Rafal Nazarewicz
Last active: 6/9/2014


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The following timeline graph is generated from all co-authored publications.

Featured publications are shown below:

  1. Nox2-induced production of mitochondrial superoxide in angiotensin II-mediated endothelial oxidative stress and hypertension. Dikalov SI, Nazarewicz RR, Bikineyeva A, Hilenski L, Lassègue B, Griendling KK, Harrison DG, Dikalova AE (2014) Antioxid Redox Signal 20(2): 281-94
    › Primary publication · 24053613 (PubMed) · PMC3887459 (PubMed Central)
  2. Nox2 as a potential target of mitochondrial superoxide and its role in endothelial oxidative stress. Nazarewicz RR, Dikalova AE, Bikineyeva A, Dikalov SI (2013) Am J Physiol Heart Circ Physiol 305(8): H1131-40
    › Primary publication · 23955717 (PubMed) · PMC3798790 (PubMed Central)
  3. Mitochondrial ROS in the prohypertensive immune response. Nazarewicz RR, Dikalov SI (2013) Am J Physiol Regul Integr Comp Physiol 305(2): R98-100
    › Primary publication · 23657641 (PubMed) · PMC3726999 (PubMed Central)
  4. Does scavenging of mitochondrial superoxide attenuate cancer prosurvival signaling pathways? Nazarewicz RR, Dikalova A, Bikineyeva A, Ivanov S, Kirilyuk IA, Grigor'ev IA, Dikalov SI (2013) Antioxid Redox Signal 19(4): 344-9
    › Primary publication · 23373855 (PubMed) · PMC3700017 (PubMed Central)
  5. Rapid and specific measurements of superoxide using fluorescence spectroscopy. Nazarewicz RR, Bikineyeva A, Dikalov SI (2013) J Biomol Screen 18(4): 498-503
    › Primary publication · 23190737 (PubMed) · PMC4210376 (PubMed Central)
  6. Ascorbic acid efficiently enhances neuronal synthesis of norepinephrine from dopamine. May JM, Qu ZC, Nazarewicz R, Dikalov S (2013) Brain Res Bull : 35-42
    › Primary publication · 23022576 (PubMed) · PMC3527656 (PubMed Central)
  7. Angiotensin II-induced production of mitochondrial reactive oxygen species: potential mechanisms and relevance for cardiovascular disease. Dikalov SI, Nazarewicz RR (2013) Antioxid Redox Signal 19(10): 1085-94
    › Primary publication · 22443458 (PubMed) · PMC3771548 (PubMed Central)
  8. Anti-inflammatory activity of Chios mastic gum is associated with inhibition of TNF-alpha induced oxidative stress. Triantafyllou A, Bikineyeva A, Dikalova A, Nazarewicz R, Lerakis S, Dikalov S (2011) Nutr J : 64
    › Primary publication · 21645369 (PubMed) · PMC3127998 (PubMed Central)
  9. Early endosomal antigen 1 (EEA1) is an obligate scaffold for angiotensin II-induced, PKC-alpha-dependent Akt activation in endosomes. Nazarewicz RR, Salazar G, Patrushev N, San Martin A, Hilenski L, Xiong S, Alexander RW (2011) J Biol Chem 286(4): 2886-95
    › Primary publication · 21097843 (PubMed) · PMC3024784 (PubMed Central)
  10. Therapeutic targeting of mitochondrial superoxide in hypertension. Dikalova AE, Bikineyeva AT, Budzyn K, Nazarewicz RR, McCann L, Lewis W, Harrison DG, Dikalov SI (2010) Circ Res 107(1): 106-16
    › Primary publication · 20448215 (PubMed) · PMC2901409 (PubMed Central)
  11. Importance of cytochrome c redox state for ceramide-induced apoptosis of human mammary adenocarcinoma cells. Parihar A, Parihar MS, Nazarewicz R, Ghafourifar P (2010) Biochim Biophys Acta 1800(7): 646-54
    › Primary publication · 20382204 (PubMed)
  12. PGC-1 alpha serine 570 phosphorylation and GCN5-mediated acetylation by angiotensin II drive catalase down-regulation and vascular hypertrophy. Xiong S, Salazar G, San Martin A, Ahmad M, Patrushev N, Hilenski L, Nazarewicz RR, Ma M, Ushio-Fukai M, Alexander RW (2010) J Biol Chem 285(4): 2474-87
    › Primary publication · 19940161 (PubMed) · PMC2807304 (PubMed Central)
  13. Association of mitochondrial nitric oxide synthase activity with respiratory chain complex I. Parihar MS, Nazarewicz RR, Kincaid E, Bringold U, Ghafourifar P (2008) Biochem Biophys Res Commun 366(1): 23-8
    › Primary publication · 18036554 (PubMed) · PMC2211368 (PubMed Central)
  14. Mitochondria in multiple sclerosis. Ghafourifar P, Mousavizadeh K, Parihar MS, Nazarewicz RR, Parihar A, Zenebe WJ (2008) Front Biosci : 3116-26
    › Primary publication · 17981781 (PubMed)
  15. 12(S)-hydroperoxyeicosatetraenoic acid (12-HETE) increases mitochondrial nitric oxide by increasing intramitochondrial calcium. Nazarewicz RR, Zenebe WJ, Parihar A, Parihar MS, Vaccaro M, Rink C, Sen CK, Ghafourifar P (2007) Arch Biochem Biophys 468(1): 114-20
    › Primary publication · 17963719 (PubMed) · PMC2210014 (PubMed Central)
  16. Effect of short-term ketogenic diet on redox status of human blood. Nazarewicz RR, Ziolkowski W, Vaccaro PS, Ghafourifar P (2007) Rejuvenation Res 10(4): 435-40
    › Primary publication · 17663642 (PubMed)
  17. Hypoxia/reoxygenation of isolated rat heart mitochondria causes cytochrome c release and oxidative stress; evidence for involvement of mitochondrial nitric oxide synthase. Zenebe WJ, Nazarewicz RR, Parihar MS, Ghafourifar P (2007) J Mol Cell Cardiol 43(4): 411-9
    › Primary publication · 17597148 (PubMed) · PMC2045686 (PubMed Central)
  18. Tamoxifen induces oxidative stress and mitochondrial apoptosis via stimulating mitochondrial nitric oxide synthase. Nazarewicz RR, Zenebe WJ, Parihar A, Larson SK, Alidema E, Choi J, Ghafourifar P (2007) Cancer Res 67(3): 1282-90
    › Primary publication · 17283165 (PubMed)