Kathy Griendling
Kathy Griendling
Professor of Medicine, Emory University
Verified email at emory.edu
Cited by
Cited by
NAD (P) H oxidase: role in cardiovascular biology and disease
KK Griendling, D Sorescu, M Ushio-Fukai
Circulation research 86 (5), 494-501, 2000
Angiotensin II stimulates NADH and NADPH oxidase activity in cultured vascular smooth muscle cells.
KK Griendling, CA Minieri, JD Ollerenshaw, RW Alexander
Circulation research 74 (6), 1141-1148, 1994
Angiotensin II-mediated hypertension in the rat increases vascular superoxide production via membrane NADH/NADPH oxidase activation. Contribution to alterations of vasomotor tone.
S Rajagopalan, S Kurz, T Münzel, M Tarpey, BA Freeman, KK Griendling, ...
The Journal of clinical investigation 97 (8), 1916-1923, 1996
Angiotensin II cell signaling: physiological and pathological effects in the cardiovascular system
PK Mehta, KK Griendling
American Journal of Physiology-Cell Physiology 292 (1), C82-C97, 2007
Cell transformation by the superoxide-generating oxidase Mox1
YA Suh, RS Arnold, B Lassegue, J Shi, X Xu, D Sorescu, AB Chung, ...
Nature 401 (6748), 79-82, 1999
Role of oxidative stress in atherosclerosis
D Harrison, KK Griendling, U Landmesser, B Hornig, H Drexler
The American journal of cardiology 91 (3), 7-11, 2003
Isolation of a cDNA encoding the vascular type-1 angiotensin II receptor
TJ Murphy, RW Alexander, KK Griendling, MS Runge, KE Bernstein
Nature 351 (6323), 233-236, 1991
Mechanisms underlying endothelial dysfunction in diabetes mellitus
U Hink, H Li, H Mollnau, M Oelze, E Matheis, M Hartmann, M Skatchkov, ...
Circulation research 88 (2), e14-e22, 2001
Reactive oxygen species in the vasculature: molecular and cellular mechanisms
Y Taniyama, KK Griendling
Hypertension 42 (6), 1075-1081, 2003
Oxidative stress and cardiovascular injury: Part I: basic mechanisms and in vivo monitoring of ROS
KK Griendling, GA FitzGerald
Circulation 108 (16), 1912-1916, 2003
Modulation of protein kinase activity and gene expression by reactive oxygen species and their role in vascular physiology and pathophysiology
KK Griendling, D Sorescu, B Lassègue, M Ushio-Fukai
Arteriosclerosis, thrombosis, and vascular biology 20 (10), 2175-2183, 2000
Novel gp91phox Homologues in Vascular Smooth Muscle Cells: nox1 Mediates Angiotensin II–Induced Superoxide Formation and Redox-Sensitive Signaling …
B Lassègue, D Sorescu, K Szöcs, QQ Yin, M Akers, Y Zhang, SL Grant, ...
Circulation research 88 (9), 888-894, 2001
Superoxide production and expression of nox family proteins in human atherosclerosis
D Sorescu, D Weiss, B Lassègue, RE Clempus, K Szöcs, GP Sorescu, ...
Circulation 105 (12), 1429-1435, 2002
P22phox is a critical component of the superoxide-generating NADH/NADPH oxidase system and regulates angiotensin iiinduced hypertrophy in vascular smooth muscle cells
M Ushio-Fukai, AM Zafari, T Fukui, N Ishizaka, KK Griendling
Journal of Biological Chemistry 271 (38), 23317-23321, 1996
Angiotensin II stimulation of NAD (P) H oxidase activity: upstream mediators
PN Seshiah, DS Weber, P Rocic, L Valppu, Y Taniyama, KK Griendling
Circulation research 91 (5), 406-413, 2002
Nox proteins in signal transduction
DI Brown, KK Griendling
Free Radical Biology and Medicine 47 (9), 1239-1253, 2009
Combating oxidative stress in vascular disease: NADPH oxidases as therapeutic targets
GR Drummond, S Selemidis, KK Griendling, CG Sobey
Nature reviews Drug discovery 10 (6), 453-471, 2011
Increased NADH-oxidase–mediated superoxide production in the early stages of atherosclerosis: evidence for involvement of the renin-angiotensin system
A Warnholtz, G Nickenig, E Schulz, R Macharzina, JH Bräsen, ...
Circulation 99 (15), 2027-2033, 1999
Oxidative stress and cardiovascular injury: Part II: animal and human studies
KK Griendling, GA FitzGerald
Circulation 108 (17), 2034-2040, 2003
The vascular NAD (P) H oxidases as therapeutic targets in cardiovascular diseases
H Cai, KK Griendling, DG Harrison
Trends in pharmacological sciences 24 (9), 471-478, 2003
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