High cardiac angiotensin-II-forming activity in infarcted and non-infarcted human myocardium

The aims of this study were to compare human cardiac angiotensin-II-forming activity (AIIFA) between the intact area of control autopsy hearts without cardiac disease (n = 10) and the infarcted or non-infarcted area of autopsy hearts with myocardial infarction (MI, n = 7) and to determine responsible angiotensin-II-forming enzymes. Cardiac total and chymase-dependent AIIFAs were significantly higher in the infarcted and non-infarcted myocardium than those in non-MI heart, while angiotensin-converting enzyme-dependent AIIFA increased only in the infarcted myocardium. The density of chymase antibody-positive mast cells in the non-infarcted area of MI heart correlated positively with total or chymase-dependent AIIFA. Augmented AIIFA was also detected in the left atrium of post-MI hearts. Our results indicated that cardiac angiotensin II formation could be activated in the infarcted as well as in non-infarcted myocardium of the post-MI human heart.     

Studies on pathophysiological significance of sympathetic activity in myocardial infarction.

In an attempt to elucidate the pathophysiological significance of the sympathetic hyperactivity in the acute stage of myocardial infarction, the author observed changes in the urinary excretion of CA, the CA content in the myocardium and the hemodynamics in both clinical and experimental myocardial infarction, and the following were found: 1) In clinical myocardial infarction, the urinary excretion of CA was markedly increased immediately after an attack, and the assay of myocardial specimens form the autopsied patients of acute myocardial infarction revealed that the CA content in the non-infarcted area was lower than that in the infarcted area. 2) In the experiments on rabbits with ligated coronary artery, the increase in cardiac contractility and rise in blood pressure in response to CA was supressed after the ligation of coronary artery. In the early stage of experimental myocardial infarction, the decrease of myocardial CA content in the non-infarcted area was, as in autopsied patients, predominant over the decrease of that in the infarcted area. In the chronic stage (more than one week after the coronary ligation), the CA content in the infarcted area showed further decrease, but in the non-infarcted area it was recovered to the level in the control animals. The uptake of exogenous NA into the non-infarcted area decreased in the acute stage, and in the infarcted area it showed marked decreased in the chronic stage. The urinary excretion of CA was increased in the acute stage of myocardial infarction. 3) The administration of betamethasone suppressed the decrease in the CA content in the myocardium following the ligation of coronary artery. Based on these findings, the author came to a postulation that the sympathetic hyperactivity which is suggested by increased urinary excretion of CA and decreased CA content in the myocardium results from the reasonable biophylactic reaction so as to supplement the cardiac hypofunction derived from myocardial infarction.     

The impaired tolerance of the recently infarcted rat heart to cardioplegic arrest: the protective effect of orotic acid

After myocardial infarction, a reduced mass of non-infarcted myocardium remains to maintain cardiac output. This acutely stressed, non-infarcted myocardium exhibits many metabolic disturbances, and undergoes a process of acute hypertrophy. These stress-induced disturbances may reduce the tolerance of the heart to the global ischaemia of cardioplegic arrest and may explain the increased mortality and morbidity associated with cardiac surgery in patients with recent myocardial infarction. We postulated that orotic acid, a pyrimidine precursor which augments the rate of protein synthesis during hypertrophy, might improve the response of the recently infarcted heart to cardioplegic arrest. Myocardial infarction was induced in rats by coronary ligation, and after 2 days or 3 days the hearts were excised and perfused on the working heart apparatus. After measurement of work capacity, the hearts underwent 1 hour of hypothermic cardioplegic arrest. Post-arrest function was then measured and expressed as a percentage of the pre-arrest value. A group of sham-operated, non-infarcted hearts served as controls. There were two distinct findings: (1) when subjected to hypothermic cardioplegic arrest 2 days after myocardial infarction, hearts recovered only 49% of pre-arrest function, compared with 80% recovery in non-infarcted controls (P less than 0.001). Three days after infarction, recovery had improved to 68% (P less than 0.01 vs. 2 days, P less than 0.05 vs. non-infarcted). (2) Treatment with oral orotic acid following infarction augmented recovery from cardioplegic arrest to 83%, 2 days after infarction (P less than 0.001 vs. untreated) and to 87%, 3 days after infarction (P less than 0.01 vs. untreated).(ABSTRACT TRUNCATED AT 250 WORDS)     

Decreased expression of Na+/H+ exchanger isoform 1 (NHE1) in non-infarcted myocardium after acute myocardial infarction

Although cardiac NHE1 is activated during myocardial ischemia and reperfusion injury, little is known about changes in expression in non-infarcted myocardium after acute myocardial infarction (AMI). The purpose of this study was to examine left ventricular function and region dependent NHE1 expression after myocardial infarction. Therefore, we produced two AMI models in rats, a small infarction model which was continuously ligated at the branches of the left coronary artery, and an extensive infarction model continuously ligated at the root of the artery. We examined NHE1 mRNA expression using RNase protection assay and protein levels using Western blot analysis in non-infarcted myocardium during the 24 hour period after AMI. The level of NHE1 mRNA and protein expression in the whole heart including the infarcted myocardium did not change after a small infarction. On the other hand, in the case of an extensive infarction, the levels of NHE1 mRNA and protein expression decreased significantly by 21.5% (P<0.05) and by 22.0% (P<0.05), respectively, in non-infarcted myocardium. Left ventricular systolic pressure (LVSP) decreased significantly by 13% and 38% with the branch and root ligation, respectively. However, left ventricular end-diastolic pressure (LVEDP) only increased with the root ligation. These results indicate that NHE1 expression decreased in response to extensive myocardial infarction only in non-infarcted myocardium. The present study may be important in furthering the understanding of NHE1 in myocardial infarction and suggests that decreased expression of NHE1 in non-infarcted myocardium may decrease the extent of cardiac cell injury.     

Upregulation of ICAM-1 on cardiomyocytes in jeopardized human myocardium during infarction.

OBJECTIVE: Impaired perfusion of the myocardium induces a local inflammatory response. In animal models, there is ample evidence that polymorphonuclear leucocytes (PMNs) infiltrating infarcted myocardium contribute significantly to infarct size. METHODS: To explore a possible role for PMNs in the tissue damage of human myocardial infarction, we investigated localization of intercellular adhesion molecule-1 (ICAM-1) and CD66b (previously clustered as CD67), a marker of degranulation of human PMNs, in relation to deposition of complement in tissue specimens of infarcted and healthy parts of the heart obtained from 20 patients, who had died following acute myocardial infarction. RESULTS: ICAM-1 was transiently expressed by endothelium and for a longer period (few days) on myofibers of infarcted myocardium. This expression only occurred in parts that stained positive for complement. PMN infiltration exclusively occurred in areas with ICAM-1 expression, but not every ICAM-1-positive area contained PMN infiltrates. CD66b was found in PMNs but was also fixed to the plasma membrane of myofibers that stained positive for complement and ICAM-1. CONCLUSION: These findings indicate that, in infarcted human myocardium, PMNs are degranulated, possibly upon interaction with ICAM-1 and activated complement.     

Sarcomere relaxation phenomenon in the diagnosis of the early stage of myocardial infarction in sudden death

Sarcomere measurements in the infarcted zone at sudden death, outside the infarcted zone and without acute infarction in the myocardium of patients with ischaemic heart disease (IHD) and in patients decreased due to other causes showed that sarcomere relaxation occurs in extensive areas of muscle fibres already in the earliest stage of infarction, and is not found outside the area of acute ischaemia. This phenomenon can be revealed even without sarcomere measurement, by analysing histological material stained by routine methods in normal and polarized light. This facilitates the diagnosis of acute myocardial infarction in subjects who have died suddenly.     

PCI术后AMI患者非梗死区冠脉血流储备的变化及其对左室功能的影响

目的 观察和分析急性心肌梗死（AMI）患者PCI术后非梗死区冠脉血流储备（CFR）的变化及其对左室功能的影响。方法 22名AMI患者PCI术后1周行二维超声心动图和多巴酚丁胺负荷实时心肌声学造影（MCE）检查,测量左室功能和梗死区、非梗死区CFR,比较非梗死区CFR与梗死区及正常对照组CFR;根据非梗死区CFR值将患者分为两组,比较两组远期左室功能的变化。结果 非梗死区CFR值与正常对照组相比明显下降,非梗死区CFR与左室舒张末期容积呈负相关。结论 AMI后非梗死区心肌同样存在微循环功能障碍,非梗死区CFR值能预测AMI后远期左室功能。     

Ⅱ型糖尿病大鼠心梗后非梗死区心室重构的研究

目的:对比观察糖尿病(DM)大鼠心肌梗死(MI)后非梗死区域心肌肥大、增殖分化和细胞凋亡的改变,探讨DM对MI后心室重构的影响。方法:将实验大鼠分为正常对照组、糖尿病对照组、MI对照组及糖尿病MI组,从各组大鼠的左心室梗死周边取材,采用免疫组化染色法检测转化生长因子-β1(TGF-β1)、增殖细胞核抗原(PCNA),用末端脱氧核苷酸转移酶介导的dUTP末端缺口标记法(TUNEL)检测凋亡细胞,并进行对比分析。结果:DM大鼠MI后非梗死区域存在着明显的心肌肥大、增殖分化和细胞凋亡。试验表明,糖尿病MI组大鼠梗死区周边凋亡细胞及PCNA、TGF-β1的阳性率均明显高于DM对照组及MI对照组(P0.01)。DM对照组大鼠梗死区周边凋亡细胞的比例明显高于MI对照组(P0.01)。结论:DM可增强TGF-β1和PCNA的表达及增加细胞凋亡,三者可能为DM大鼠MI后高心律失常及高死亡率的病理生理基础。     

A novel activation process of protein kinase C in the remote, non-ischemic area of an infarcted heart is mediated by angiotensin-AT1 receptors

BACKGROUND: Translocation and activation of protein kinase C (PKC) has been shown to occur in the ischemic heart. It is, however, controversial if this activation process occurs also in the non-ischemic, remote area of an infarcted heart early after infarction. Furthermore, the mechanisms contributing to the translocation process induced by acute myocardial ischemia in both areas are not fully elucidated. METHODS: Regional myocardial infarction was induced by left anterior descending coronary artery (LAD-) ligation in situ for 2.5 min in rats or in pigs. To evaluate the influence of angiotensin and bradykinin signaling, ramiprilat, candesartan, or the bradykinin-receptor antagonist HOE 140 was given. In biopsies from the ischemic and the non-ischemic remote area, PKC activity and intracellular isozyme distribution were determined. RESULTS: Translocation and activation of PKC could be demonstrated for the first time in the myocardium remote from the infarcted area. This activation was conserved both in pigs and in rats. All major cardiac isozymes of PKC were involved. Whereas bradykinin-receptor blockade had no effect, both angiotensin-converting enzyme inhibition (ACEI) and angiotensin receptor could effectively block this activation process of PKC. CONCLUSION: In the area remote from a myocardial infarction, the activation of PKC could be detected for the first time as early as 2.5 min after LAD ligation. This newly characterized activation in the non-infarcted area can be prevented by ACEI via an angiotensin-AT1-receptor-dependent mechanism. It is supposed that this newly characterized activation process of PKC plays an important role in the signal transduction in the remote myocardium in acute myocardial infarction as a trigger for the late development of hypertrophy and heart failure.     

Differences in time course of myocardial mRNA expression in non-infarcted myocardium after myocardial infarction

In non-infarcted myocardium after myocardial infarction, the change of cardiac phenotypic modulation of contractile protein, extracellular matrix and intracellular Ca²⁺ transport protein, such as sarcoplasmic reticulum Ca²⁺(SR-Ca²⁺)-ATPase, Na⁺-Ca²⁺ exchanger, have a important role during cardiac remodeling. However, the time course in this gene expression in the adjacent and remote left ventricular, or right ventricular myocardium after myocardial infarction has not been well examined. The purpose of this study was to examine the left ventricular function and regional cardiac gene expression after myocardial infarction. Myocardial infarction was produced in Wistar rats by the ligation of the left anterior descending coronary artery. After 3 weeks, 2 months and 4 months from myocardial infarction, we performed Doppler echocardiography and measured the systolic and diastolic function. Then, we analyzed the contractile protein, extracellular matrix and intracellular Ca ²⁺ transport protein mRNAs of cardiac tissues in the adjacent and the remote noninfarcted myocardium, and right ventricular myocardium by Northern blot hybridization. Fractional shortening of infarcted heart progressively decreased. Peak early diastolic filling wave (E wave) velocity increased, and the deceleration rate of the E wave velocity was more rapid in myocardial infarction areas. Atrial filling wave (A wave) velocity decreased, resulting in a marked increase in the ration of E wave to A wave velocity. Expression of myocardial α-skeletal actin, β-MHC and ANP mRNA, or collagen I and III mRNA were higher at 3 weeks after myocardial infarction. SR Ca²⁺-ATPase mRNA in the adjacent non-infarcted myocardium was decreased at 2 months, and that in remote myocardium was decreased at 4 months after infarction. Na⁺-Ca²⁺ exchanger mRNA levels were increased at 3 weeks, but was decreased at 2 months in the adjacent non-infarcted myocardium and at 4 months in the remote myocardium. These findings suggest that the compensation for myocardial infarction by myocardial gene expression in non-infarcted myocardium may occur at an early phase after myocardial infarction, and myocardial dysfunction may begin from adjacent to remote non-infarcted myocardium during progressive cardiac remodeling. Received: 9 August 1999, Returned for revision: 16 September 1999, Revision received: 5 January 2000, Accepted: 26 January 2000     

Creatine kinase MM isoenzyme subforms in myocardium, cardiac lymph and blood after coronary artery occlusion in dogs

A time-varying pattern of creatine kinase MM (CK-MM) isoenzyme subforms has been found in the blood of patients after acute myocardial infarction, but the site of enzyme modification has not been identified. Therefore, we studied the CK-MM subform patterns in myocardium, cardiac lymph and blood of dogs after coronary artery occlusion. In five conscious dogs, serial blood samples were taken for 72 h after occlusion of the left anterior descending coronary artery. Samples of non-infarcted and infarcted myocardium were taken after 72 h. In five other anaesthetised, open-chest dogs, cardiac lymph and blood samples were taken for 6 h after coronary artery occlusion. CK-MM subforms were quantitated by an isoelectric focusing method. Before coronary occlusion, 64% of the total CK activity in blood appeared as the anodal subform CK-MM 1 (pI 6.3); 20% and 9% as the cathodal subforms CK-MM 2 (pI 6.6) and CK-MM 3 (pI 6.9), respectively. However, after 2 h of coronary occlusion CK-MM 2 and CK-MM 3 were increased (38% and 17% of total activity respectively) compared with CK-MM 1. Between 4 h and 10 h, CK-MM 2 and CK-MM 3 decreased as CK-MM 1 increased restoring the control relative activities of subforms. In contrast to the subform changes in blood, CK-MM 3 was the predominant subform in both non-infarcted and infarcted myocardium after 72 h of coronary occlusion and in cardiac lymph during 6 h of coronary occlusion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sequential changes of hepatocyte growth factor in the serum and enhanced c-Met expression in the myocardium in acute myocardial infarction

A 68-year-old male with acute myocardial infarction (AMI) was admitted to the hospital with chest pain that had started 1 day earlier. The serum levels (ng/ml) of hepatocyte growth factor (HGF) were 1.06, 1.22, 1.05, 0.72 and 0.64 on days 2, 3, 4, 5 and 6 postinfarction, respectively. He died suddenly due to cardiopulmonary arrest on day 6. At autopsy, approximately 400 ml of bloody pericardial fluid, caused by rupture of the left ventricle, was detected and the c-Met expression in the myocardium was immunohistochemically found to be most intense in the border zone of the infarcted and non-infarcted region. Although there was no c-Met expression in the infarcted myocardium, it was increased in the myocardial cells surrounding the blood vessels. This is the first report to show sequential changes of HGF in the serum, as well as c-Met expression in the myocardium, in a patient with AMI.     

Reduced early diastolic extension in the infarcted portion in patients with old myocardial infarction

To study relaxation characteristics of the infarcted myocardium, cyclic changes in the global left ventricular (LV) volume were measured in 20 patients with old myocardial infarction (OMI) and 17 normals (Normal) and those in the regional segment length were measured in 9 patients with anterior old myocardial infarction (anterior OMI) and 11 normals. The LV volume was calculated by using biplane LV cineangiograms. The regional segment length was calculated by measuring the spatial length between the 2 points of the ramifying branches on the left coronary arteries by using biplane coronary cineangiograms. The LV filling volume before atrial contraction (VR) was significantly less in the OMI compared with that in the normals (Normal 38 +/- 6 (mean +/- SD) ml/m2 vs 30 +/- 7 ml/m2: p less than 0.01), while filling volume by atrial contraction (Va) did not significantly differ (Normal 15 +/- 4 ml/m2 vs OMI 17 +/- 5 ml/m2). The lengthening of the segmental wall during diastole before atrial contraction (%LR) in the infarcted portion was 5.0 +/- 2.9% which was also significantly less than that in the non-infarcted portion (9.6 +/- 4.2%). The extent of lengthening by atrial contraction (%La) did not differ between the 2 portions (non-infarcted portion 3.8 +/- 1.1% vs infarcted portion 3.5 +/- 1.2%). Reduction of %LR was speculated to be caused by the incomplete relaxation in the myocardium adjacent to the infarcted portion and stiff myocardium in the infarcted portion. This study suggests that the infarcted myocardium may lead to a reduction of diastolic expansion before atrial contraction.     

Regional cardiac dysfunction is associated with specific alterations in inflammatory cytokines and matrix metalloproteinases after acute myocardial infarction in sheep

Cardiac remodeling following myocardial infarction (MI) is a maladaptive process, fundamental to the progression of ischemic heart failure. The extent of remodeling is influenced by mechanical stress, inflammatory response and activation of matrix metalloproteinases (MMPs). This study examined regional association between these parameters in response to acute MI. Coronary ligation was performed in ten sheep. Sonomicrometer transducers measured segmental length in the infarcted, border and non-infarcted region. Regional tissue samples obtained 3 h post MI from six sheep were analysed using RT-PCR, gelatin zymography and Western blot. Six sham-operated sheep served as controls. Region-specific dilation and reduced contraction was associated with corresponding alterations in matrix molecules.IL-6 and MMP-9 mRNA were increased in the infarcted and border regions compared to controls.MMP-2 and TIMP-1 mRNA increased in non–infarcted myocardium and both correlated positively with segmental shortening. IL-6 mRNA levels, in contrast, were negatively associated with segmental shortening. In summary, inflammatory cytokines and MMPs are altered early after MI in a region-specific manner, and these changes correspond to acute regional myocardial dysfunction. Therapies for LV remodeling from the time of reperfusion may benefit from further understanding this portfolio of acute alterations.     

Correlation of acute myocardial infarct scintigraphy with postmortem studies.

Acute myocardial infarct scintigraphy with technetium-99m-pyrophosphate was performed in a patient with an acute massive transmural infarct. The patient died 12 hours later, and postmortem tracer studies demonstrated a tracer concentration ratio of 13:1 between acutely infarcted myocardium and normal myocardium remote from the infarct. The concentration of tracer in tissue bordering on the infarct but without histologic evidence of acute infarction was 1.5 times that in normal tissue remote from the infarct. In vitro scintigraphy of the excised heart revealed a pattern of tracer distribution similar to that of scintiscans obtained before death. The biologic distribution of 99mTc-pyrophosphate, with large tracer concentrations only within the acutely infarcted tissue, suggests that acute myocardial infarct scintigraphy can be used to estimate the extent of an acute myocardial infarct.     

Histopathological study on myocardial hypertrophy associated with ischemic heart disease

The mode and causes of myocardial hypertrophy occurring in association with ischemic heart disease were studied. The investigation involved autopsied hearts (15 cases of subendocardial infarction, 27 of transmural infarction, 20 of non-infarcted three vessel disease and 17 controls) and biopsied materials obtained during coronary-aorta bypass graft surgery (23 patients with angina pectoris and 46 with myocardial infarction). The subendocardial infarction group showed most marked myocardial hypertrophy that reflected extensive infarction and fibrosis, dilatation of the left ventricular cavity and the loss of myocytes. Despite a marked decrease in the number of myocyte layers, the residual myocardium of the left ventricle was uniformly hypertrophic, accompanied by an increase in the heart weight. The larger the area of fibrosis, the more marked was myocardial hypertrophy irrespective of the luminal diameter of the responsible coronary artery. These findings indicate that myocardial hypertrophy associated with ischemic heart disease is enhanced by the compensatory mechanisms for a decrease in the contractile myocardium due to fibrosis.     

Inflammatory response, neutrophil activation, and free radical production after acute myocardial infarction: effect of thrombolytic treatment

Activated neutrophils releasing proteolytic enzymes and oxygen free radicals have been implicated in extending myocardial injury after myocardial infarction. Neutrophil elastase was used as a marker of neutrophil activation and the non-peroxide diene conjugate of linoleic acid was used as an indicator of free radical activity in 32 patients after acute myocardial infarction; 17 were treated by intravenous thrombolysis. Patients with acute myocardial infarction had higher plasma concentrations of neutrophil elastase and the non-peroxide diene conjugated isomer of linoleic acid than normal volunteers or patients with stable ischaemic heart disease. Patients treated by thrombolysis had an early peak of neutrophil elastase at eight hours while those who had not been treated by thrombolysis showed a later peak 40 hours after infarction. The plasma concentration of non-peroxide conjugated diene of linoleic acid was highest 16 hours after the infarction irrespective of treatment by thrombolysis. Quantitative imaging with single photon emission tomography showed decreased uptake of indium-111 labelled neutrophils in the infarcted myocardium (as judged from technetium-99m pyrophosphate) in those who had received thrombolysis, suggesting a decreased inflammatory response. The results indicate increased neutrophil activation and free radical production after myocardial infarction; they also suggest that thrombolysis does not amplify the inflammatory response and may indeed suppress it.     

Inflammatory response, neutrophil activation, and free radical production after acute myocardial infarction: effect of thrombolytic treatment.

Activated neutrophils releasing proteolytic enzymes and oxygen free radicals have been implicated in extending myocardial injury after myocardial infarction. Neutrophil elastase was used as a marker of neutrophil activation and the non-peroxide diene conjugate of linoleic acid was used as an indicator of free radical activity in 32 patients after acute myocardial infarction; 17 were treated by intravenous thrombolysis. Patients with acute myocardial infarction had higher plasma concentrations of neutrophil elastase and the non-peroxide diene conjugated isomer of linoleic acid than normal volunteers or patients with stable ischaemic heart disease. Patients treated by thrombolysis had an early peak of neutrophil elastase at eight hours while those who had not been treated by thrombolysis showed a later peak 40 hours after infarction. The plasma concentration of non-peroxide conjugated diene of linoleic acid was highest 16 hours after the infarction irrespective of treatment by thrombolysis. Quantitative imaging with single photon emission tomography showed decreased uptake of indium-111 labelled neutrophils in the infarcted myocardium (as judged from technetium-99m pyrophosphate) in those who had received thrombolysis, suggesting a decreased inflammatory response. The results indicate increased neutrophil activation and free radical production after myocardial infarction; they also suggest that thrombolysis does not amplify the inflammatory response and may indeed suppress it.