Abstract

Angiotensin ll-infused rats exhibit increases in renal angiotensinogen (AGT) mRNA and protein, and this may be one mechanism by which low levels of circulating angiotensin II induce progressive hypertension. Using an interesting transgenic mouse model in which human AGT is expressed only in the kidney, it is possible to enhance angiotensin II content only in the kidney without altering circulating levels of angiotensin II. The goal of this research project is to define and characterize the mechanisms responsible for the intrarenal enhancement of AGT expression by angiotensin II. My hypothesis is that the augmented intrarenal AGT expression by angiotensin II involves angiotensin II type 1 (AT1) receptor-dependent and c-Src/MAPK-, ROS-, or Rho-kinase/NFkB-dependent pathways. In accord with this hypothesis, the following specific aims are targeted for the proposed period of support: 1) To demonstrate that chronic overproduction of angiotensin II only in the kidney elicited by stimulating human AGT expression in the presence of human renin will cause increases in endogenous mouse AGT mRNA expression as well as endogenous mouse AGT protein levels in proximal tubular cells leading to slowly progressive hypertension in gene-targeted male mice. 2) To demonstrate that subacute overproduction of angiotensin II only in the kidney elicited by stimulating human AGT expression in the presence of human renin will cause increases in endogenous mouse AGT mRNA expression as well as endogenous mouse AGT protein levels in proximal tubular cells leading to progressive hypertension in gene-targeted female mice. 3) To demonstrate that the enhancement of the endogenous mouse AGT production in proximal tubular cells involves AT1 receptor-mediated mechanisms in gene- targeted female mice. 4) To determine if AT1 receptor-dependent AGT enhancement by angiotensin II involves c-Src/MAPK-, ROS-, or Rho-kinase/NFkB-dependent mechanisms in primary-cultured mouse proximal tubular cells. 5) To examine whether the 5'-upstream promoter region of mouse AGT gene has positive responsive element(s) by angiotensin II. The results obtained from the proposed studies will provide important information regarding the intrarenal augmentation of AGT expression by angiotensin II, which may help to develop a novel concept to treat angiotensin ll-dependent hypertensive subjects and to establish the importance of the tubular renin-angiotensin system in the genesis of angiotensin ll-dependent hypertension.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK072408-05
Application #
7777798
Study Section
Pathobiology of Kidney Disease Study Section (PBKD)
Program Officer
Ketchum, Christian J
Project Start
2006-03-01
Project End
2012-02-28
Budget Start
2010-03-01
Budget End
2012-02-28
Support Year
5
Fiscal Year
2010
Total Cost
$229,430
Indirect Cost

  Institution

Name
Tulane University
Department
Physiology
Type
Schools of Medicine
DUNS #
053785812
City
New Orleans
State
LA
Country
United States
Zip Code
70118

  Publications

Nishiyama, Akira; Kobori, Hiroyuki (2018) Independent regulation of renin-angiotensin-aldosterone system in the kidney. Clin Exp Nephrol 22:1231-1239
Takenaka, Tsuneo; Kobori, Hiroyuki; Miyazaki, Takashi et al. (2018) Klotho protein supplementation reduces blood pressure and renal hypertrophy in db/db mice, a model of type 2 diabetes. Acta Physiol (Oxf) :e13190
Hasan, Arif U; Ohmori, Koji; Hashimoto, Takeshi et al. (2018) PPAR? activation mitigates glucocorticoid receptor-induced excessive lipolysis in adipocytes via homeostatic crosstalk. J Cell Biochem 119:4627-4635
Li, Lei; Konishi, Yoshio; Morikawa, Takashi et al. (2018) Effect of a SGLT2 inhibitor on the systemic and intrarenal renin-angiotensin system in subtotally nephrectomized rats. J Pharmacol Sci 137:220-223
Takenaka, Tsuneo; Inoue, Tsutomu; Miyazaki, Takashi et al. (2018) Klotho Ameliorates Medullary Fibrosis and Pressure Natriuresis in Hypertensive Rat Kidneys. Hypertension 72:1151-1159
Kohagura, Kentaro; Arima, Hisatomi; Miyasato, Hitoshi et al. (2018) Add-On Effect of Angiotensin Receptor Blockade (Candesartan) on Clinical Remission in Active IgA Nephropathy Patients Treated with Steroid Pulse Therapy and Tonsillectomy: a Randomized, Parallel-Group Comparison Trial. Kidney Blood Press Res 43:780-792
Takami, Takeshi; Okada, Sadanori; Saito, Yoshihiko et al. (2018) Effects of Olmesartan and Azilsartan on Albuminuria and the Intrarenal Renin-Angiotensin System. World J Res Rev 6:7-10
Rahman, Asadur; Hasan, Arif Ul; Nishiyama, Akira et al. (2018) Altered Circadian Timing System-Mediated Non-Dipping Pattern of Blood Pressure and Associated Cardiovascular Disorders in Metabolic and Kidney Diseases. Int J Mol Sci 19:
Kwakernaak, A J; Roksnoer, L C; Lambers Heerspink, H J et al. (2017) Effects of Direct Renin Blockade on Renal & Systemic Hemodynamics and on RAAS Activity, in Weight Excess and Hypertension: A Randomized Clinical Trial. PLoS One 12:e0169258
Isobe-Sasaki, Yukako; Fukuda, Michio; Ogiyama, Yoshiaki et al. (2017) Sodium balance, circadian BP rhythm, heart rate variability, and intrarenal renin-angiotensin-aldosterone and dopaminergic systems in acute phase of ARB therapy. Physiol Rep 5:

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