Your search keyword '"Rokosh, Gregg"' showing total 222 results

1. Neutrophils are indispensable for adverse cardiac remodeling in heart failure

Author

Antipenko, Sergey, Mayfield, Nicolas, Jinno, Miki, Gunzer, Matthias, Ismahil, Mohamed Ameen, Hamid, Tariq, Prabhu, Sumanth D., and Rokosh, Gregg

Published

2024

2. Cardiac Mesenchymal Stem Cells Promote Fibrosis and Remodeling in Heart Failure: Role of PDGF Signaling

Author

Hamid, Tariq, Xu, Yuanyuan, Ismahil, Mohamed Ameen, Rokosh, Gregg, Jinno, Miki, Zhou, Guihua, Wang, Qiongxin, and Prabhu, Sumanth D.

Published

2022

3. CCR2+ Monocyte-Derived Infiltrating Macrophages Are Required for Adverse Cardiac Remodeling During Pressure Overload

Author

Patel, Bindiya, Bansal, Shyam S., Ismahil, Mohamed Ameen, Hamid, Tariq, Rokosh, Gregg, Mack, Matthias, and Prabhu, Sumanth D.

Published

2018

4. Abstract GS.102: Cd206 + Il-4rα + Macrophages Are Drivers Of Adverse Cardiac Remodeling In Ischemic Cardiomyopathy

Author

Wang, Qiongxin, primary, Ismahil, Ameen, additional, Rokosh, Gregg, additional, Hamid, Tariq, additional, Zhou, Guihua, additional, Zhu, Yujie, additional, Pogwizd, Steven M, additional, and Prabhu, Sumanth D, additional

Published

2023

5. Abstract P3084: Neutrophil Expansion And Netosis Are Essential For Adverse Left Ventricular Remodeling And Dysfunction In Chronic Ischemic Heart Failure

Author

Rokosh, Gregg, primary, Antipenko, Sergey, additional, Mayfield, Nicolas, additional, Jinno, Miki, additional, Gunzer, Matthias, additional, Ismahil, Ameen, additional, Hamid, Tariq, additional, and Prabhu, Sumanth D, additional

Published

2023

6. Abstract 17501: Splenic CD169+Tim4+ Marginal Zone Metallophilic Macrophages Are Essential for Wound Healing and Resolution of Inflammation After Myocardial Infarction

Author

Ismahil, Mohamed Ameen, Guihua, Zhou, Bansal, Shyam, Patel, Bindiya, Limdi, Nita A, Xie, Min, Antipenko, Sergey, Rokosh, Gregg, Hamid, Tariq, and Prabhu, Sumanth D

Published

2020

7. Abstract 16640: Neutrophil Expansion is Essential for Adverse Left Ventricular Remodeling and Dysfunction in Chronic Ischemic Heart Failure

Author

Antipenko, Sergey, Mayfield, Nicolas, Jinno, Miki, Gunzer, Matthias, Prabhu, Sumanth D, and Rokosh, Gregg

Published

2020

8. Response by Bansal et al to Letter Regarding Article, “Dysfunctional and Proinflammatory Regulatory T-Lymphocytes Are Essential for Adverse Cardiac Remodeling in Ischemic Cardiomyopathy”

Author

Bansal, Shyam S., Ismahil, M. Ameen, Goel, Mehak, Zhou, Guihua, Rokosh, Gregg, Hamid, Tariq, and Prabhu, Sumanth D.

Published

2019

9. Dysfunctional and Proinflammatory Regulatory T-Lymphocytes Are Essential for Adverse Cardiac Remodeling in Ischemic Cardiomyopathy

Author

Bansal, Shyam S., Ismahil, Mohamed Ameen, Goel, Mehak, Zhou, Guihua, Rokosh, Gregg, Hamid, Tariq, and Prabhu, Sumanth D.

Published

2019

10. Inducible cardiac-specific overexpression of cyclooxygenase-2 (COX-2) confers resistance to ischemia/reperfusion injury

Author

Guo, Yiru, Nong, Yibing, Tukaye, Deepali Nivas, Rokosh, Gregg, Du, Junjie, Zhu, Xiaoping, Book, Michael, Tomlin, Alex, Li, Qianhong, and Bolli, Roberto

Published

2019

11. Elevating CXCR7 Improves Angiogenic Function of EPCs via Akt/GSK-3β/Fyn-Mediated Nrf2 Activation in Diabetic Limb Ischemia

Author

Dai, Xiaozhen, Yan, Xiaoqing, Zeng, Jun, Chen, Jing, Wang, Yuehui, Chen, Jun, Li, Yan, Barati, Michelle T., Wintergerst, Kupper A., Pan, Kejian, Nystoriak, Matthew A., Conklin, Daniel J., Rokosh, Gregg, Epstein, Paul N., Li, Xiaokun, and Tan, Yi

Published

2017

12. Activated T Lymphocytes are Essential Drivers of Pathological Remodeling in Ischemic Heart Failure

Author

Bansal, Shyam S., Ismahil, Mohamed Ameen, Goel, Mehak, Patel, Bindiya, Hamid, Tariq, Rokosh, Gregg, and Prabhu, Sumanth D.

Published

2017

13. Identification of Heme Oxygenase 1 (HO-1) as a Novel Negative Regulator of Mobilization of Hematopoietic Stem/Progenitor Cells

Author

Wysoczynski, Marcin, Ratajczak, Janina, Pedziwiatr, Daniel, Rokosh, Gregg, Bolli, Roberto, and Ratajczak, Mariusz Z.

Published

2015

14. Insights into gene therapy for critical limb ischemia: The devil is in the details

Author

Madonna, Rosalinda and Rokosh, Gregg

Published

2012

15. Leukocyte iNOS is required for inflammation and pathological remodeling in ischemic heart failure

Author

Kingery, Justin R., Hamid, Tariq, Lewis, Robert K., Ismahil, Mohamed Ameen, Bansal, Shyam S., Rokosh, Gregg, Townes, Tim M., Ildstad, Suzanne T., Jones, Steven P., and Prabhu, Sumanth D.

Published

2017

16. Cigarette smoke adversely affects functions and cell membrane integrity in c-kit+ cardiac stem cells

Author

Sumanasekera, Wasana K., Tran, David M., Sumanasekera, Thimira U., Le, Nolan, Dao, Halle T., and Rokosh, Gregg D.

Published

2014

17. Abstract 14035: IL-4Ra-Mediated CD206 + Macrophage Activation Promotes Adverse Remodeling in the Failing Heart

Author

Wang, Qiongxin, primary, Ismahil, Mohamed Ameen, additional, Rokosh, Gregg, additional, Zhu, Yujie, additional, Hamid, Tariq, additional, and Prabhu, Sumanth, additional

Published

2021

18. Long-Term Engraftment and Angiogenic Properties of Lentivirally Transduced Adipose Tissue-Derived Stromal Cells

Author

Madonna, Rosalinda, Bolli, Roberto, Rokosh, Gregg, and De Caterina, Raffaele

Published

2013

19. Cardiomyocyte-restricted overexpression of extracellular superoxide dismutase increases nitric oxide bioavailability and reduces infarct size after ischemia/reperfusion

Author

Obal, Detlef, Dai, Shujing, Keith, Rachel, Dimova, Neviana, Kingery, Justin, Zheng, Yu-Ting, Zweier, Jay, Velayutham, Murugesan, Prabhu, Sumanth D., Li, Qianghong, Conklin, Daniel, Yang, Dan, Bhatnagar, Aruni, Bolli, Roberto, and Rokosh, Gregg

Published

2012

20. Hepatocyte growth factor/Met gene transfer in cardiac stem cells—potential for cardiac repair

Author

Madonna, Rosalinda, Rokosh, Gregg, De Caterina, Raffaele, and Bolli, Roberto

Published

2010

21. Inhibition of mammalian target of rapamycin protects against reperfusion injury in diabetic heart through STAT3 signaling

Author

Das, Anindita, Salloum, Fadi N., Filippone, Scott M., Durrant, David E., Rokosh, Gregg, Bolli, Roberto, and Kukreja, Rakesh C.

Published

2015

22. The late phase of preconditioning and its natural clinical application—gene therapy

Author

Bolli, Roberto, Li, Qian-Hong, Tang, Xian-Liang, Guo, Yiru, Xuan, Yu-Ting, Rokosh, Gregg, and Dawn, Buddhadeb

Published

2007

23. The cardioprotection of the late phase of ischemic preconditioning is enhanced by postconditioning via a COX-2-mediated mechanism in conscious rats

Author

Sato, Hiroshi, Bolli, Roberto, Rokosh, Gregg D., Bi, Qiuli, Dai, Shujing, Shirk, Gregg, and Tang, Xian-Liang

Subjects

Myocardial ischemia -- Physiological aspects, Cyclooxygenases -- Properties, Physiological research, Biological sciences

Abstract

The present study sought to determine whether the combination of late preconditioning (PC) with postconditioning enhances the reduction in infarct size. Chronically instrumented rats were assigned to a 45-min (subset 1) or 60-min (subset 2) coronary occlusion followed by 24 h of reperfusion. In each subset, rats received no further intervention (control) or were preconditioned 24 h before occlusion (PC), post-conditioned at the onset of reperfusion following occlusion, or preconditioned and postconditioned without (PC + postconditioning) or with the COX-2 inhibitor celecoxib (3 mg/kg ip; PC + postconditioning + celecoxib) 10 min before postconditioning. Myocardial cyclooxygenase-2 (COX-2) protein expression and COX-2 activity (assessed as myocardial levels of [PGE.sub.2]) were measured 6 min after reperfusion in an additional five groups (control, PC, postconditioning, PC + postconditioning, and PC + postconditioning + celecoxib) subjected to a 45-min occlusion. PC alone reduced infarct size after a 45-min occlusion but not after a 60-min occlusion. Postconditioning alone did not reduce infarct size in either setting. However, the combination of late PC and postconditioning resulted in a robust infarct-sparing effect in both settings, suggesting additive cardioprotection. Celecoxib completely abrogated the infarct-sparing effect of the combined interventions in both settings. Late PC increased COX-2 protein expression and [PGE.sub.2] content. [PGE.sub.2] content (but not COX-2 protein) was further increased by the combination of both interventions, suggesting that postconditioning increases the activity of COX-2 induced by late PC. In conclusion, the combination of late PC and postconditioning produces additive protection, likely due to a postconditioning-induced enhancement of COX-2 activity. myocardium; ischemia; infarct size; cyclooxygenase-2

Published

2007

24. Cardiac Mesenchymal Stem Cells Promote Fibrosis and Remodeling in Heart Failure: Role of PDGF Signaling

Author

Hamid, Tariq, primary, Xu, Yuanyuan, additional, Ismahil, Mohamed Ameen, additional, Rokosh, Gregg, additional, Jinno, MIki, additional, Zhou, Guihua, additional, and Prabhu, Sumanth D., additional

Published

2021

25. Abstract 17501: Splenic CD169 + Tim4 + Marginal Zone Metallophilic Macrophages Are Essential for Wound Healing and Resolution of Inflammation After Myocardial Infarction

Author

Ismahil, Mohamed Ameen, primary, Guihua, Zhou, additional, Bansal, Shyam, additional, Patel, Bindiya, additional, Limdi, Nita A, additional, Xie, Min, additional, Antipenko, Sergey, additional, Rokosh, Gregg, additional, Hamid, Tariq, additional, and Prabhu, Sumanth D, additional

Published

2020

26. The [alpha]1A/C- and [alpha]1B-adrenergic receptors are required for physiological cardiac hypertrophy in the double-knockout mouse

Author

OʼConnell, Timothy D., Ishizaka, Shinji, Nakamura, Akihiro, Swigart, Philip M., Rodrigo, M. C., Simpson, Gregory L., Cotecchia, Susanna, Rokosh, Gregg D., Grossman, William, Foster, Elyse, and Simpson, Paul C.

Published

2003

27. Optimized protocols for isolation, fixation, and flow cytometric characterization of leukocytes in ischemic hearts

Author

Covarrubias, Roman, primary, Ismahil, Mohamed Ameen, additional, Rokosh, Gregg, additional, Hamid, Tariq, additional, Accornero, Federica, additional, Singh, Harpreet, additional, Gumina, Richard J., additional, Prabhu, Sumanth D., additional, and Bansal, Shyam S., additional

Published

2019

28. Abstract 796: Dysfunctional Immune Cell Clock Contributes to Heart Failure Progression

Author

Rana, Samir, primary, Zhou, Guihua, additional, Hamid, Tariq, additional, Rokosh, Gregg, additional, Ismahil, M. Ameen, additional, Young, Martin E., additional, and Prabhu, Sumanth D., additional

Published

2019

29. Correction: The heme oxygenase 1 inducer (CoPP) protects human cardiac stem cells against apoptosis through activation of the extracellular signal-related kinase (ERK)/NRF2 signaling pathway and cytokine release.

Author

Cai, Chuanxi, primary, Teng, Lei, additional, Vu, Duc, additional, He, Jia-Qiang, additional, Guo, Yiru, additional, Li, Qianghong, additional, Tang, Xian-Liang, additional, Rokosh, Gregg, additional, Bhatnagar, Aruni, additional, and Bolli, Roberto, additional

Published

2019

30. Two-Dimensional Echocardiography with a 15-MHz Transducer Is a Promising Alternative for In Vivo Measurement of Left Ventricular Mass in Mice

Author

Youn, Ho-Joong, Rokosh, Gregg, Lester, Steven J., Simpson, Paul, Schiller, Nelson B., and Foster, Elyse

Published

1999

31. Long-Term Outcome of Administration of c-kitPOS Cardiac Progenitor Cells After Acute Myocardial Infarction: Transplanted Cells Do Not Become Cardiomyocytes, Structural and Functional Improvement and Proliferation of Endogenous Cells Persist for at Least One Year

Author

Tang, Xian-Liang, Li, Qianhong, Rokosh, Gregg, Sanganalmath, Santosh K., Chen, Ning, Ou, Qinghui, Stowers, Heather, Hunt, Greg, and Bolli, Roberto

Subjects

Male, Adult Stem Cells, Myocardial Infarction, Animals, Female, Article

Published

2016

32. Dysfunctional and Proinflammatory Regulatory T-Lymphocytes Are Essential for Adverse Cardiac Remodeling in Ischemic Cardiomyopathy.

Author

Ismahil, Mohamed Ameen, Goel, Mehak, Zhou, Guihua, Rokosh, Gregg, Hamid, Tariq, Bansal, Shyam S., and Prabhu, Sumanth D.

Published

2019

33. SDF1 promotes CSPC quiescence via CK1α and GSK3β

Author

Dimova, Neviana, Wysoczynski, Marcin, and Rokosh, Gregg

Subjects

Glycogen Synthase Kinase 3 beta, Myocardium, Stem Cells, Casein Kinase Ialpha, Article, Chemokine CXCL12, Glycogen Synthase Kinase 3, Proto-Oncogene Proteins c-kit, Regeneration, Cyclin D1, Phosphorylation, Stromal Cells, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

A population of c-kit(+) cardiac stem/progenitor cells (CSPC) has been identified in the heart and shown to contribute to myocardial regeneration after infarction. Previously, we have shown the chemokine, stromal cell derived factor 1α (SDF1) is necessary for the myocardial response to infarction where chronic infusion of the CXCR4 antagonist, AMD3100, exacerbated MI. Notably, AMD3100 increased CSPC proliferation. The effect of SDF1 on CSPC proliferation was further investigated in primary cultures of magnetically sorted c-kit(+) CSPCs. SDF1 facilitated CSPC quiescence by blocking cell cycle progression at the G0 to G1 transition. SDF1 decreased casein kinase 1α (CK1α) consequently attenuating β-catenin phosphorylation, destabilization, and degradation. Increased levels of β-catenin with SDF1 were effective, increasing TCF/LEF reporter activity. SDF downregulation of CK1α was dependent on proteasomal degradation and decreased mRNA expression. CK1α siRNA knockdown verified SDF1-dependent CSPC quiescence requires CK1α downregulation and stablilization of β-catenin. Conversely, β-catenin knockdown increased CSPC proliferation. SDF1 also increased GSK3β Y216 phosphorylation responsible for increased activity. SDF1 mediated CK1α downregulation and increase in GSK3β activity affected cell cycle through Bmi-1 downregulation, increased cyclin D1 phosphorylation, and decreased cyclin D1 levels. In conclusion, SDF1 exerts a quiescent effect on resident c-kit(+) CSPCs by decreasing CK1α levels, increasing GSK3β activity, stabilizing β-catenin, and affecting regulation of the cell cycle through Bmi-1 and cyclin D1. SDF1-dependent quiescence is an important factor in stem and progenitor cell preservation under basal conditions, however, with stress or injury in which SDF1 is elevated, quiescence may limit expansion and contribution to myocardial regeneration.

Published

2014

34. Sema6Dacts downstream of bone morphogenetic protein signalling to promote atrioventricular cushion development in mice

Author

Peng, Yin, primary, Song, Lanying, additional, Li, Ding, additional, Kesterson, Robert, additional, Wang, Jianbo, additional, Wang, Lizhong, additional, Rokosh, Gregg, additional, Wu, Bingruo, additional, Wang, Qin, additional, and Jiao, Kai, additional

Published

2016

35. Long-Term Outcome of Administration of c-kit POS Cardiac Progenitor Cells After Acute Myocardial Infarction

Author

Tang, Xian-Liang, primary, Li, Qianhong, additional, Rokosh, Gregg, additional, Sanganalmath, Santosh K., additional, Chen, Ning, additional, Ou, Qinghui, additional, Stowers, Heather, additional, Hunt, Greg, additional, and Bolli, Roberto, additional

Published

2016

36. Evidence for the involvement of sphingosine-1-phosphate in the homing and engraftment of hematopoietic stem cells to bone marrow

Author

Adamiak, Mateusz, primary, Borkowska, Sylwia, additional, Wysoczynski, Marcin, additional, Suszynska, Malwina, additional, Kucia, Magda, additional, Rokosh, Gregg, additional, Abdel-Latif, Ahmed, additional, Ratajczak, Janina, additional, and Ratajczak, Mariusz Z., additional

Published

2015

37. Effects of Intracoronary Infusion of Escalating Doses of Cardiac Stem Cells in Rats With Acute Myocardial Infarction

Author

Tang, Xian-Liang, primary, Rokosh, Gregg, additional, Sanganalmath, Santosh K., additional, Tokita, Yukichi, additional, Keith, Matthew C.L., additional, Shirk, Gregg, additional, Stowers, Heather, additional, Hunt, Gregory N., additional, Wu, Wenjian, additional, Dawn, Buddhadeb, additional, and Bolli, Roberto, additional

Published

2015

38. DOSE-DEPENDENT EFFECTS OF INTRACORONARY CARDIAC STEM CELLS IN RATS WITH ACUTE MYOCARDIAL INFARCTION

Author

Tang, Xian-Liang, primary, Rokosh, Gregg, additional, Sanganalmath, Santosh K., additional, Shirk, Gregg, additional, Stowers, Heather, additional, Hunt, Gregory N., additional, Dawn, Buddhadeb, additional, and Bolli, Roberto, additional

Published

2015

39. Feasibility Study of Particulate Extracellular Matrix (P-ECM) and Left Ventricular Assist Device (HVAD) Therapy in Chronic Ischemic Heart Failure Bovine Model

Author

Soucy, Kevin G., primary, Smith, Erin F., additional, Monreal, Gretel, additional, Rokosh, Gregg, additional, Keller, Brad B., additional, Yuan, Fangping, additional, Matheny, Robert G., additional, Fallon, Anna M., additional, Lewis, Beecher C., additional, Sherwood, Leslie C., additional, Sobieski, Michael A., additional, Giridharan, Guruprasad A., additional, Koenig, Steven C., additional, and Slaughter, Mark S., additional

Published

2015

40. Cardiac Gene Expression

Author

Zhang Jun and Rokosh Gregg

Published

2007

41. Elevating CXCR7 Improves Angiogenic Function of EPCs via Akt/GSK-3β/Fyn-Mediated Nrf2 Activation in Diabetic Limb Ischemia.

Author

Xiaozhen Dai, Xiaoqing Yan, Jun Zeng, Jing Chen, Yuehui Wang, Jun Chen, Yan Li, Barati, Michelle T., Wintergerst, Kupper A., Kejian Pan, Nystoriak, Matthew A., Conklin, Daniel J., Rokosh, Gregg, Epstein, Paul N., Xiaokun Li, and Yi Tan

Published

2017

42. Abstract 15555: Administration of c-Kit+ Cardiac Stem Cells (CSCs) Results in Increased Proliferation and Cardiac Content of CSCs 1 Year Later

Author

Li, Qianhong, primary, Chen, Ning, additional, Luo, Li, additional, Ou, Qinghui, additional, Xie, Wei, additional, Hunt, Gregory N, additional, Tang, Xian-Liang, additional, Rokosh, Gregg D, additional, and Bolli, Roberto, additional

Published

2014

43. Complement Component 3 is Necessary to Preserve Myocardium and Myocardial Function in Chronic Myocardial Infarction

Author

Wysoczynski, Marcin, primary, Solanki, Mitesh, additional, Borkowska, Sylwia, additional, van Hoose, Patrick, additional, Brittian, Kenneth R., additional, Prabhu, Sumanth D., additional, Ratajczak, Mariusz Z., additional, and Rokosh, Gregg, additional

Published

2014

44. Identification of Heme Oxygenase 1 (HO-1) as a Novel Negative Regulator of Mobilization of Hematopoietic Stem/Progenitor Cells

Author

Wysoczynski, Marcin, primary, Ratajczak, Janina, additional, Pedziwiatr, Daniel, additional, Rokosh, Gregg, additional, Bolli, Roberto, additional, and Ratajczak, Mariusz Z., additional

Published

2014

45. Abstract 132: Cardiomyocyte Specific Conditional Overexpression Of Stromal Cell Derived Factor 1 Facilitates Cardiac Regeneration After Permanent Coronary Artery Ligation In Mice.

Author

Obal, Detlef, primary, Brittian, Kenneth, additional, Book, Michael, additional, Bhatnagar, Aruni, additional, Guo, Yiru, additional, Bolli, Roberto, additional, and Rokosh, Gregg, additional

Published

2014

46. Abstract 22: CXCR4 Expression on Endogenous Bone Marrow Stem/Progenitor Cells is Crucial for Preservation of Myocardial Function After MI

Author

Wysoczynski, Marcin, primary, Solanki, Mitesh, additional, Ponnapureddy, Rakesh, additional, Gadde, Rakesh, additional, Bolli, Roberto, additional, and Rokosh, Gregg, additional

Published

2014

47. Co-Activation of Nuclear Factor-κB and Myocardin/Serum Response Factor Conveys the Hypertrophy Signal of High Insulin Levels in Cardiac Myoblasts

Author

Madonna, Rosalinda, primary, Geng, Yong-Jian, additional, Bolli, Roberto, additional, Rokosh, Gregg, additional, Ferdinandy, Peter, additional, Patterson, Cam, additional, and De Caterina, Raffaele, additional

Published

2014

48. Investigating oxidative modification of anti‐oxidant enzymes and protein carbonylation as mechanisms of cigarette smoke‐induced cardiac stem cell damage (732.6)

Author

Sumanasekera, Wasana, primary, Dao, Halle, additional, Gyamfi, Felix, additional, Shultz, Kadi, additional, Le, Uyen, additional, and Rokosh, Gregg, additional

Published

2014

49. Stromal Cell Derived Factor-1α Promotes C-Kit+ Cardiac Stem/Progenitor Cell Quiescence Through Casein Kinase 1α and GSK3β

Author

Dimova, Neviana, primary, Wysoczynski, Marcin, additional, and Rokosh, Gregg, additional

Published

2014

50. Abstract 18382: Stromal Cell Derived Factor-1Alpha Promotes C-kit+ Cardiac Stem/Progenitor Cell Quiescence Through Casein Kinase1Alpha and GSK3beta

Author

Dimova, Neviana, primary, Wysoczynski, Marcin, additional, and Rokosh, Gregg, additional

Published

2013