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ABSTRACT: Activation of phosphoinositide-3 kinase (PI3K) is essential for cell growth, relating to adaptive and maladaptive cardiac hypertrophy. This longitudinal canine study was designed to investigate the role of PI3Kalpha and PI3Kgamma in cardiac remodelling during congestive heart failure (CHF) and cardiac recovery (CR).
All dogs were surgically instrumented. Congestive heart failure was induced by cardiac pacing for 3-4 weeks and CR was allowed by terminating pacing for 5-6 weeks after induction of HF. Control dogs had sham surgery, but did not undergo pacing. Left ventricular (LV) contractile function was depressed in CHF and restored to 80-90% of the normal level in CR, with a 25% increase in LV weight. The expression of PI3Kgamma was increased four-fold in CHF, but returned to control levels in CR. In contrast, the expression of PI3Kalpha in CHF was not different from that in controls, but increased three-fold in CR and was accompanied by increases in phosphorylation of Akt (five-fold), GSK-3beta (five-fold), beta-catenin (three-fold), mTOR (two-fold), and P70S6K (two-fold).
Our results indicate that PI3K isoforms are regulated differently during the course of CHF/CR and that the selective activation of PI3Kalpha, through Akt, GSK-3beta, and mTOR signalling pathways, may be involved in the development of cardiac compensatory hypertrophy and functional restoration.
European Journal of Heart Failure 09/2009; 11(8):739-48. · 4.90 Impact Factor
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ABSTRACT: In congestive heart failure (CHF), coronary vascular relaxation is associated with endothelial dysfunction and nitric oxide (NO) deficiency. This study explored the reversibility of this process in hearts recovering from CHF and its related mechanisms. Dogs were chronically instrumented to measure cardiac function and coronary blood flow (CBF). Heart failure was induced by right ventricular pacing at 240 beats/min for 3-4 wk, and cardiac recovery (CR) was allowed by the termination of cardiac pacing for 3-4 wk after the development of CHF, in which left ventricular contractile function was restored by 80-90%. The endothelium-dependent CBF response to bradykinin and acetylcholine was depressed in CHF and fully restored in CR. Myocardial NOx (nitrate/nitrite), endothelial NO synthase (eNOS) mRNA expression, total protein, and phosphorylated eNOS decreased significantly in failing hearts. However, myocardial NOx recovered to 78% of control and phosphorylated eNOS was fully restored in CR, despite the fact that eNOS mRNA expression and protein levels remained lower than control. Furthermore, the endothelium-independent CBF response to nitroglycerin did not change in CHF; however, it increased by 75% in CR, in conjunction with a near threefold increase in the phosphorylation of vasodilation-stimulated phosphoprotein (VASP) at Ser(239) in recovering hearts. Thus the complete restoration of endothelium-dependent coronary vascular relaxation during cardiac recovery from CHF was mediated by 1) a restoration of phosphorylated eNOS for partial recovery of the NO production and 2) an increase in cGMP/cGMP-dependent protein kinase-I pathway signaling activity for the enhancement of coronary vascular smooth muscle relaxation in response to NO.
AJP Heart and Circulatory Physiology 07/2007; 292(6):H2782-90. · 3.71 Impact Factor
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ABSTRACT: Decreases in total creatine kinase (CK) activity and creatine [Cr] combine to limit the capacity of the failing heart to rapidly re-synthesize ATP (energy reserve). If the loss in energy reserve could be reversed, cardiac contractile reserve may be improved. Here we test whether these changes are reversible during recovery from heart failure. Left ventricular (LV) contractile function was measured in chronically instrumented conscious dogs with heart failure (CHF) induced by cardiac pacing for 3-4 weeks, and after recovery from heart failure (Recovery) (unpaced) for 5-6 weeks. LV contractile function and contractile reserve were depressed in CHF but returned to control in Recovery. CK capacity fell by 55% in CHF due to decreases in [Cr] (-39%) and CK activity (-25%), but was fully restored in Recovery. CK-B isozyme activity, protein (Western) and mRNA levels (real time PCR), respectively, were higher by 2-, 5.4- and 11-fold in CHF and higher by 3-, 2- and 2-fold in Recovery. CK-MM activity was decreased (-30%) in CHF but returned to normal levels during Recovery; CK-M protein was 30% lower in both CHF and Recovery even though there were no changes in mRNA levels. A similar pattern was found for mitochondrial CK (sMtCK). Deceases in CK activity and [Cr] in CHF are reversible. Decreases in CK-MM and sMtCK activities, but not the increases in CK-BB and CK-MB, also reversed. Neither the changes in protein nor mRNA levels for CK-B and CK-M correlated to their activities, suggesting that CK is under complex post-transcriptional regulation.
Journal of Molecular and Cellular Cardiology 10/2005; 39(3):537-44. · 5.17 Impact Factor
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Xushan Wang,
Mary M Mader,
John E Toth,
Xiaohong Yu, Najia Jin,
Robert M Campbell,
Jeffrey K Smallwood,
Michael E Christe,
Arindam Chatterjee,
Theodore Goodson,
Chris J Vlahos,
William F Matter,
Laura J Bloem
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ABSTRACT: Mixed lineage kinase 7 (MLK7) is a mitogen-activated protein kinase kinase kinase (MAPKKK) that activates the pro-apoptotic signaling pathways p38 and JNK. A library of potential kinase inhibitors was screened, and a series of dihydropyrrolopyrazole quinolines was identified as highly potent inhibitors of MLK7 in vitro catalytic activity. Of this series, an aryl-substituted dihydropyrrolopyrazole quinoline (DHP-2) demonstrated an IC50 of 70 nM for inhibition of pJNK formation in COS-7 cell MLK7/JNK co-transfection assays. In stimulated cells, DHP-2 at 200 nM or MLK7 small interfering RNA completely blocked anisomycin and UV induced but had no effect on interleukin-1beta or tumor necrosis factor-alpha-induced p38 and JNK activation. Additionally, the compound blocked anisomycin and UV-induced apoptosis in COS-7 cells. Heart tissue homogenates from MLK7 transgenic mice treated with DHP-2 at 30 mg/kg had reduced JNK and p38 activation with no apparent effect on ERK activation, demonstrating that this compound can be used to block MLK7-driven MAPK pathway activation in vivo. Taken together, these data demonstrate that MLK7 is the MAPKKK required for modulation of the stress-activated MAPKs downstream of anisomycin and UV stimulation and that DHP-2 can be used to block MLK7 pathway activation in cells as well as in vivo.
Journal of Biological Chemistry 06/2005; 280(19):19298-305. · 4.77 Impact Factor
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Xushan Wang,
Mary M. Mader,
John E. Toth,
Xiaohong Yu, Najia Jin,
Robert M. Campbell,
Jeffrey K. Smallwood,
Michael E. Christe,
Arindam Chatterjee,
Jr. Theodore Goodson,
Chris J. Vlahos,
William F. Matter,
Laura J. Bloem
[show abstract]
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ABSTRACT: Mixed lineage kinase 7 (MLK7) is a mitogen-activated protein kinase kinase kinase (MAPKKK) that activates the pro-apoptotic
signaling pathways p38 and JNK. A library of potential kinase inhibitors was screened, and a series of dihydropyrrolopyrazole
quinolines was identified as highly potent inhibitors of MLK7 in vitro catalytic activity. Of this series, an aryl-substituted dihydropyrrolopyrazole quinoline (DHP-2) demonstrated an IC50 of 70 nm for inhibition of pJNK formation in COS-7 cell MLK7/JNK co-transfection assays. In stimulated cells, DHP-2 at 200 nm or MLK7 small interfering RNA completely blocked anisomycin and UV induced but had no effect on interleukin-1β or tumor necrosis
factor-α-induced p38 and JNK activation. Additionally, the compound blocked anisomycin and UV-induced apoptosis in COS-7 cells.
Heart tissue homogenates from MLK7 transgenic mice treated with DHP-2 at 30 mg/kg had reduced JNK and p38 activation with
no apparent effect on ERK activation, demonstrating that this compound can be used to block MLK7-driven MAPK pathway activation
in vivo. Taken together, these data demonstrate that MLK7 is the MAPKKK required for modulation of the stress-activated MAPKs downstream
of anisomycin and UV stimulation and that DHP-2 can be used to block MLK7 pathway activation in cells as well as in vivo.
Journal of Biological Chemistry 05/2005; 280(19):19298-19305. · 4.77 Impact Factor
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ABSTRACT: Mixed lineage kinase 7 (MLK7) is a recently identified mitogen-activated protein kinase kinase kinase with enriched expression in skeletal muscle and heart. When over-expressed in cardiac myocytes, MLK7 activates both the p38 and c-Jun N-terminal kinase (JNK) stress-activated pathways and induces a cellular phenotype characteristic of cardiac hypertrophy, including a fetal gene expression pattern and increased protein synthesis. We sought to determine the effect of MLK7 on cardiac function in vivo by generating transgenic (Tg) mice with cardiac restricted over-expression of the enzyme. The mice were viable and demonstrated no visible signs of distress at rest. Microscopic examination of the hearts showed myocardial fibrosis and hypertrophy. Hemodynamic analysis of the Tg mice revealed impaired systolic function and significant diastolic dysfunction. Furthermore, significant mortality was observed in MLK7 Tg mice following 24-48 h of isoproterenol administration. Isoproterenol activation of JNK and p38, but not extracellular signal-regulated kinase, was significantly greater in the MLK7 Tg mice compared to littermate controls. These data indicate that MLK7 is an important signal transducer in cardiac compensation. Simultaneous activation of JNK and p38 by MLK7 may contribute to cardiac decompensation during the periods of acute cardiac stress.
Journal of Molecular and Cellular Cardiology 10/2004; 37(3):705-15. · 5.17 Impact Factor
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ABSTRACT: Rho-kinase was recently found to phosphorylate the myosin-binding subunit (MBS) of myosin phosphatase (MP) and to regulate MP activity. Although myosin light chain (MLC) phosphorylation in pulmonary arterial smooth muscle cells (PASMCs) is thought to be the cellular/molecular basis for hypoxic pulmonary vasoconstriction (HPV), very little is known about the role that Rho-kinase/MP plays in HPV. Rat PASMCs were cultured and made hypoxic (PO2 = 23 +/- 2 mm Hg). Cells exposed to normoxia (PO2 approximately 148 mm Hg) served as controls. PASMCs exposed to hypoxia showed a significant increase in MLC and MBS phosphorylation, and a significant decrease in MP activity. Rho-kinase inhibitors (HA1077 or Y-27632) blocked hypoxia-induced MP inactivation and inhibited the hypoxia-induced MLC phosphorylation. Hypoxia was also found to induce stress fiber formation and actin polymerization in cultured PASMCs. In summary, these data show that MP inhibition in PASMCs is linked to activation of Rho-kinase, and that hypoxia inhibits the MP signaling pathway via Rho-kinase.
American Journal of Respiratory Cell and Molecular Biology 11/2003; 29(4):465-71. · 5.13 Impact Factor
