Up-regulation of hexokinase1 in the right ventricle of monocrotaline induced pulmonary hypertension

Background

Pulmonary arterial hypertension (PAH) is a proliferative arteriopathy associated with a glycolytic shift during heart metabolism. An increase in glycolytic metabolism can be detected in the right ventricle during PAH. Expression levels of glycolysis genes in the right ventricle during glycolysis that occur in monocrotaline (MCT)-induced pulmonary hypertension (PH) remain unknown.

Methods

PH was induced by a single subcutaneous injection of MCT (50 mg/kg) into rats, eventually causing right heart failure. Concurrently, a control group was injected with normal saline. The MCT-PH rats were randomly divided into three groups according to MCT treatment: MCT-2 week, 3 week, and 4 week groups (MCT-2w, 3w, 4w). At the end of the study, hemodynamics and right ventricular hypertrophy were compared among experimental groups. Expression of key glycolytic candidate genes was screened in the right ventricle.

Results

We observed an increase in mean pulmonary arterial pressure, right ventricular systolic pressure and right ventricular hypertrophy index three weeks following MCT injection. Alterations in the morphology and structure of right ventricular myocardial cells, as well as the pulmonary vasculature were observed. Expression of hexokinase 1 (HK1) mRNA began to increase in the right ventricle of the MCT-3w group and MCT-4w group, while the expression of lactate dehydrogenase A (LDHA) was elevated in the right ventricle of the MCT-4w group. Hexokinase 2(HK2), pyruvate dehydrogenase complex α1 (PDHα1), and LDHA mRNA expression showed no changes in the right ventricle. HK1 mRNA expression was further confirmed by HK1 protein expression and immunohistochemical analyses. All findings underlie the glycolytic phenotype in the right ventricle.

Conclusions

There was an increase in the protein and mRNA expression of hexokinase-1 (HK1) three and four weeks after the injection of monocrotaline in the right ventricle, intervention of HK1 may be amenable to therapeutic intervention.     

腹腔一次注射法构建百草枯致小鼠肺间质纤维化模型

目的建立一种简便易行的百草枯(PQ)致肺间质纤维化动物模型。方法 33只C57BL/6J小鼠随机分为实验组(30只)和对照组(3只)。实验组腹腔一次性注射PQ 10 mg/kg,并于染毒后第2、5、7、14、28天处死小鼠,对照组腹腔注射生理盐水并于第28天处死。观察两组小鼠的一般情况、肺组织大体结构和肺组织病理学改变。结果实验组小鼠在染毒后2 h即出现中毒性改变,肺组织在第28天出现了明显的纤维化改变。结论腹腔一次性注射PQ能简便、可靠的构建出肺纤维化动物模型,可用于进一步研究PQ中毒所致的肺间质纤维化发病机制和治疗方法。     

Hemodynamic and echocardiographic evaluation of the stumptailed macaque: a potential nonhuman primate model for pulmonary vascular disease

Stumptailed macaques (Macaca arctoides) were evaluated as to their suitability as an animal model for pulmonary hypertension. Animals used for this study were colony-bred. Necropsy material from 63 animals revealed 32% with severe medial thickening of pulmonary arteries. Twenty-nine stumptailed macaques underwent cardiac catheterization and M-mode echocardiography. Hemodynamic measurement including pulmonary artery pressure response to 12% oxygen exposure identified three groups of animals with elevated, normal, and intermediate pulmonary artery pressures. Stumptailed macaques with elevated pulmonary artery pressure could be distinguished from other animals by echocardiography.     

Decreased mortality in a rat model of acute postinfarction heart failure

INTRODUCTION: The rat model of postinfarction heart failure (HF) has been very valuable in experimental cardiology. One disadvantage of this model is the very high acute mortality (70-80%). The aim of this study was to evaluate whether measures of intensive cardiac care applied to rats with acute myocardial infarction (MI) would reduce mortality. METHODS: Male Sprague-Dawley rats weighing approximately 300 g were used. The animals were randomized into two groups. The intensive care group (IC) n=20 and conventional care group (CC) n=20. Experimental MI was induced by ligation of the left coronary artery producing large anterolateral MI. Animals in the IC group received isoflurane anesthesia and respiratory support postoperatively. The heart rhythm was monitored continuously and ventricular arrhythmias were treated with amiodarone and cardioversion. RESULTS: Mortality rate within 24 h was 4/20 (20%) in the IC group and 14/20 (70%) in the CC group (p<0.01). This represents a 3.5-fold reduction in acute mortality rate. CONCLUSIONS: The use of amiodarone, respiratory support, isoflurane gas anesthesia, and electrical cardioversion of malignant arrhythmias are simple and effective measures to reduce mortality in rats with acute MI and HF. Improving survival rates increases cost-efficiency and ethical acceptance of this important experimental HF model.     

Decreased expression of cardiac sarcoplasmic reticulum Ca2+-pump ATPase in congestive heart failure due to myocardial infarction

Myocardial infarction in rats induced by occluding the left coronary artery for 4, 8 and 16 weeks has been shown to result in congestive heart failure (CHF) characterized by hypertrophy of the viable ventricular myocardial tissue. We have previously demonstrated a decreased calcium transport activity in the sarcoplasmic reticulum (SR) of post-myocardial infarction failing rat hearts. In this study we have measured the steady state levels of the cardiac SR Ca²⁺-pump ATPase (SERCA2) mRNA using Northern blot and slot blot analyses. The relative amounts of SERCA2 mRNA were decreased with respect to GAPDH mRNA and 28 S rRNA in experimental failing hearts at 4 and 8 weeks post myocardial infarction by about 20% whereas those at 16 weeks declined by about 35% of control values. The results obtained by Western blot analysis, revealed that the immunodetectable levels of SERCA2 protein in 8 and 16 weeks postinfarcted animals were decreased by about 20% and 30%, respectively. The left ventricular SR Ca²⁺-pump ATPase specific activity was depressed in the SR preparations of failing hearts as early as 4 weeks post myocardial infarction and declined by about 65% at 16 weeks compared to control. These results indicate that the depressed SR Ca²⁺-pump ATPase activity in CHF may partly be due to decreased steady state amounts of SERCA2 mRNA and SERCA2 protein in the failing myocardium.     

Model-specific selection of molecular targets for heart failure gene therapy

Heart failure (HF) is a complex multifaceted problem of abnormal ventricular function and structure. In recent years, new information has been accumulated allowing for a more detailed understanding of the cellular and molecular alterations that are the underpinnings of diverse causes of HF, including myocardial ischemia, pressure-overload, volume-overload or intrinsic cardiomyopathy. Modern pharmacological approaches to treat HF have had a significant impact on the course of the disease, although they do not reverse the underlying pathological state of the heart. Therefore gene-based therapy holds a great potential as a targeted treatment for cardiovascular diseases. Here, we survey the relative therapeutic efficacy of genetic modulation of β-adrenergic receptor signaling, Ca(2+) handling proteins and angiogenesis in the most common extrinsic models of HF.     

Cardiac overexpression of human VEGF165 by recombinant Semliki Forest virus leads to adverse effects in pressure-induced heart failure

Semliki Forest virus (SFV) is an efficient vector for cardiac gene delivery. The relatively short transgene expression induced by SFV seems appropriate for angiogenic gene therapy. We tested the effects of SFV expressing vascular endothelial growth factor (VEGF) on cardiac angiogenesis and heart failure in the mRen2 transgenic rat. Six-week-old mRen2 rats received SFV-VEGF or control virus (n=7 each) administered intracoronarily. Twelve days after transfection, cardiac capillary density and function were assessed. Capillary density in cardiac regions where SFV expression was highest had decreased by 20% in the SFV-VEGF-treated group. The decrease in capillary density was accompanied by impaired systolic function as illustrated by increased endsystolic volumes and a 34% decrease in cardiac output. We conclude that the time frame of SFV expression is sufficient to induce structural alterations, but that VEGF in mRen2 transgenic rats did not elicit the expected angiogenic effect. Rather, capillary density was decreased and subsequently cardiac function was impaired. This paradoxical finding is possibly related to the pathophysiology associated with this model and warrants caution if one is to pursue VEGF-mediated, angiogenic therapy before proceeding to a clinical setting. (Neth Heart J 2007;15:335-41.)     

Identifying functional metabolic shifts in heart failure with the integration of omics data and a heart-specific,genome-scale model

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Localization of the insulin-like growth factor system in a rat model of heart failure induced by myocardial infarction.

Although cardiac effects of growth hormone (GH) and insulin-like growth factor (IGF)-I have been reported in experimental models of heart failure and in human dilated cardiomyopathy, the IGF system has not been comprehensively assessed in the failing heart. We therefore localized the IGF system in the left ventricle during congestive heart failure after myocardial infarction (MI) in the rat. The left anterior descending coronary artery was ligated in adult female Sprague-Dawley rats and hearts were examined after 6 months when congestive heart failure had developed. In situ hybridization histochemistry was used to localize mRNA for the components of the IGF system in the left ventricle of sham and congestive heart failure animals. We were able to detect changes in the spatial distribution of mRNA for IGF-I and IGF binding proteins 3, 4, 5, and 6 in the left ventricle during congestive heart failure after MI. IGF-I and the binding proteins were predominantly increased in the infarct/peri-infarct area of the left ventricle. Other components of the IGF system were indistinguishable from the low to undetectable levels in sham-operated rats. These results demonstrate that the IGF system is altered in the failing heart and suggest that the IGF system plays an important role in the response of the heart to MI and consequent failure.     

病毒性心肌炎所致小鼠心力衰竭心肌组织内质网应激相关的凋亡关系的研究

目的：探讨病毒性心肌炎心力衰竭小鼠心肌组织内质网应激介导的凋亡途径。方法：40只雄性Balb／c小鼠分为病毒性心肌炎组和正常对照组（n=20）,病毒性心肌炎组应用柯萨奇B3病毒制作BALB／c小鼠病毒性心肌炎模型,观察小鼠的一般情况,7d行血流动力学检查后处死取心脏标本,用TUNEL法检测心肌细胞凋亡,RT-PCR检测心肌细胞内质网伴侣蛋白葡萄糖调节蛋白（GAP）78和GRP04的mRNA表达水平。结果：①与正常对照组相比,病毒性心肌炎组小鼠血流动力学指标明显降低（P〈0．01）;②TUNEL染色显示病毒性心肌炎心力衰竭小鼠心肌组织凋亡明显增多（P〈0．01）;③病毒性心肌炎组小鼠内质网伴侣蛋白GRP78和GRP94的mRNA表达水平均明显高于对照组（P〈0．01）。结论：病毒性心肌炎心力衰竭小鼠内质网应激可能介导了心肌细胞凋亡。     

LPS/D-GalN诱导小鼠急性肝损伤模型的建立

目的建立脂多糖(lipopolysaccharide,LPS)/D-氨基半乳糖(D-galactosamine,D-GalN)诱导小鼠急性肝损伤模型。方法 40只雌性C57BL/6小鼠用于观察8种不同LPS与D-GalN剂量配比联合刺激后小鼠存活时间,以确定模型建立的最佳剂量。使用腹腔注射最佳剂量染毒32只雌性C57BL/6小鼠,分别在0、1、4、8 h处死,每组8只,0 h注射相同剂量生理盐水作为对照。观察染毒后小鼠肝组织病理损伤,检测血清中ALT及炎症因子IL-6、MCP-1和TNF-α表达水平变化。结果通过观察小鼠存活时间,确定腹腔注射最佳染毒剂量为LPS(2.5 mg/kg)/D-GalN(0.3 g/kg);小鼠染毒后肝组织呈进程性病变,最终发展为肝脏弥漫性坏死,肝细胞核崩解。与对照组相比,血清ALT显著升高(P0.001),IL-6、MCP-1、TNF-α均在1 h后达到最高水平(P0.001),然后持续下降。结论成功建立LPS/D-GaIN诱导小鼠急性肝损伤模型,为探索急性肝损伤的致病机制以及药物干预治疗提供有效的动物模型。     

The subset of patients with acute heart failure able to secrete relaxin-2 at pregnancy concentrations could have a longer survival: a pilot study

Objective: To investigate how many patients with acute heart failure (AHF) hypersecrete relaxin-2 concentrations similar to those of pregnant women and determine their long-term outcome.

Methods: In consecutive AHF patients relaxin-2 was quantified by ELISA sandwich method. Patients were divided into pregnancy-like group (PLG, relaxin-2 ≥?500?pg/mL) and control group (CG, relaxin-2 10?days), combined endpoint (death, rehospitalisation, ED revisit) 30?days after discharge, and 30-day, one-year and three-year death rates.

Results: We included 814 patients [81 (SD?=?9) years; 53.0% women] followed during 1.9 (SD 2.8) years; 517 (63.5%) died. Twenty patients (2.5%) formed the PLG (median relaxin-2?=?1459?pg/mL; IQR?=?1722) and 794 the CG (median?=?26; IQR?=?44). There was no interaction with variables included on adjustment (age, sex, ischaemic cardiomyopathy, NT-proBNP, glycaemia, and sodium). PLG patients did not have better short-term secondary endpoints, but did show a significantly lower three-year mortality [OR_adjusted?=?0.17 (0.05–0.5), p?=?0.003].

Conclusions: The small proportion of AHF patients achieving relaxin-2 concentrations similar to those observed in pregnancy may survive longer.     

Therapeutic effects of higenamine combined with [6]-gingerol on chronic heart failure induced by doxorubicin via ameliorating mitochondrial function

Higenamine (HG) is a natural benzylisoquinoline alkaloid isolated from Aconitum with positive inotropic and chronotropic effects. This study aimed to investigate the possible cardioprotective effects of HG combined with [6]-gingerol (HG/[6]-GR) against DOX-induced chronic heart failure (CHF) by comprehensive approaches. DOX-induced cardiotoxicity model in rats and H9c2 cells was established. Therapeutic effects of HG/[6]-GR on haemodynamics, serum indices and histopathology of cardiac tissue were analysed. Cell mitochondrial energy phenotype and cell mitochondrial fuel flex were measured by a Seahorse XFp analyser. Moreover, UHPLC-Q-TOF/MS was performed to explore the potential metabolites affecting the therapeutic effects and pathological process of CHF. To further investigate the potential mechanism of HG/[6]-GR, mRNA and protein expression levels of RAAS and LKB1/AMPK/Sirt1-related pathways were detected. The present data demonstrated that the therapeutic effects of HG/[6]-GR combination on CHF were presented in ameliorating heart function, down-regulation serum indices and alleviating histological damage of heart tissue. Besides, HG/[6]-GR has an effect on increasing cell viability of H9c2 cells, ameliorating DOX-induced mitochondrial dysfunction and elevating mitochondrial OCR and ECAR value. Metabolomics analyses showed that the therapeutic effect of HG/[6]-GR combination is mainly associated with the regulation of fatty acid metabolites and energy metabolism pathways. Furthermore, HG/[6]-GR has an effect on down-regulating RAAS pathway-related molecules and up-regulating LKB1/AMPKα/Sirt1-related pathway. The present work demonstrates that HG/[6]-GR prevented DOX-induced cardiotoxicity via the cardiotonic effect and promoting myocardial energy metabolism through the LKB1/AMPKα/Sirt1 signalling pathway, which promotes mitochondrial energy metabolism and protects against CHF.     

PKCβII inhibition attenuates myocardial infarction induced heart failure and is associated with a reduction of fibrosis and pro‐inflammatory responses

Protein kinase C βII (PKCβII) levels increase in the myocardium of patients with end‐stage heart failure (HF). Also targeted overexpression of PKCβII in the myocardium of mice leads to dilated cardiomyopathy associated with inflammation, fibrosis and myocardial dysfunction. These reports suggest a deleterious role of PKCβII in HF development. Using a post‐myocardial infarction (MI) model of HF in rats, we determined the benefit of chronic inhibition of PKCβII on the progression of HF over a period of 6 weeks after the onset of symptoms and the cellular basis for these effects. Four weeks after MI, rats with HF signs that were treated for 6 weeks with the PKCβII selective inhibitor (βIIV5‐3 conjugated to TAT_47–57 carrier peptide) (3 mg/kg/day) showed improved fractional shortening (from 21% to 35%) compared to control (TAT_47–57 carrier peptide alone). Formalin‐fixed mid‐ventricle tissue sections stained with picrosirius red, haematoxylin and eosin and toluidine blue dyes exhibited a 150% decrease in collagen deposition, a two‐fold decrease in inflammation and a 30% reduction in mast cell degranulation, respectively, in rat hearts treated with the selective PKCβII inhibitor. Further, a 90% decrease in active TGFβ1 and a significant reduction in SMAD2/3 phosphorylation indicated that the selective inhibition of PKCβII attenuates cardiac remodelling mediated by the TGF‐SMAD signalling pathway. Therefore, sustained selective inhibition of PKCβII in a post‐MI HF rat model improves cardiac function and is associated with inhibition of pathological myocardial remodelling.     

Improvement of pulmonary arterial hypertension,inflammatory response,and epithelium injury by dual activation of cAMP/cGMP pathway in a rat model of monocrotaline-induced pulmonary hypertension

Pulmonary hypertension (PH) is a life-threatening lung disease. PH with concomitant lung diseases, e.g., idiopathic pulmonary fibrosis, is associated with poor prognosis. Development of novel therapeutic vasodilators for treatment of these patients is a key imperative. We evaluated the efficacy of dual activation of cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP) using an active, small-molecule phosphodiesterase (PDE4)/PDE5 dual inhibitor (Compound A). Compound A increased both cAMP and cGMP levels in WI-38 lung fibroblasts and suppressed the expressions of type-1 collagen α1 chain and fibronectin. Additionally, compound A reduced right ventricular weight/left ventricular weight+septal weight ratio, brain natriuretic peptide expression levels in right ventricle, C─C motif chemokine ligand 2 expression levels in lung, and plasma surfactant protein D. Our data indicate that dual activation of cAMP/cGMP pathways may be a novel treatment strategy for PH.     

高脂喂养合并小剂量链脲佐菌素建立2型糖尿病大鼠模型

目的 观察不同配方的高脂饲料,以及不同周龄的大鼠对于该模型的造模成功率和模型病变特点的影响.方法 将26只3周龄SD大鼠分为正常一组(N1组)、模型一组(M1组)和模型二组(M2组);26只5周龄SD大鼠分为正常二组(N2组)、模型三组(M3组)和模型四组(M4组).M1组和M3组给予高脂饲料配方一喂养,M2组和M4组给予高脂饲料配方二喂养.4周后,各模型组大鼠腹腔注射STZ溶液35 mg/kg.连续观察大鼠的空腹血糖(FBG)、空腹胰岛素(FIN)、总胆固醇(TG)、甘油三酯(TC)水平.结果 5周龄SD大鼠的FBG水平在注射STZ后两周即可达到稳定状态,并维持在较高的水平;高脂饲料配方二使大鼠的进食量和体重增加明显,并且成功诱导出胰岛素抵抗( insulin resistance,IR).结论 选取5周龄SD大鼠作为模型动物,并给予配方二高脂饲料喂养,所建立的大鼠模型具备2型糖尿病的主要特征,是值得推广的2型糖尿病动物模型.