Louis M. Chu

Chymase Inhibition Reduces Infarction and Matrix Metalloproteinase-9 Activation and Attenuates Inflammation and Fibrosis after Acute Myocardial Ischemia/Reperfusion

Chymase is activated after acute myocardial ischemia/reperfusion (AMI-R) and is associated with an early activation of matrix metalloproteinase-9 (MMP-9), which increases infarct size after experimental AMI, and late fibrosis. We assessed the effect of chymase inhibition on myocardial protection and early signs of fibrosis after AMI-R. Fourteen pigs underwent AMI-R and received intravenously either vehicle (V; n = 7) or chymase inhibitor (CM; n = 7). Separately, rat myocardial fibroblast was incubated with vehicle (n = 4), low-dose chymase (n = 4), high-dose chymase (n = 4), or high-dose chymase plus chymase inhibitor (n = 4). Infarct size (V, 41 ± 5; CM, 24 ± 5; P < 0.01) and serum troponin T (P = 0.03) at the end of reperfusion were significantly reduced in CM. Chymase activity in both the area at risk (AAR) (P = 0.01) and nonischemic area (P = 0.02) was significantly lower in CM. Myocardial levels of pro, cleaved, and cleaved/pro-MMP-9 in the AAR were significantly lower in CM than V (P < 0.01, < 0.01, and = 0.02, respectively), whereas phospho-endothelial nitric-oxide synthase (eNOS) (P < 0.01) and total eNOS (P = 0.03) were significantly higher in CM. Apoptotic cells (P = 0.05), neutrophils (P < 0.05), and MMP-9-colocalizing mast cells (P < 0.05) in the AAR were significantly reduced in CM. Interleukin-18 (P < 0.05) and intercellular adhesion molecule-1 (P < 0.05) mRNA levels were significantly lower in CM. In cultured cardiac fibrosis, Ki-67-positive cells were significantly higher in the high-dose chymase groups (P < 0.03). This study demonstrates that chymase inhibition plays crucial roles in myocardial protection related to MMP-9, inflammatory markers, and the eNOS pathway. It may also attenuate fibrosis induced by activated chymase after AMI-R.

Resveratrol modifies risk factors for coronary artery disease in swine with metabolic syndrome and myocardial ischemia

Resveratrol has been purported to modify risk factors for obesity and cardiovascular disease. We sought to examine the effects of resveratrol in a porcine model of metabolic syndrome and chronic myocardial ischemia. Yorkshire swine were fed either a normal diet (control), a high cholesterol diet (HCD), or a high cholesterol diet with supplemental resveratrol (HCD-R; 100mg/kg/day) for 11 weeks. After 4 weeks of diet modification a baseline cardiovascular MRI was performed and an ameroid constrictor was placed on the left circumflex coronary artery of each animal to induce chronic myocardial ischemia. At 7 weeks, a second cardiovascular MRI was performed and swine were sacrificed and myocardial tissue harvested. Resveratrol supplementation resulted in lower body mass indices, serum cholesterol, and C-reactive protein levels, improved glucose tolerance and endothelial function, and favorably augmented signaling pathways associated with myocardial metabolism. Interestingly, serum tumor necrosis factor-α levels were not influenced by resveratrol treatment. Immunoblotting for markers of metabolism demonstrated that insulin receptor substrate-1, glucose transporters 1 and 4, and phospho-AMPK were increased in the HCD-R group. Peroxisome proliferator-activated receptor γ and retinol binding protein 4 were downregulated in the HCD-R group as compared to the HCD group. Myocardial perfusion and function at rest as assessed with magnetic resonance imaging were not different between groups. By favorably influencing risk factors, resveratrol may decrease the burden of chronic metabolic disease and improve cardiovascular health.

Anti-angiogenic effect of high-dose resveratrol in a swine model of metabolic syndrome

BACKGROUND Resveratrol has been reported to induce angiogenesis in ischemic tissue. We hypothesized that high-dose resveratrol would improve native angiogenesis in a swine model of metabolic syndrome and chronic myocardial ischemia. METHODS Yorkshire swine were fed a normal diet (Control, n = 7), hypercholesterolemic diet (HCD, n = 7), or hypercholesterolemic diet with supplemental resveratrol (100 mg/kg/day orally, HCD-R; n = 7) beginning 1 month prior to surgery. Chronic ischemia was created by placing an ameroid constrictor on the left circumflex coronary artery. After 7 weeks, swine underwent functional MRI, coronary angiography, and serum and heart tissue harvest for analysis. RESULTS HCD-R animals had lower body mass index (P < .001), total cholesterol (P < .001), low-density lipoprotein (LDL; P < .001), blood glucose levels (P < .001), and systolic blood pressure (P = .03) than HCD animals. There was no difference in regional myocardial function at 7 weeks (P = .25). Coronary angiograms revealed no difference in Rentrop collateral scores (P = .68). Staining for platelet endothelial cell adhesion molecule-1 demonstrated higher capillary density in the Control group (versus HCD and HCD-R; P = .02). Immunoblotting demonstrated decreased expression of the pro-angiogenic protein vascular endothelial (VE)-cadherin (P = .002) and an increase in anti-angiogenic proteins angiostatin (P = .001) and thrombospondin (P = .02) in the HCD and HCD-R groups. Matrix metalloprotease 2 (MMP 2; P = .47) and MMP 9 (P = .12) were not different among groups. CONCLUSION Supplemental resveratrol positively modified cardiovascular risk factors including body mass index, cholesterol, glucose tolerance, and systolic blood pressure. However, it did not increase native collateral formation in the ischemic myocardium. This may be a result of increased angiostatin and thrombospondin leading to decreased expression of VE-cadherin and other pro-angiogenic factors.

Resveratrol in the Prevention and Treatment of Coronary Artery Disease

Resveratrol is a polyphenolic compound found in red wine that is believed to be responsible for its beneficial cardiovascular effects. Extensive research in the past several decades has identified multiple mechanisms by which resveratrol modifies the cardiovascular risk factors that lead to coronary artery disease, yet translation to the clinical arena has been unexpectedly slow. In this article, we review the existing evidence regarding the beneficial effects of resveratrol and briefly discuss its potential therapeutic applications.

Therapeutic neovascularization for coronary disease: current state and future prospects

Despite advances in surgical and percutaneous revascularization techniques, nearly one-third of patients with ischemic coronary artery disease are not candidates for revascularization due to suboptimal anatomy or receive suboptimal revascularization from these standard procedures. Neovascularization of the myocardium is not only a physiologic response to ischemia, but also potentially the target of new therapeutic strategies. Induced angiogenesis via protein, gene, and cell-based therapies showed initial promise in experiments using otherwise healthy laboratory animals. However, failure to translate these gains into humans prompted further study into the vascular environment and endothelial dysfunction. Understanding that factors such as hypertension, diabetes, and hyperlipidemia are not only placing patients at risk for coronary artery disease but also undermining our attempts in neovascularization therapies, has prompted us to rethink our therapeutic approach. Future directions for therapeutic neovascularization lie in therapies combining optimization of the vascular environment, improvement of endothelial function and other aspects of vascular formation and development.

Effects of neuropeptide Y on collateral development in a swine model of chronic myocardial ischemia

We investigated the role of neuropeptide Y (NPY), abundant in the myocardial sympathetic nervous system and endothelial cells, in angiogenesis during chronic myocardial ischemia. Adult male Yorkshire swine underwent ameroid constrictor placement on the proximal left circumflex coronary artery. After 3 weeks, an osmotic pump was placed to deliver either placebo (control, n=8) or NPY(3-36) (NPY, n=8) to the collateral dependent region. Five weeks after pump placement, after cardiac catheterization and hemodynamic assessment, the heart was harvested for analysis. NPY treated animals demonstrated increased mean arterial pressures and improved left ventricular function (+dP/dt). Cardiac catheterization demonstrated a significant increase in the blush score in the NPY group (p<0.001). Blood flow to the ischemic myocardium was not different between groups at rest or during ventricular pacing. Immunohistochemical double staining for CD-31 and smooth muscle actin demonstrated an increase in capillary and arteriole formation in NPY treated animals (p=0.02 and p<0.001). Immunoblotting showed a significant upregulation of DPPIV (p=0.009) and NPY receptors 1 (p=0.008), 2 (p=0.02) and 5 (p=0.03) in the NPY treated group. Additionally, there was significant upregulation of VEGF (p=0.04), eNOS (p=0.014), phospho-eNOS (ser1177) (p=0.02), and PDGF (p<0.001) in NPY treated group. The anti-angiogenic factors endostatin and angiostatin were significantly decreased in NPY treated animals (endostatin, p=0.03; angiostatin, p=0.04). Exogenous NPY(3-36) resulted in improved myocardial function and increased angiogenesis and arteriogenesis by stimulating growth factor, pro-angiogenic receptor upregulation, and decreasing anti-angiogenic expression, but did not increase blood flow to the ischemic myocardium. NPY may act as a good adjunct to primary agents of therapeutic angiogenesis.

Changes in Microvascular Reactivity after Cardiopulmonary Bypass in Patients with Poorly Controlled versus Controlled Diabetes

Background— We investigated the effects of cardiopulmonary bypass (CPB) on peripheral arteriolar reactivity and associated signaling pathways in poorly controlled (UDM), controlled (CDM), and case-matched nondiabetic (ND) patients undergoing coronary artery bypass grafting (CABG). Methods and Results— Skeletal muscle arterioles were harvested before and after CPB from the UDM patients (hemoglobin A1c [HbA1c]=9.0±0.3), the CDM patients (HbA1c=6.3±0.15), and the ND patients (HbA1c=5.2±0.1) undergoing CABG surgery (n=10/group). In vitro relaxation responses of precontracted arterioles to endothelium-dependent vasodilators adenosine 5′-diphosphate (ADP) and substance P and the endothelium-independent vasodilator sodium nitroprusside (SNP) were examined. The baseline responses to ADP, substance P, and SNP of arterioles from the UDM patients were decreased as compared with microvessels from the ND or CDM patients (P<0.05). The post-CPB relaxation responses to ADP and substance P were significantly decreased in all 3 groups compared with pre-CPB responses (P<0.05). However, these decreases were more pronounced in the UDM group (P<0.05). The post-CPB response to SNP was significantly decreased only in the UDM group, not in the other 2 groups compared with pre-CPB. The expression of protein kinase C (PKC)-&agr;, PKC-&bgr;, protein oxidation, and nitrotyrosine in the skeletal muscle were significantly increased in the UDM group as compared with those of ND or CDM groups (P<0.05). Conclusions— Poorly controlled diabetes results in impaired arteriolar function before and after CPB. These alterations are associated with the increased expression/activation of PKC-&agr; and PKC-&bgr; and enhanced oxidative and nitrosative stress.

The pig as a valuable model for testing the effect of resveratrol to prevent cardiovascular disease

Resveratrol is a naturally occurring polyphenol found in the skin of red grapes, peanuts, and red wine that has been shown to modify many cardiovascular risk factors. Small animal models have been extensively used to investigate cardiovascular disease, but the results often fail to translate in clinical trials. Disease‐specific pig models are emerging as clinically useful tools that may offer insight into cardiovascular disease and the effect of drugs such as resveratrol on cardiovascular health. In this paper, we discuss the advantage of using clinically relevant pig models of diabetes, hypercholesterolemia, and myocardial ischemia to investigate the role of resveratrol in cardiovascular disease prevention.

Resveratrol Preserves Myocardial Function and Perfusion in Remote Nonischemic Myocardium in a Swine Model of Metabolic Syndrome

BACKGROUND Resveratrol has been shown to reverse some of the detrimental effects of metabolic syndrome (MetS). We sought to define the impact of supplemental resveratrol on normal myocardium remote from an ischemic territory in a swine model of MetS and chronic myocardial ischemia. STUDY DESIGN Yorkshire swine were fed a normal diet (control), a high cholesterol diet (HCD), or a high cholesterol diet with orally supplemented resveratrol (HCD-R; 100 mg/kg/day). Four weeks after diet modification, myocardial ischemia was induced by ameroid constrictor placement. Seven weeks later, myocardial tissue from a territory remote from the ischemia was harvested. Animals in the HCD and HCD-R groups underwent functional cardiac MRI before ischemia and before sacrifice. Tissue was harvested for protein expression analysis. RESULTS After 7 weeks of ischemia, regional left ventricular systolic function was significantly increased in HCD-R as compared with HCD animals. During ventricular pacing the HCD group had significantly decreased flow (p = 0.03); perfusion in the HCD-R was preserved as compared with the control. There was no difference in microvascular relaxation. Expression of metabolic proteins Sirt-1 (p = 0.002), AMPkinase (p = 0.02), and carnitine palmitoyltransferase-I (p = 0.002) were upregulated in the HCD-R group. Levels of protein oxidative stress were significantly increased in the HCD and HCD-R groups, as compared with the controls (p = 0.003). Activated endothelial nitric oxide synthase (eNOS) was increased in the HCD-R group (p = 0.01). There was no difference in myocardial endothelial cell density between the groups; however, dividing endothelial cells were decreased in the HCD and HCD-R groups (p = 0.006). CONCLUSIONS Resveratrol supplementation improves regional left ventricular function and preserves perfusion to myocardium remote from an area of ischemia in an animal model of metabolic syndrome and chronic myocardial ischemia.

Is hyperglycemia bad for the heart during acute ischemia

OBJECTIVE This study investigates the impact of diabetes on myocardium in the setting of acute ischemia-reperfusion in a porcine model. METHODS In normoglycemic (ND group) and alloxan-induced diabetic (DM group) male Yucatan pigs, the left anterior descending coronary artery territory was made ischemic and then reperfused. Hemodynamic values and myocardial function were measured. Monastryl blue and triphenyl tetrazolium chloride staining were used to assess size of the areas at risk and infarction. Glycogen content was assessed using periodic acid-Schiff staining. Cell death and survival signaling pathways were assessed by immunoblotting. RESULTS Mean arterial pressure and developed left ventricular pressure were lower in the DM group (P < .05). Whereas global left ventricular function was worse in the DM group (P < .05), regional function in the area at risk was improved on the horizontal axis (P < .05). Mean infarct size was smaller in the DM versus the ND group (19% vs 43%; P < .05), whereas the area at risk was similar in both groups (34% vs 36%; P = .7). Ischemic myocardium in the DM group displayed more prominent staining for glycogen compared with the ND group. In the area at risk, expression of cell survival proteins including phosphorylated endothelial nitric oxide synthase (0.17 ± 0.04 vs 0.04 ± 0.01; P < .05), heat shock protein 27 (0.7 ± 0.2 vs 0.3 ± 0.1; P < .05), nuclear factor-κB (0.14 ± 0.02 vs 0.03 ± 0.01; P < .05), and mammalian target of rapamycin (0.35 ± 0.05 vs 0.15 ± 0.02; P < .05) were higher in DM animals, whereas in nonischemic tissue, expression of these proteins was similar or lower in the DM group. CONCLUSIONS Although type I diabetes worsens global left ventricular function, it is protective in the ischemic area, leading to increased expression of cell survival proteins and decreased infarct size.