential glutamine metabolism dysfunction in PH.Hence,we aim to investigate whether rehabilitation exercise could mitigate right ventricular and pulmonary vascular remodeling and its effect on glutaminase(GLS).We collected clinical indicators of PH patients and analyzed their correlation with GLS.Rehabilitation exercise(moderate intensity swimming exercise)was performed in monocrotaline-induced PH(MCT-PH)rats.We found that plasma GLS1 level in patients was lower than healthy subjects,and it was negatively correlated with end-systolic stage eccentricity index,right atrial transverse dimension and right atrial longitudinal dimension.MCT-PH rats displayed pulmonary vascular remodeling and right ventricular hypertrophy.Compared to control rats,higher levels of GLS1 and GLS2 mRNA in lung and lower levels of these two isoforms of GLS in right ventricle(RV)were displayed in MCT-PH rats.After swimming exercise,GLS mRNA levels in the lung and RV were significantly upregulated,and the cross-sectional area of right ventricular cardiomyocytes was significantly decreased although the percentage of pulmonary arteriolar medial wall thickness was not significantly changed.Therefore,we hold the opinion that plasma GLS1 level was decreased in PH.The transcriptional levels of GLS1 and GLS2 were increased in the lung tissues in PH,but were decreased in the RV tissues.Meanwhile,the changes of GLS levels indicated the pulmonary vascular and right ventricular remodeling.Whereas moderate intensity swimming exercise might improve the right ventricular remodeling by regulating the levels of GLS.

The traditional Chinese medicines treat chronic heart failure and their main bioactive constituents and mechanisms

Chronic heart failure(CHF)is a severe public health problem with increasing morbidity and mortality,any treatment targeting a single session is insufficient to tackle this.CHF is characterized by reduced cardiac output resulting from neurohumoral dysregulation and cardiac remodeling,which might be related to oxidative stress,inflammation,endoplasmic reticulum stress,apoptosis,autophagy,mitochondrial function,and angiogenesis.These molecular mechanisms interact with each other through crosstalk.Historically,Chinese medicinal herbs have been widely applied in the treatment of CHF,and therapeutic effects of Chinese medicinal herbs and their ingredients have been scientifically confirmed over the past decades.Traditional Chinese medicine(TCM)with multiple components can confront the different pathogenesis of CHF through multiple targets.This review analyzes commonly used TCM patent drugs and TCM decoctions that are applicable to different stages of CHF based on clinical trials.Diverse bioactive ingredients in Chinese medicinal herbs have been found to treat CHF via multiple molecular mechanisms.This review comprehensively covers the key works on the effects and underlying mechanisms of TCM,herbal ingredients and synergistic effects of constituent compatibility in treating CHF,providing additional ideas to address this threat.

MicroRNAs participate in the cardioprotective activity of dexrazoxane against doxorubicin-induced cardiotoxicity

Background The co-administration of dexrazoxane （DEX） with each dose of doxoruhicin （Dox） is an efficient strategy to relieve Dox-induced cardiotoxicity, however, the mechanisms underlying the cardioprotective effect of DEX have not been well elucidated. MieroRNAs （miRNAs） are endogenous, small non-coding RNAs that negatively regulate gene expression in diverse biological and pathological processes. The aim of the present study was to investigate whether the certain cardiac miRNAs were involved in DOX-induced cardiotoxicity. Methods Male SD rats were randomized into five groups, including the 4-week （cumulative dose： 16 mg/kg） and the 8-week （cumulative dose： 32 mg/kg） Dox-treated groups, and the corresponding 4-week and 8-week Dox plus DEX-treated groups and the normal control group. Heart functions of the animals were detected by echocardiography. Quantitative real-time PCR was used to determine the expression of cardiac remodeling, apoptosis-related genes and mature micoRNAs of interest. Results The echocardiography detection showed that cardiac remodeling and impaired heart function were observed after 4-week and 8-week Dox treatment, and the cardiac remodeling and decreased ejection fraction （EF%） and fractional shortening （FS%） were efficiently rescued in the corresponding 4-week and 8-week Dox plus DEX-treated groups. The myocardial expression of Anp and CTGF mRNA was significantly upregulated by Dox treatment, but the upregulation of Anp and CTGF mHNA was blocked in the Dox plus DEX-treated groups. IGF-1 mRNA was significantly up-regulated in rat myocardium in Dox plus DEX-treated groups, with no significant changes of Bcl-2 and BAX mRNA expression. Mature miRNAs determination demonstrated that the myocardial miR-1 and -30e were significantly down-regulated and miR-21 and -208b were significantly up-regulated in Dox treatment groups, but the above miRNA dysregulation could be efficiently reversed after DEX treatment. Conclusions DEX could tune the microRNAs dysregulation in Dox-treated rat myocardium, miRNAs participated in the cardioprotective activity of DEX against Dox-induced cardiotoxicity.