The effect of glutamate infusion on cardiac performance is independent of changes in metabolism in patients undergoing routine coronary artery bypass surgery

Langenberg, C.J.M.; Pietersen, Henk G.; Geskes, Gijs; Wagenmakers, Anton J. M.; Lange, Simon de; Schouten, Hubert J. A.; Soeters, Peter B.

doi:10.1042/cs1010573

Cited by 14 publications

(9 citation statements)

References 22 publications

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“…The main known physiological function of glutamate in the heart, where it has a high intra-(millimolar range) to extracellular (Ͻ1 M range) concentration ratio, is to regulate energy metabolism by maintaining the levels of Krebs cycle intermediates, an effect independent of glutamate receptor activation. This process, known as anaplerosis, has been proposed to be the basis for the cardioprotective effects of glutamate (Langenberg et al, 2001). On the other hand, glutamate may also have toxic effects at supraphysiological concentrations (Gill et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

Identification of Potential Pharmacological Targets by Analysis of the Comprehensive G Protein-Coupled Receptor Repertoire in the Four Cardiac Chambers

Moore-Morris¹,

Varrault²,

Mangoni³

et al. 2009

Mol Pharmacol

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Cardiac function is regulated by many hormones and neurotransmitters that exert their physiological effects through the activation of G protein-coupled receptors (GPCRs). Identification of new GPCRs that might display a specific pattern of expression within the heart and differentially regulate specific cardiac functions represents an important issue for the development of new drugs. Indeed, highly targeted receptors represent only a small percentage of known GPCRs. Here, we quantified the expression of 395 endoGPCRs (all GPCRs excluding taste and odorant receptors) in male mouse right and left atria and ventricles by using high-throughput real-time reverse-transcriptase polymerase chain reaction (RT-PCR) and focused on the 135 most highly expressed transcripts. No cardiac functional data are available for almost half of these receptors; therefore, linking GPCR expression patterns to cardiac function has allowed us to provide new insights into the possible function of some of these receptors. Indeed, ventricles and atria are both contractile; however, the latter, and especially the right atrium, are central to the generation and regulation of cardiac rhythm. Accordingly, the right atrium exhibited the most specific signature, whereas the majority of GPCRs found in ventricles were evenly expressed in both the right and left chambers. RT-PCR data were confirmed at the protein level for six selected transcripts. Furthermore, we provide new data showing that, as suggested by our repertoire, the metabotropic glutamate receptor 1b is expressed and is functional in ventricular cardiac myocytes. This is the first report describing GPCRs in the four cardiac chambers and may assist in the identification of therapeutic targets.The four cardiac chambers display morphological and functional differences. They can be distinguished on the basis of contractile properties, rhythm generation, and response to neurohumoral stimulation (Brown et al., 1991;Barth et al., 2005;Narolska et al., 2005). Contractile activity of the heart ensures that blood flow is adapted to the needs of the organism. Left ventricular performance depends on the chamber's capacity to fill up (diastolic property) and to empty (systolic property), and these properties are altered in pathological conditions, the final consequence being heart failure. To trigger the contractile activity, cardiac automaticity is generated by a set of specialized pacemaker cells forming the sinoatrial node (SAN) (Mangoni and Nargeot, 2008). Compared with myocytes of the working myocardium, pacemaker SAN cells are devoted to the generation of an electrical oscillation rather than having a contractile activity. At the molecular level, heart chamber heterogeneity is reflected by the expression patterns of different sets of genes such as transcription factors (Tabibiazar et al., 2003) and ion channels (Marionneau et al., 2005). The heart expresses GPCRs (Regard et al.,

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Section: Discussionmentioning

confidence: 99%

Identification of Potential Pharmacological Targets by Analysis of the Comprehensive G Protein-Coupled Receptor Repertoire in the Four Cardiac Chambers

Moore-Morris¹,

Varrault²,

Mangoni³

et al. 2009

Mol Pharmacol

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“…Glutamate's effect is dependent on whether there is a metabolic derangement which glutamate can facilitate the recovery of 92,100,120 . As might be expected such an effect could not be detected in low-risk patients with no or minimal metabolic derangement 121 . In the GLUTAMICS-trial, a high proportion of low-risk patients were included 102 .…”

Section: Postoperative Nt-probnp and Postoperative Heart Failurementioning

confidence: 64%

NT-proBNP as a marker of postoperative heart failure in adult cardiac surgery

Jiang

2019

Linköping University Medical Dissertations

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Postoperative heart failure (PHF) remains the major cause of mortality after cardiac surgery. Unfortunately, generally accepted diagnostic criteria for PHF are lacking. This may explain why the evidence for the efficacy and safety of current treatment of PHF with inotropes is insufficient. In cardiology practice N-terminal pro-B-type natriuretic peptide (NT-proBNP) is an established biomarker for heart failure. However, the association between NT-proBNP and PHF after cardiac surgery needs further clarification. Glutamate is a key intermediate in myocardial metabolism, which may improve myocardial tolerance to ischemia and facilitate post-ischemic recovery. Glutamate was associated with a reduced risk of developing severe PHF in high-risk patients undergoing coronary artery bypass surgery (CABG). The aim of this thesis was to study the role of NT-proBNP for prediction and assessment of PHF in cardiac surgery (Paper I-III) and the impact of intravenous glutamate infusion on postoperative NT-proBNP after CABG (Paper IV). Paper I: We retrospectively studied the role of underlying heart disease for preoperative NT-proBNP in patients admitted for first time CABG (n=2226), aortic valve surgery (AVR) for aortic stenosis (AS) (n=406) and mitral valve surgery for mitral valve regurgitation (MR) (n=346) by adjusting for non-cardiac confounders (age, gender, obesity and renal function). The level of NT-proBNP in AS or MR was 1.67 (p<0.0001) and 1.41 times (p<0.0001) higher respectively than in coronary artery disease (CAD) after adjusting for confounders. Preoperative NT-proBNP was predictive of severe PHF in CAD and MR patients but less so in AS patients. Preoperative NT-proBNP emerged as an independent risk factor for severe PHF and postoperative mortality in CAD patients. Paper II-III: We prospectively studied the association between postoperative NT-proBNP and PHF in two cohorts, patients undergoing AVR for AS Eva Ahlgren Andersson, Head of the Department of Cardiothoracic and Vascular Surgery. For allowing me to pursue the scientific path and facilitating my research project. All the colleagues at the Department of Cardiothoracic and Vascular surgery and Cardiothoracic Anesthesia for being good friends and part of a good working climate.

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“…The second mechanism, enhancement of postischemic recovery of myocardial metabolism has been shown in patients with proven metabolic disturbances [19,20]. As might be expected such an effect could not be detected in low risk patients with no or minimal metabolic derangement [33].…”

Section: Discussionmentioning

confidence: 96%

The impact of glutamate infusion on postoperative NT-proBNP in patients undergoing coronary artery bypass surgery: a randomized study

et al. 2020

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Background: Glutamate, a key intermediate in myocardial metabolism, may enhance myocardial recovery after ischemia and possibly reduce the incidence and severity of postoperative heart failure in coronary artery bypass surgery (CABG). N-terminal pro-B-type natriuretic peptide (NT-proBNP) can be used to assess postoperative heart failure (PHF) after CABG. Our hypothesis was that glutamate enhances myocardial recovery in post-ischemic heart failure and, therefore, will be accompanied by a mitigated postoperative increase of NT-proBNP. Methods: Substudy of the GLUTAmate for Metabolic Intervention in Coronary Surgery (GLUTAMICS) trial (ClinicalTrials.gov Identifier: NCT00489827) a prospective triple-center double-blind randomized clinical trial on 399 patients undergoing CABG with or without concomitant procedure for acute coronary syndrome at three Swedish Cardiac Surgery centres (Linköping, Örebro, and Karlskrona) from May 30, 2007 to November 12, 2009. Patients were randomly assigned to intravenous infusion of 0.125 M l-glutamic acid or saline (1.65 mL/kg of body weight per hour) intraoperatively and postoperatively. Plasma NT-proBNP was measured preoperatively, the first (POD1) and third postoperative morning (POD3). A Clinical Endpoints Committee, blinded to both intervention and NT-proBNP used prespecified criteria to diagnose PHF. The primary endpoints were the absolute levels of postoperative NT-proBNP and the difference between preoperative and postoperative levels of NT-proBNP. Results: Overall no significant difference was detected in postoperative NT-proBNP levels between groups. However, in high-risk patients (upper quartile of EuroSCORE II ≥ 4.15; glutamate group n = 56; control group n = 45) glutamate was associated with significantly lower postoperative increase of NT-proBNP (POD3-Pre: 3900 [2995-6260] vs. 6745 [3455-12,687] ng•L −1 , p = 0.012) and lower NT-proBNP POD3 (POD3: 4845 [3426-7423] vs. 8430 [5370-14,100] ng•L −1 , p = 0.001). After adjusting for significant differences in preoperative demographics, NT-proBNP POD3 in the glutamate group was 0.62 times of that in the control group (p = 0.002). Patients in the glutamate group also had shorter ICU stay (21 [19-26] vs. 25 [22-46] h, p = 0.025) and less signs of myocardial injury (Troponin T POD3 (300 [170-500] vs. 560 [210-910] ng•L −1 , p = 0.025).

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The effect of glutamate infusion on cardiac performance is independent of changes in metabolism in patients undergoing routine coronary artery bypass surgery

Cited by 14 publications

References 22 publications

Identification of Potential Pharmacological Targets by Analysis of the Comprehensive G Protein-Coupled Receptor Repertoire in the Four Cardiac Chambers

Identification of Potential Pharmacological Targets by Analysis of the Comprehensive G Protein-Coupled Receptor Repertoire in the Four Cardiac Chambers

NT-proBNP as a marker of postoperative heart failure in adult cardiac surgery

The impact of glutamate infusion on postoperative NT-proBNP in patients undergoing coronary artery bypass surgery: a randomized study

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