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4. Nuclear translocation of cardiac G protein-Coupled Receptor kinase 5 downstream of select Gq-activating hypertrophic ligands is a calmodulin-dependent process.

Author

Gold, Jessica I, Martini, Jeffrey S, Hullmann, Jonathan, Gao, Erhe, Chuprun, J Kurt, Lee, Linda, Tilley, Douglas G, Rabinowitz, Joseph E, Bossuyt, Julie, Bers, Donald M, and Koch, Walter J

Subjects
Myocardium, Cell Membrane, Cell Nucleus, Animals, Mice, Transgenic, Rabbits, Mice, Rats, Adenoviridae, Hypertrophy, Phenylephrine, GTP-Binding Protein alpha Subunits, Gq-G11, Angiotensin II, Calmodulin, Ligands, Gene Expression Regulation, Enzymologic, Protein Structure, Tertiary, Protein Binding, Active Transport, Cell Nucleus, Male, G-Protein-Coupled Receptor Kinase 5, Active Transport, GTP-Binding Protein alpha Subunits, Gq-G11, Gene Expression Regulation, Enzymologic, Transgenic, Protein Structure, Tertiary, General Science & Technology
Abstract

G protein-Coupled Receptors (GPCRs) kinases (GRKs) play a crucial role in regulating cardiac hypertrophy. Recent data from our lab has shown that, following ventricular pressure overload, GRK5, a primary cardiac GRK, facilitates maladaptive myocyte growth via novel nuclear localization. In the nucleus, GRK5's newly discovered kinase activity on histone deacetylase 5 induces hypertrophic gene transcription. The mechanisms governing the nuclear targeting of GRK5 are unknown. We report here that GRK5 nuclear accumulation is dependent on Ca(2+)/calmodulin (CaM) binding to a specific site within the amino terminus of GRK5 and this interaction occurs after selective activation of hypertrophic Gq-coupled receptors. Stimulation of myocytes with phenylephrine or angiotensinII causes GRK5 to leave the sarcolemmal membrane and accumulate in the nucleus, while the endothelin-1 does not cause nuclear GRK5 localization. A mutation within the amino-terminus of GRK5 negating CaM binding attenuates GRK5 movement from the sarcolemma to the nucleus and, importantly, overexpression of this mutant does not facilitate cardiac hypertrophy and related gene transcription in vitro and in vivo. Our data reveal that CaM binding to GRK5 is a physiologically relevant event that is absolutely required for nuclear GRK5 localization downstream of hypertrophic stimuli, thus facilitating GRK5-dependent regulation of maladaptive hypertrophy.

Published
2013

7. SPG7 Is an Essential and Conserved Component of the Mitochondrial Permeability Transition Pore

Author

Shanmughapriya, Santhanam, Rajan, Sudarsan, Hoffman, Nicholas E., Higgins, Andrew M., Tomar, Dhanendra, Nemani, Neeharika, Hines, Kevin J., Smith, Dylan J., Eguchi, Akito, Vallem, Sandhya, Shaikh, Farah, Cheung, Maggie, Leonard, Nicole J., Stolakis, Ryan S., Wolfers, Matthew P., Ibetti, Jessica, Chuprun, J. Kurt, Jog, Neelakshi R., Houser, Steven R., Koch, Walter J., Elrod, John W., and Madesh, Muniswamy

Published
2015
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8. p38α regulates SERCA2a function

Author

Kaikkonen, Leena, Magga, Johanna, Ronkainen, Veli-Pekka, Koivisto, Elina, Perjes, Ábel, Chuprun, J. Kurt, Vinge, Leif Erik, Kilpiö, Teemu, Aro, Jani, Ulvila, Johanna, Alakoski, Tarja, Bibb, James A., Szokodi, Istvan, Koch, Walter J., Ruskoaho, Heikki, and Kerkelä, Risto

Published
2014
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12. Darbepoetin alfa, a long-acting erythropoietin analog, offers novel and delayed cardioprotection for the ischemic heart

Author

Gao, Erhe, Boucher, Matthieu, Chuprun, J. Kurt, Zhou, Rui-Hai, Eckhart, Andrea D., and Koch, Walter J.

Subjects
Darbepoetin alfa -- Research, Erythropoietin -- Research, Myocardial ischemia -- Research, Heart cells -- Research, Cardiovascular research, Biological sciences
Abstract

Recent studies from our lab and others have shown that the hematopoietic cytokine erythropoietin (EPO) can protect the heart from ischemic damage in a red blood cell-independent manner. Here we examined any protective effects of the long-acting EPO analog darbepoetin alfa (DA) in a rat model of ischemia-reperfusion (I/R) injury. Rats were subjected to 30-min ischemia followed by 72-h reperfusion. In a dose-response study, DA (2, 7, 11, and 30 [micro]g/kg) or vehicle was administered as a single bolus at the start of ischemia. To determine the time window of potential cardioprotection, a single high dose of DA (30 [micro]g/kg) was given at either the initiation or the end of ischemia or at 1 or 24 h after reperfusion. After 3 days, cardiac function and infarct size were assessed. Acute myocyte apoptosis was quantified by TUNEL staining on myocardial sections and by caspase-3 activity assays. DA significantly reduced infarct size from 32.8 [+ o r-] 3.5% (vehicle) to 11.0 [+ or -] 3.3% in a dose-dependent manner, while there was no difference in ischemic area between groups. Treatment with DA as late as 24 h after the beginning of reperfusion still demonstrated a significant reduction in infarct size (17.0 [+ or -] 1.6%). Consistent with infarction data, DA improved in vivo cardiac reserve compared with vehicle. Finally, DA significantly decreased myocyte apoptosis and caspase-3 activity after I/R. These data indicate that DA protects the heart against I/R injury and improves cardiac function, apparently through a reduction of myocyte apoptosis. Of clinical importance pointing toward a relevant therapeutic utility, we report that even if given 24 h after I/R injury, DA can significantly protect the myocardium. myocardial ischemia; ischemia-reperfusion injury; apoptosis doi:10.1152/ajpheart.00227.2007

Published
2007

20. Characterization of βARKct engineered cellular extracellular vesicles and model specific cardioprotection.

Author

Jin-Sook Kwon, Schumacher, Sarah M., Gao, Erhe, Chuprun, J. Kurt, Ibetti, Jessica, Roy, Rajika, Khan, Mohsin, Kishore, Raj, and Koch, Walter J.

Subjects
EXTRACELLULAR vesicles, G protein coupled receptors, SYMPATHETIC nervous system, CORONARY disease, STEM cell treatment, CELL communication
Abstract

Recent data supporting any benefit of stem cell therapy for ischemic heart disease have suggested paracrine-based mechanisms via extracellular vesicles (EVs) including exosomes. We have previously engineered cardiac-derived progenitor cells (CDCs) to express a peptide inhibitor, βARKct, of G protein-coupled receptor kinase 2, leading to improvements in cell proliferation, survival, and metabolism. In this study, we tested whether βARKct-CDC EVs would be efficacious when applied to stressed myocytes in vitro and in vivo. When isolated EVs from βARKct-CDCs and control GFP-CDCs were added to cardiomyocytes in culture, they both protected against hypoxia-induced apoptosis. We tested whether these EVs could protect the mouse heart in vivo, following exposure either to myocardial infarction (MI) or acute catecholamine toxicity. Both types of EVs significantly protected against ischemic injury and improved cardiac function after MI compared with mice treated with EVs from mouse embryonic fibroblasts; however, βARKct EVs treated mice did display some unique beneficial properties including significantly altered pro- and anti-inflammatory cytokines. Importantly, in a catecholamine toxicity model of heart failure (HF), myocardial injections of βARKct-containing EVs were superior at preventing HF compared with control EVs, and this catecholamine toxicity protection was recapitulated in vitro. Therefore, introduction of the βARKct into cellular EVs can have improved reparative properties in the heart especially against catecholamine damage, which is significant as sympathetic nervous system activity is increased in HF. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Restricting mitochondrial GRK2 post-ischemia confers cardioprotection by reducing myocyte death and maintaining glucose oxidation

Author

Sato, Priscila Y., primary, Chuprun, J. Kurt, additional, Grisanti, Laurel A., additional, Woodall, Meryl C., additional, Brown, Brett R., additional, Roy, Rajika, additional, Traynham, Christopher J., additional, Ibetti, Jessica, additional, Lucchese, Anna M., additional, Yuan, Ancai, additional, Drosatos, Konstantinos, additional, Tilley, Doug G., additional, Gao, Erhe, additional, and Koch, Walter J., additional

Published
2018
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24. Pro-Death Signaling of GRK2 in Cardiac Myocytes after Ischemic Stress Occurs via ERK-Dependent, Hsp90-Mediated Mitochondrial Targeting

Author

Chen, Mai, Sat, Priscila Y., Chuprun, J. Kurt, Peroutka, Raymond J., Otis, Nicholas J., Ibetti, Jessica, Pan, Shi, Sheu, Shey-Shing, Gao, Erhe, and Koch, Walter J.

Subjects
Male, G-Protein-Coupled Receptor Kinase 2, Myocardial Ischemia, Mice, Transgenic, Article, Mitochondria, Heart, Rats, Mice, Inbred C57BL, Mice, Oxidative Stress, HEK293 Cells, Animals, Newborn, Animals, Humans, Cattle, Myocytes, Cardiac, HSP90 Heat-Shock Proteins, Cells, Cultured, HeLa Cells, Signal Transduction
Abstract

G protein-coupled receptor kinase 2 (GRK2) is abundantly expressed in the heart, and its expression and activity are increased in injured or stressed myocardium. This upregulation has been shown to be pathological. GRK2 can promote cell death in ischemic myocytes, and its inhibition by a peptide comprising the last 194 amino acids of GRK2 (known as carboxyl-terminus of β-adrenergic receptor kinase [bARKct]) is cardioprotective.The aim of this study was to elucidate the signaling mechanism that accounts for the prodeath signaling seen in the presence of elevated GRK2 and the cardioprotection afforded by the carboxyl-terminus of β-adrenergic receptor kinase.Using in vivo mouse models of ischemic injury and also cultured myocytes, we found that GRK2 localizes to mitochondria, providing novel insight into GRK2-dependent pathophysiological signaling mechanisms. Mitochondrial localization of GRK2 in cardiomyocytes was enhanced after ischemic and oxidative stress, events that induced prodeath signaling. Localization of GRK2 to mitochondria was dependent on phosphorylation at residue Ser670 within its extreme carboxyl-terminus by extracellular signal-regulated kinases, resulting in enhanced GRK2 binding to heat shock protein 90, which chaperoned GRK2 to mitochondria. Mechanistic studies in vivo and in vitro showed that extracellular signal-regulated kinase regulation of the C-tail of GRK2 was an absolute requirement for stress-induced, mitochondrial-dependent prodeath signaling, and blocking this led to cardioprotection. Elevated mitochondrial GRK2 also caused increased Ca(2+)-induced opening of the mitochondrial permeability transition pore, a key step in cellular injury.We identify GRK2 as a prodeath kinase in the heart, acting in a novel manner through mitochondrial localization via extracellular signal-regulated kinase regulation.

Published
2013

30. Mitochondrial Fusion Dynamics in the Heart

Author

Eisner, Veronica, primary, Cupo, Ryan, additional, Gao, Erhe, additional, Csordás, György, additional, Cheng, Lan, additional, Ibetti, Jessica, additional, Chuprun, J. Kurt, additional, Koch, Walter J., additional, and Hajnóczky, György, additional

Published
2015
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34. Inhibition of Fas-Associated Death Domain-Containing Protein (FADD) Protects against Myocardial Ischemia/Reperfusion Injury in a Heart Failure Mouse Model.

Author

Fan, Qian, Huang, Zheng M, Boucher, Matthieu, Shang, Xiying, Zuo, Lin, Brinks, Henriette, Lau, Wayne Bond, Zhang, Jianke, Chuprun, J Kurt, Gao, Erhe, Fan, Qian, Huang, Zheng M, Boucher, Matthieu, Shang, Xiying, Zuo, Lin, Brinks, Henriette, Lau, Wayne Bond, Zhang, Jianke, Chuprun, J Kurt, and Gao, Erhe

Abstract

AIM: As technological interventions treating acute myocardial infarction (MI) improve, post-ischemic heart failure increasingly threatens patient health. The aim of the current study was to test whether FADD could be a potential target of gene therapy in the treatment of heart failure. METHODS: Cardiomyocyte-specific FADD knockout mice along with non-transgenic littermates (NLC) were subjected to 30 minutes myocardial ischemia followed by 7 days of reperfusion or 6 weeks of permanent myocardial ischemia via the ligation of left main descending coronary artery. Cardiac function were evaluated by echocardiography and left ventricular (LV) catheterization and cardiomyocyte death was measured by Evans blue-TTC staining, TUNEL staining, and caspase-3, -8, and -9 activities. In vitro, H9C2 cells transfected with ether scramble siRNA or FADD siRNA were stressed with chelerythrin for 30 min and cleaved caspase-3 was assessed. RESULTS: FADD expression was significantly decreased in FADD knockout mice compared to NLC. Ischemia/reperfusion (I/R) upregulated FADD expression in NLC mice, but not in FADD knockout mice at the early time. FADD deletion significantly attenuated I/R-induced cardiac dysfunction, decreased myocardial necrosis, and inhibited cardiomyocyte apoptosis. Furthermore, in 6 weeks long term permanent ischemia model, FADD deletion significantly reduced the infarct size (from 41.20±3.90% in NLC to 26.83±4.17% in FADD deletion), attenuated myocardial remodeling, improved cardiac function and improved survival. In vitro, FADD knockdown significantly reduced chelerythrin-induced the level of cleaved caspase-3. CONCLUSION: Taken together, our results suggest FADD plays a critical role in post-ischemic heart failure. Inhibition of FADD retards heart failure progression. Our data supports the further investigation of FADD as a potential target for genetic manipulation in the treatment of heart failure.

Published
2013

35. Convergence of G Protein–Coupled Receptor and S-Nitrosylation Signaling Determines the Outcome to Cardiac Ischemic Injury

Author

Huang, Z. Maggie, primary, Gao, Erhe, additional, Fonseca, Fabio Vasconcelos, additional, Hayashi, Hiroki, additional, Shang, Xiying, additional, Hoffman, Nicholas E., additional, Chuprun, J. Kurt, additional, Tian, Xufan, additional, Tilley, Doug G., additional, Madesh, Muniswamy, additional, Lefer, David J., additional, Stamler, Jonathan S., additional, and Koch, Walter J., additional

Published
2013
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37. Prodeath Signaling of G Protein–Coupled Receptor Kinase 2 in Cardiac Myocytes After Ischemic Stress Occurs Via Extracellular Signal–Regulated Kinase-Dependent Heat Shock Protein 90–Mediated Mitochondrial Targeting

Author

Chen, Mai, primary, Sato, Priscila Y., additional, Chuprun, J. Kurt, additional, Peroutka, Raymond J., additional, Otis, Nicholas J., additional, Ibetti, Jessica, additional, Pan, Shi, additional, Sheu, Shey-Shing, additional, Gao, Erhe, additional, and Koch, Walter J., additional

Published
2013
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38. Mitochondrial fusion dynamics is robust in the heart and depends on calcium oscillations and contractile activity.

Author

Cupo, Ryan R., Csordás, György, Slovinsky, William S., Paillard, Melanie, Cheng, Lan, Hoek, Jan B., Hajnóczky, György, Eisner, Verónica, Gao, Erhe, Ibetti, Jessica, Chuprun, J. Kurt, Koch, Walter J., and Chen, S. R. Wayne

Subjects
MITOCHONDRIA, HEART cells, CONFOCAL microscopy, ADENOSINE triphosphate, FUSION (Phase transformation)
Abstract

Mitochondrial fusion is thought to be important for supporting cardiac contractility, but is hardly detectable in cultured cardio-myocytes and is difficult to directly evaluate in the heart. We overcame this obstacle through in vivo adenoviral transduction with matrix-targeted photoactivatable GFP and confocal microscopy. Imaging in whole rat hearts indicated mitochondrial network formation and fusion activity in ventricular cardiomyocytes. Promptly after isolation, cardiomyocytes showed extensive mitochondrial connectivity and fusion, which decayed in culture (at 24-48 h). Fusion manifested both as rapid content mixing events between adjacent organelles and slower events between both neighboring and distant mitochondria. Loss of fusion in culture likely results from the decline in calcium oscillations/contractile activity and mitofusin 1 (Mfn1), because (i) verapamil suppressed both contraction and mitochondrial fusion, (ii) after spontaneous contraction or short-term field stimulation fusion activity increased in cardiomyocytes, and (iii) ryanodine receptor-2-mediated calcium oscillations increased fusion activity in HEK293 cells and complementing changes occurred in Mfn1. Weakened cardiac contractility in vivo in alcoholic animals is also associated with depressed mitochondrial fusion. Thus, attenuated mitochondrial fusion might contribute to the pathogenesis of cardiomyopathy. [ABSTRACT FROM AUTHOR]

Published
2017
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41. Paroxetine Is a Direct Inhibitor of G Protein-Coupled Receptor Kinase 2 and Increases Myocardial Contractility

Author

Thal, David M., primary, Homan, Kristoff T., additional, Chen, Jun, additional, Wu, Emily K., additional, Hinkle, Patricia M., additional, Huang, Z. Maggie, additional, Chuprun, J. Kurt, additional, Song, Jianliang, additional, Gao, Erhe, additional, Cheung, Joseph Y., additional, Sklar, Larry A., additional, Koch, Walter J., additional, and Tesmer, John J.G., additional

Published
2012
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42. G i -Biased β 2 AR Signaling Links GRK2 Upregulation to Heart Failure

Author

Zhu, Weizhong, primary, Petrashevskaya, Natalia, additional, Ren, Shuxun, additional, Zhao, Aizhi, additional, Chakir, Khalid, additional, Gao, Erhe, additional, Chuprun, J. Kurt, additional, Wang, Yibin, additional, Talan, Mark, additional, Dorn, Gerald W., additional, Lakatta, Edward G., additional, Koch, Walter J, additional, Feldman, Arthur M., additional, and Xiao, Rui-Ping, additional

Published
2012
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45. G Protein–Coupled Receptor Kinase 2 Activity Impairs Cardiac Glucose Uptake and Promotes Insulin Resistance After Myocardial Ischemia

Author

Ciccarelli, Michele, primary, Chuprun, J. Kurt, additional, Rengo, Giuseppe, additional, Gao, Erhe, additional, Wei, Zhengyu, additional, Peroutka, Raymond J., additional, Gold, Jessica I., additional, Gumpert, Anna, additional, Chen, Mai, additional, Otis, Nicholas J., additional, Dorn, Gerald W., additional, Trimarco, Bruno, additional, Iaccarino, Guido, additional, and Koch, Walter J., additional

Published
2011
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47. Level of G protein–Coupled Receptor Kinase-2 Determines Myocardial Ischemia/Reperfusion Injury via Pro- and Anti-Apoptotic Mechanisms

Author

Brinks, Henriette, primary, Boucher, Matthieu, additional, Gao, Erhe, additional, Chuprun, J. Kurt, additional, Pesant, Stéphanie, additional, Raake, Philip W., additional, Huang, Z. Maggie, additional, Wang, Xiaoliang, additional, Qiu, Gang, additional, Gumpert, Anna, additional, Harris, David M., additional, Eckhart, Andrea D., additional, Most, Patrick, additional, and Koch, Walter J., additional

Published
2010
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50. Endothelial S100A1 Modulates Vascular Function via Nitric Oxide

Author

Pleger, Sven T., primary, Harris, David M., additional, Shan, Changguang, additional, Vinge, Leif E., additional, Chuprun, J. Kurt, additional, Berzins, Brett, additional, Pleger, Wiebke, additional, Druckman, Charles, additional, Völkers, Mirko, additional, Heierhorst, Jörg, additional, Øie, Erik, additional, Remppis, Andrew, additional, Katus, Hugo A., additional, Scalia, Rosario, additional, Eckhart, Andrea D., additional, Koch, Walter J., additional, and Most, Patrick, additional

Published
2008
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