Lack of effect of prolonged treatment with liraglutide on cardiac remodeling in rats after acute myocardial infarction.

Following the acute phase of a myocardial infarction, a set of structural and functional changes evolves in the myocardium, collectively referred to as cardiac remodeling. This complex set of processes, including interstitial fibrosis, inflammation, myocyte hypertrophy and apoptosis may progress to heart failure. Analogs of the incretin hormone glucagon-like peptide 1 (GLP-1) have shown some promise as cardioprotective agents. We hypothesized that a long-acting GLP-1 analog liraglutide would ameliorate cardiac remodeling over the course of 4 weeks in a rat model of non-reperfused myocardial infarction. In 134 male Sprague Dawley rats myocardial infarctions were induced by ligation of the left anterior descending coronary artery. Rats were randomized to either subcutaneous injection of placebo or 0.3mg liraglutide once daily. Cardiac magnetic resonance imaging was performed after 4 weeks. Histology of the infarcted and remote non-infarcted myocardium, selected molecular remodeling markers and mitochondrial respiration in fibers of remote non-infarcted myocardium were analyzed. Left ventricular end diastolic volume increased in the infarcted hearts by 62% (from 0.58±0.03mL to 0.95±0.07mL, P<0.05) compared to sham operated hearts and left ventricle ejection fraction decreased by 37% (63±1%-40±3%, P<0.05). Increased interstitial fibrosis and phosphorylation of p38 Mitogen Activated Protein Kinase were observed in the non-infarct regions. Mitochondrial fatty acid oxidation was impaired. Liraglutide did not affect any of these alterations. Four-week treatment with liraglutide did not affect cardiac remodeling following a non-reperfused myocardial infarction, as assessed by cardiac magnetic resonance imaging, histological and molecular analysis and measurements of mitochondrial respiration.

Effect of Ischemic Postconditioning During Primary Percutaneous Coronary Intervention for Patients With ST-Segment Elevation Myocardial Infarction: A Randomized Clinical Trial.

Importance: Ischemic postconditioning of the heart during primary percutaneous coronary intervention (PCI) induced by repetitive interruptions of blood flow to the ischemic myocardial region immediately after reopening of the infarct-related artery may limit myocardial damage. Objective: To determine whether ischemic postconditioning can improve the clinical outcomes in patients with ST-segment elevation myocardial infarction (STEMI). Design, Setting, And Participants: In this multicenter, randomized clinical trial, patients with onset of symptoms within 12 hours, STEMI, and thrombolysis in myocardial infarction (TIMI) grade 0-1 flow in the infarct-related artery at arrival were randomized to conventional PCI or postconditioning. Inclusion began on March 21, 2011, through February 2, 2014, and follow-up was completed on February 2, 2016. Analysis was based on intention to treat. Interventions: Patients were randomly allocated 1:1 to conventional primary PCI, including stent implantation, or postconditioning performed as 4 repeated 30-second balloon occlusions followed by 30 seconds of reperfusion immediately after opening of the infarct-related artery and before stent implantation. Main Outcome and Measures: A combination of all-cause death and hospitalization for heart failure. Results: During the inclusion period, 1234 patients (975 men [79.0%] and 259 women [21.0%]; mean [SD] age, 62 [11] years) underwent randomization in the trial. Median follow-up was 38 months (interquartile range, 24-58 months). The primary outcome occurred in 69 patients (11.2%) who underwent conventional primary PCI and in 65 (10.5%) who underwent postconditioning (hazard ratio, 0.93; 95% CI, 0.66-1.30; P = .66). The hazard ratios were 0.75 (95% CI, 0.49-1.14; P = .18) for all-cause death and 0.99 (95% CI, 0.60-1.64; P = .96) for heart failure. Conclusions and Relevance: Routine ischemic postconditioning during primary PCI failed to reduce the composite outcome of death from any cause and hospitalization for heart failure in patients with STEMI and TIMI grade 0-1 flow at arrival. Trial Registration: clinicaltrials.gov Identifier: NCT01435408.

A post hoc analysis of long-term prognosis after exenatide treatment in patients with ST-segment elevation myocardial infarction.

AIMS: We aimed to assess the effect of exenatide treatment as an adjunct to primary percutaneous coronary intervention (PCI) on long-term clinical outcome. METHODS AND RESULTS: We performed a post hoc analysis in 334 patients with a first STEMI included in a previous study randomised to exenatide (n=175) or placebo (n=159) as an adjunct to primary PCI. The primary endpoint was a composite of all-cause mortality and admission for heart failure during a median follow-up of 5.2 years (interquartile range: 5.0-5.5). Secondary endpoints were all-cause mortality and admission for heart failure, individually. The primary composite endpoint occurred in 24% in the exenatide group versus 27% in the placebo group, p=0.44 (HR 0.80, p=0.35). Admission for heart failure was lower in the exenatide (11%) compared to the placebo group (20%) (HR 0.53, p=0.042). All-cause mortality occurred in 14% in the exenatide group versus 9% in the placebo group (HR 1.45, p=0.20). CONCLUSIONS: In this post hoc analysis of patients with a STEMI, treatment with exenatide at the time of primary PCI did not reduce the primary composite endpoint or the secondary endpoint of all-cause -mortality. However, exenatide treatment reduced the incidence of admission for heart failure.

Increased myocardial vulnerability to ischemia-reperfusion injury in the presence of left ventricular hypertrophy.

OBJECTIVE: Despite its high prevalence among patients suffering myocardial infarction, the significance of left ventricle hypertrophy for infarct size is not known. We asked whether infarct size might be increased by this condition, and whether any such increase might be associated with an increased mitochondrial damage following coronary occlusion. METHODS: Occlusion of the left descending artery in isolated, perfused hearts of SHR-SP (spontaneously hypertensive rat stroke-prone) (left ventricular hypertrophy) or Wistar-Kyoto (WKY) (control) rats was used, followed by reperfusion with or without exendin-4 (Exe-4), a glucagon-like peptide-1 receptor agonist. Infarct size relative to area-at-risk was determined. Separately, mitochondria were isolated after global ischemia. Activities of complexes III and IV and amounts of selected complex subunits and cytochromes a, b, c, and c1 were determined. RESULTS: Infarct size (ischemia 35  min and 120  min reperfusion) was 65.8% (±3.3%) and 37.1% (±3.4%) in the SHR-SP and WKY hearts, respectively (P < 0.05). Exe-4 significantly decreased infarct size and hypercontracture in WKY, but not in SHR-SP, hearts. After ischemia 15  min in SHR-SP hearts, Exe-4 reduced the infarct (26.6%, ±3.8% to 9.3% ± 1.5%; P < 0.05). Mitochondria from postischemic SHR-SP hearts showed a reduction of complex III (368.1 ± 37.5 to 175.8 ± 23.0  nmoles/min × mg; P < 0.05) and complex IV (14.4 ± 0.22 to 5.8 ± 0.8 1/s × mg; P < 0.05) activities and decreased amounts of cytochromes a, b, and c. CONCLUSION: Hearts from hypertensive (SHR-SP) rats with left ventricle hypertrophy appeared more vulnerable to ischemia-reperfusion injury, as supported by a more profound infarct development and an earlier loss of postconditioning by Exe-4. Mitochondrial complexes III and IV were identified among possible loci of this increased, hypertrophy-associated vulnerability.

Predictors and prognostic value of left atrial remodelling after acute myocardial infarction.

PURPOSE: Left atrial (LA) volume is a strong prognostic predictor in patients following ST-segment elevation myocardial infarction (STEMI). However, the change in LA volume over time (LA remodelling) following STEMI has been scarcely studied. We sought to identify predictors for LA remodelling and to evaluate the prognostic importance of LA remodelling. METHODS: This is a subgroup analysis from a randomised clinical trial that evaluated the cardioprotective effect of exenatide treatment. A total of 160 patients with STEMI underwent a cardiovascular MR (CMR) 2 days after primary angioplasty and a second scan 3 months later. LA remodelling was defined as changes in LA volume or function from baseline to 3 months follow-up. Major adverse cardiac events were registered after a median of 5.2 years. RESULTS: Adverse LA minimum volume (LAmin) remodelling was correlated to the presence of hypertension, larger infarct size by CMR, higher peak troponin T, larger area at risk and adverse left ventricular (LV) remodelling. LA maximum volume (LAmax) remodelling was correlated to larger infarct size by CMR, higher peak troponin T, larger area at risk, larger LV mass, impaired LV function and adverse LV remodelling. Kaplan-Meier and Log Rank analyses showed that patients in the highest tertiles of LAmin or LAmax remodelling are at higher risk (0.030 and p=0.018). CONCLUSIONS: After a myocardial infarction, LA remodelling reflects a parallel ventricular-atrial remodelling. Infarct size is a major determinant of LA remodelling following STEMI and adverse LA remodelling is associated with an unfavourable prognosis.

Impact of acute hyperglycemia on myocardial infarct size, area at risk, and salvage in patients with STEMI and the association with exenatide treatment: results from a randomized study.

Hyperglycemia upon hospital admission in patients with ST-segment elevation myocardial infarction (STEMI) occurs frequently and is associated with adverse outcomes. It is, however, unsettled as to whether an elevated blood glucose level is the cause or consequence of increased myocardial damage. In addition, whether the cardioprotective effect of exenatide, a glucose-lowering drug, is dependent on hyperglycemia remains unknown. The objectives of this substudy were to evaluate the association between hyperglycemia and infarct size, myocardial salvage, and area at risk, and to assess the interaction between exenatide and hyperglycemia. A total of 210 STEMI patients were randomized to receive intravenous exenatide or placebo before percutaneous coronary intervention. Hyperglycemia was associated with larger area at risk and infarct size compared with patients with normoglycemia, but the salvage index and infarct size adjusting for area at risk did not differ between the groups. Treatment with exenatide resulted in increased salvage index both among patients with normoglycemia and hyperglycemia. Thus, we conclude that the association between hyperglycemia upon hospital admission and infarct size in STEMI patients is a consequence of a larger myocardial area at risk but not of a reduction in myocardial salvage. Also, cardioprotection by exenatide treatment is independent of glucose levels at hospital admission. Thus, hyperglycemia does not influence the effect of the reperfusion treatment but rather represents a surrogate marker for the severity of risk and injury to the myocardium.

In situ Raman study of redox state changes of mitochondrial cytochromes in a perfused rat heart.

We developed a Raman spectroscopy-based approach for simultaneous study of redox changes in c-and b-type cytochromes and for a semiquantitative estimation of the amount of oxygenated myoglobin in a perfused rat heart. Excitation at 532 nm was used to obtain Raman scattering of the myocardial surface of the isolated heart at normal and hypoxic conditions. Raman spectra of the heart under normal pO2 demonstrate unique peaks attributable to reduced c-and b-type cytochromes and oxymyoglobin (oMb). The cytochrome peaks decreased in intensity upon FCCP treatment, as predicted from uncoupling mitochondrial respiration. Conversely, transient hypoxia causes the reversible increase in the intensity of peaks assigned to cytochromes c and c1, reflecting electron stacking proximal to cytochrome oxidase due to the lack of terminal electron acceptor O2. Intensities of peaks assigned to oxy- and deoxyhemoglobin were used for the semiquantitative estimation of oMb deoxygenation that was found to be of approximately 50[Formula: see text] under hypoxia conditions.

Mapping of redox state of mitochondrial cytochromes in live cardiomyocytes using Raman microspectroscopy.

This paper presents a nonivasive approach to study redox state of reduced cytochromes c, c1 and b of complexes II and III in mitochondria of live cardiomyocytes by means of Raman microspectroscopy. For the first time with the proposed approach we perform studies of rod- and round-shaped cardiomyocytes, representing different morphological and functional states. Raman mapping and cluster analysis reveal that these cardiomyocytes differ in the amounts of reduced cytochromes c, c1 and b. The rod-shaped cardiomyocytes possess uneven distribution of reduced cytochromes c, c1 and b in cell center and periphery. Moreover, by means of Raman spectroscopy we demonstrated the decrease in the relative amounts of reduced cytochromes c, c1 and b in the rod-shaped cardiomyocytes caused by H2O2-induced oxidative stress before any visible changes. Results of Raman mapping and time-dependent study of reduced cytochromes of complexes II and III and cytochrome c in cardiomyocytes are in a good agreement with our fluorescence indicator studies and other published data.

ST peak during primary percutaneous coronary intervention predicts final infarct size, left ventricular function, and clinical outcome.

BACKGROUND AND PURPOSE: One third of patients treated with primary percutaneous coronary intervention (PCI) for ST-elevation myocardial infarction develop a secondary increase in electrocardiographic ST segment (ST peak) during reperfusion. The purpose was to determine the clinical importance of ST peak during primary PCI. METHODS: A total of 363 patients with ST-elevation myocardial infarction were stratified to no ST peak or ST peak. Final infarct size and ejection fraction (EF) were assessed by cardiovascular magnetic resonance. RESULTS: Patients with ST peak had a larger infarct size (14% vs 10%; P = .003) and lower EF (53% vs 57%; P = .022). Rates of cardiac mortality (8% vs 3%; P = .047) and cardiac events (cardiac mortality and admission for heart failure; 19% vs 10%; P = .018) were higher among patients with ST peak, but not all-cause mortality (8% vs 5%; P = .46). In a multivariable Cox regression analysis, ST peak remained significantly associated with cardiac events (adjusted hazard ratio, 2.03 [1.08-3.82]). CONCLUSION: ST peak during primary PCI is related to larger final infarct size, a reduced EF, and adverse cardiac clinical outcome.

Postconditioning with curaglutide, a novel GLP-1 analog, protects against heart ischemia-reperfusion injury in an isolated rat heart.

AIM: GLP-1(7-36)amide (GLP-1) is an intestinal hormone with effects on glucose metabolism and feeding behavior, including insulinotropic, insulinomimetic, glucagonostatic and anorectic actions. In experimental settings, GLP-1 has also been shown to diminish infarct size following heart ischemia-reperfusion. GLP-1 analogs with extended half-lives are continuously being developed against type 2 diabetes mellitus. Of these, only exendin-4 (exenatide, registered as Byetta) has been shown to mimic the infarct size-limiting effect of GLP-1 in a clinically relevant application as a postconditioning agent. The aim of this work was to test, in a postconditioning mode, a novel, proteolysis-resistant GLP-1 analog N-Ac-GLP-1(7-34)amide, herein termed curaglutide, for its cardioprotective ability. METHOD: Global ischemia (35 min)-reperfusion (120 min) was applied in isolated, retrogradely perfused rat hearts. Peptides were present for 15 min at the onset of reperfusion. Cardiac function parameters (beats per minute, left ventricle developed and diastolic pressures, rate-pressure product) were measured. Infarct size was determined by 2,3,5-tripehyltetrazolium chloride staining and planimetry. RESULTS: Curaglutide did not affect any of the functional heart parameters when administered without preceding ischemia. Curaglutide 0.3 nM diminished significantly the postischemic hypercontracture, with no significant effect on the left ventricle developed pressure or rate-pressure product. Infarct size was reduced by curaglutide postconditioning from 24.8% (SEM 2.8, N=14) to 11.4% (SEM 3.2, N=8; P<0.05). These effects of curaglutide on postischemic hypercontracture and infarct size were similar in magnitude to corresponding effects of GLP-1 receptor agonist exendin-4. The cardioprotective effects of both agents were abolished in the presence of a GLP-1 receptor antagonist exendin(9-39). CONCLUSION: Curaglutide is a new, proteolysis-resistant GLP-1 analog with a beneficial effect on reperfusion-injury in an isolated rat heart. Curaglutide was here shown to act through GLP-1 receptors. Based on the present results, more extensive experimental studies in vivo, comparing dose-response characteristics and efficacy of curaglutide and exendin-4 appear warranted.

Exenatide reduces final infarct size in patients with ST-segment-elevation myocardial infarction and short-duration of ischemia.

BACKGROUND: Exenatide has been demonstrated to be cardioprotective as an adjunct to primary percutaneous coronary intervention in patients with ST-segment-elevation myocardial infarction (STEMI). The aim of the post hoc analysis study was to evaluate the effect of exenatide in relation to system delay, defined as time from first medical contact to first balloon. METHODS AND RESULTS: Patients with STEMI and Thrombolysis In Myocardial Infarction flow 0/1 were randomly assigned to intravenous exenatide or placebo continuous infusion. Study treatment was commenced 15 minutes before intervention and maintained for 6 hours after the procedure. The patients were stratified according to median system delay (132 minutes). Final infarct size and myocardial area at risk were measured by cardiovascular magnetic resonance. Among patients with a system delay ≤132 minutes (n=74), treatment with exenatide resulted in a smaller infarct size (9 grams [interquartile range (IQR), 4-13] versus 13 grams [IQR, 8-24], P=0.008, corresponding to 8% [IQR, 4-12] versus 11% [IQR, 7-17] of the left ventricle, P=0.015). In a regression analysis adjusting for myocardial area at risk the data points of the exenatide group lay significantly lower than for the placebo group (P=0.006). In the patients with system delay >132 minutes (n=74) no difference was observed in infarct size expressed as grams (P=0.49) or percentage (P=0.46). There was significant interaction between system delay (less than or equal to median versus greater than median) and treatment allocation in terms of infarct size (P=0.018). CONCLUSIONS: In this post hoc analysis, exenatide treatment was associated with a 30% decrease in final infarct size in patients with short system delay, whereas no cardioprotective effect in patients with long system delay was seen. However, this finding must be confirmed in larger studies. CLINICAL TRIAL REGISTRATION: URL: http://www.clinicaltrials.gov. Unique identifier: NCT00835848.

Exenatide reduces reperfusion injury in patients with ST-segment elevation myocardial infarction.

AIMS: Exenatide, a glucagon-like-peptide-1 analogue, increases myocardial salvage in experimental settings with coronary occlusion and subsequent reperfusion. We evaluated the cardioprotective effect of exenatide at the time of reperfusion in patients with ST-segment elevation myocardial infarction (STEMI) treated with primary percutaneous coronary intervention (pPCI). METHODS AND RESULTS: A total of 172 patients with STEMI and Thrombolysis in Myocardial Infarction flow 0/1 were randomly assigned to exenatide or placebo (saline) intravenously. Study treatment was commenced 15 min before intervention and maintained for 6 h after the procedure. The primary endpoint was salvage index calculated from myocardial area at risk (AAR), measured in the acute phase, and final infarct size measured 90 ± 21 days after pPCI by cardiac magnetic resonance (CMR). In 105 patients evaluated with CMR, a significantly larger salvage index was found in the exenatide group than in the placebo group (0.71 ± 0.13 vs. 0.62 ± 0.16; P= 0.003). Infarct size in relation to AAR was also smaller in the exenatide group (0.30 ± 0.15 vs. 0.39 ± 0.15; P= 0.003). In a regression analysis, there was a significant correlation between the infarct size and the AAR for both treatment groups and an analysis of covariance showed that datapoints in the exenatide group lay significantly lower than for the placebo group (P= 0.011). There was a trend towards smaller absolute infarct size in the exenatide group (13 ± 9 vs. 17 ± 14 g; P= 0.11). No difference was observed in left ventricular function or 30-day clinical events. No adverse effects of exenatide were observed. CONCLUSION: In patients with STEMI undergoing pPCI, administration of exenatide at the time of reperfusion increases myocardial salvage.

ST-Segment resolution and clinical outcome with ischemic postconditioning and comparison to magnetic resonance.

BACKGROUND: Ischemic postconditioning (IPost) during primary percutaneous coronary intervention (PPCI) is suggested to reduce myocardial damage. However, the association with ST-segment resolution (STR) and clinical outcome is not determined. The primary aim of this study was to evaluate the association of IPost with STR and clinical outcome. Secondly, we sought to determine the relationship between STR and cardiac magnetic resonance (CMR) parameters in these patients. METHODS: One hundred eighteen patients referred for PPCI were randomly assigned to either conventional PPCI or PPCI with IPost. In a single electrocardiographic lead, STR was determined. Treatment modalities were compared as regards STR, ST-segment elevation, and the number of patients achieving complete-STR (≥70%), incomplete-STR (30%-70%), and no-STR (<30%). Patients were evaluated for clinical outcome after 15 months. Furthermore, patients with and without complete-STR were compared as regards CMR parameters. RESULTS: There was a tendency toward a better outcome with IPost for the number of patients achieving complete-STR (55% vs 63%; P=.09), ST-segment elevation (1.41 vs 1.12 mm; P=.07), and New York Heart Association class (P=.06). No difference in other cardiac events was observed. Furthermore, data determine that patients with complete-STR have smaller infarct size (12.9% vs 21.1%; P<.01) and a better ejection fraction (55.7% vs 47.7%; P<.01). CONCLUSIONS: Patients treated with IPost are suggested to have improved STR and New York Heart Association classification. Infarct size and the functional CMR parameters were better in the patients with complete-STR; as to this, single-lead STR remains an important predictor for successful treatment in patients treated with IPost.

[Glucagon-like peptide-1: a cardiological perspective]. / Kardiologiske aspekter af glukagonlignende peptid 1.

Increasing experimental evidence points to direct effects of glucagon-like peptide-1 (GLP-1) and its analogs on the heart and circulatory system, in addition to the well-established, antidiabetic actions of these agents on glucose and on the energy metabolism. These effects are primarily vasodilation, diminished heart muscle loss after myocardial infarction and a contractility increase of a weak left ventricle. A few, small patient trials appear to support the latter effect. Experimental results suggest the myocardium-saving effect following coronary occlusion and reperfusion as particularly suitable for clinical testing.

Glucagon-like peptide 1--a cardiologic dimension.

Recent experimental data suggest glucagon-like peptide 1 (GLP-1) and its analogs to have direct effects on the cardiovascular system, in addition to their classic glucoregulatory actions. These direct effects may be cardioprotective, contractility augmenting, and vasorelaxant. A few preliminary clinical trials appear to support a mechanical function improvement after GLP-1 administration to patients with a weakened left ventricle. Based on animal studies, diminished lethal injury to the postischemic reperfused myocardium appears to be a particularly promising prospect, awaiting to be tested in clinical settings.

Cardioprotective effects of ischemic postconditioning in patients treated with primary percutaneous coronary intervention, evaluated by magnetic resonance.

BACKGROUND: Postconditioning has been suggested to reduce myocardial damage during primary percutaneous coronary intervention (PPCI) in patients with ST-segment-elevation myocardial infarction. However, because clinical experience is limited, we examined the cardioprotective effects of postconditioning, using cardiac MRI in patients treated with PPCI. METHODS AND RESULTS: One hundred eighteen patients with ST-segment-elevation myocardial infarction referred for PPCI were randomly assigned to have either conventional PPCI or PPCI with postconditioning. Postconditioning was performed immediately after obtained reperfusion with 4 balloon occlusions, each lasting 30 seconds, followed by 30 seconds of reperfusion. The primary end point was myocardial salvage after 3 months as judged by delayed enhancement cardiac MRI. We found a 19% relative reduction of infarct size in the postconditioning group (51+/-16% of total area at risk versus 63+/-17%, P<0.01), corresponding to a 31% increase in salvage ratio. The number of patients developing heart failure was significantly fewer in the postconditioning group (27% versus 46%, P=0.048). No significant evidence of interaction between the impact of postconditioning and the location of the culprit lesion or size of the myocardium at risk was detected (P=0.21 and P=0.71). CONCLUSIONS: Mechanical postconditioning reduces infarct size in patients with ST-segment-elevation myocardial infarction treated with PPCI. The impact of mechanical postconditioning seems to be independent of the size of myocardium at risk. CLINICAL TRIAL REGISTRATION- URL: http://www.clinicaltrials.gov. Unique Identifier: NCT00507156.

The cardioprotective and inotropic components of the postconditioning effects of GLP-1 and GLP-1(9-36)a in an isolated rat heart.

GLP-1 and its metabolite GLP-1(9-36)a have been shown to exert cardiotropic effects, and were demonstrated to be cardioprotective agents in isolated, postischemic rat or mouse hearts. An agent's total effect on myocardial performance in a postconditioning paradigm is a sum of its myocyte-preserving (cardioprotective) and contractility-affecting (negative or positive inotropic) action components. These components may not always be explicitly separated by the experimental protocol. We propose an analytical approach to identify and quantify the cardioprotective and inotropic components in a postconditioning protocol, as exemplified by use of GLP-1 and GLP-1(9-36)a following a global ischemia in isolated rat hearts. Peptides were administered during the first 15min of 120min reperfusion. GLP-1 0.3nM reduced infarct size from 23.2+/-2.4% to 14.1+/-2.3% of area-at-risk (n=15, P=0.0223), an effect abolished by the GLP-1 receptor antagonist, exendin(9-39) 5nM. GLP-1 showed only a small, non-significant tendency to increase mechanical performance (increase of LVDP by 26.7%, P=0.1621; RPP 33.5%, P=0.0858; dP/dt(max) 28.5%, P=0.1609). This could be accounted for by the cardioprotective component of GLP-1 action, rather than any true inotropic effect. In contrast, GLP-1(9-36)a did not reduce infarct size significantly, but acted as a strong negative inotrope in postischemic hearts, causing a contractility deficit (LVDP 58.8%, P=0.0004; RPP 58.2%, P=0.0007; dP/dt(max)=58.2%, P=0.0012), quantifiable by an analysis of infarct size-mechanical performance plots. These results help resolve certain apparent discrepancies between some of the published effects of GLP-1 and GLP-1(9-36)a.

Fluorescence assay for mitochondrial permeability transition in cardiomyocytes cultured in a microtiter plate.

Mitochondrial permeability transition pore (MPTP) is a voltage-dependent, large-conductance channel of the inner mitochondrial membrane with an important role in a range of pathophysiological conditions. To facilitate studies of pharmacological pore modulation, we describe an assay in a model using neonatal cardiomyocytes in a 96-well microtiter plate format. In the presence of mitochondrial membrane potential Delta Psi m, accumulation of rhodamine-123 in mitochondria (40,000 cells/well, 2.6 microM rhodamine-123) caused fluorescence signal quenching. Following substitution of dye-free buffer, dequenching occurred on the distribution of rhodamine-123 into the extracellular volume. The addition of a small buffer volume containing digitonin (final concentration 10 microg/ml) and Ca(2+) (final concentrations up to 100 microM free Ca(2+)) caused dequenching (Delta F) due to Delta Psi m dissipation by MPTP, as evidenced by inhibition in the presence of cyclosporin A (0.2-2 microM) and facilitation by pH 6.2. Delta F due to Delta Psi m-dissipating agent carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) or alamethicin (10 microM) was insensitive to either pH or cyclosporin A. Inhibition of Ca(2+)-induced (but not of FCCP- or alamethicin-induced) Delta F by glycogen synthase kinase 3beta (GSK3 beta) antagonist SB216763 and adenosine, acting at the level of intracellular signaling and plasma membrane receptors, respectively, is shown to illustrate potential applications of this assay. Limitation of the assay to cells with energized mitochondria is stressed.

Protective effects of GLP-1 analogues exendin-4 and GLP-1(9-36) amide against ischemia-reperfusion injury in rat heart.

Glucagon-Like Peptide-1 (GLP-1) is an incretin peptide secreted from intestinal L-cells, whose potent plasma glucose-lowering action has prompted intense efforts to develop GLP-1 receptor-targeting drugs for treatment of diabetic hyperglycemia. More recently, GLP-1 and its analogues have been shown to exert cardiovascular effects in a number of experimental models. Here we tested exendin-4 (Exe-4), a peptide agonist at GLP-1 receptors, and GLP-1(9-36) amide, the primary endogenous metabolite of GLP-1 (both in the concentration range 0.03-3.0 nM), for their protective effects against ischemia-reperfusion injury (IRI) in an isolated rat heart preparation. When administered, the agents were only present for the first 15 min of a 120 min reperfusion period (postconditioning protocol). Exe-4, but not GLP-1(9-36) amide, showed a strong infarct-limiting action (from 33.2% +/-2.7% to 14.5% +/-2.2% of the ischemic area, p<0.05). This infarct size-limiting effect of Exe-4 was abolished by exendin(9-39) (Exe(9-39)), a GLP-1 receptor antagonist. In contrast, both Exe-4 and GLP-1(9-36) amide were able to augment left ventricular performance (left ventricular developed pressure and rate-pressure product) during the last 60 min of reperfusion. These effects were only partially antagonized by Exe(9-39). We suggest that Exe-4, in addition to being currently exploited in treatment of diabetes, may present a suitable candidate for postconditioning trials in clinical settings of IRI. The divergent agonist effects of Exe-4 and GLP-1(9-36), along with correspondingly divergent antagonistic efficacy of Exe(9-39), seem consistent with the presence of more than one type of GLP-1 receptor in this system.

Protection by 6-aminonicotinamide against oxidative stress in cardiac cells.

Oxidative stress at the time of reperfusion is a major aspect of ischemia-reperfusion injury in heart as well as in other organs. There is a continuing interest in development of pharmacological approaches to alleviate this injury. 6-Aminonicotinamide (6AN) has been shown to diminish myocardial necrosis following global ischemia in an isolated rat heart, apparently by limiting the oxidative injury component. We therefore explored the antioxidative potential of 6AN in a model using H9C2(2-1) rat cardiac myoblasts exposed to H2O2 stress. Dependent on the specific protocol, 6AN pretreatment for 6-23 h resulted in a strongly increased cell survival: from 11% to 16% in untreated cells to 56-75% following 6AN treatment. This 6AN-mediated protection was associated with a modest increase (up to 55%) of the cytosolic free Ca2+, and was blocked by ryanodine, but not by verapamil or nifedipine. The protective effect of 6AN was associated with a decrease in total cell content of the reduced glutathione (GSH) by 15-44%, indicative of an oxidative shift in the GSH/GSSG system redox potential. We propose that this redox shift caused an increased Ca2+ leak through ryanodine receptors, reflecting their known sensitivity to redox modulation. In turn, this Ca2+ redistribution appeared to trigger a state of an enhanced antioxidative resistance, somewhat analogous to the phenomenon of Ca2+ preconditioning. Similar to some of the cases of Ca2+ preconditioning, this protected state involved the activity of Ca2+ -independent, but not of Ca2+ -dependent, isoform(s) of protein kinase C.