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Literature DB >> 32293069

Sorting nexin 1 loss results in increased oxidative stress and hypertension.

Jian Yang¹, Laureano D Asico^2,3, Amber L Beitelshees⁴, Jun B Feranil², Xiaoyan Wang^2,3, John E Jones², Ines Armando^2,3, Santiago G Cuevas^2,3, Gary L Schwartz⁵, John G Gums^6,7, Arlene B Chapman⁸, Stephen T Turner⁵, Eric Boerwinkle⁹, Rhonda M Cooper-DeHoff⁶, Julie A Johnson⁶, Robin A Felder¹⁰, Edward J Weinman^2,11, Chunyu Zeng^12,13, Pedro A Jose^2,3,14, Van Anthony M Villar^2,3.

Abstract

Acute renal depletion of sorting nexin 1 (SNX1) in mice results in blunted natriuretic response and hypertension due to impaired dopamine D5 receptor (D5 R) activity. We elucidated the molecular mechanisms for these phenotypes in Snx1-/- mice. These mice had increased renal expressions of angiotensin II type 1 receptor (AT1 R), NADPH oxidase (NOX) subunits, D5 R, and NaCl cotransporter. Basal reactive oxygen species (ROS), NOX activity, and blood pressure (BP) were also higher in Snx1-/- mice, which were normalized by apocynin, a drug that prevents NOX assembly. Renal proximal tubule (RPT) cells from hypertensive (HT) Euro-American males had deficient SNX1 activity, impaired D5 R endocytosis, and increased ROS compared with cells from normotensive (NT) Euro-American males. siRNA-mediated depletion of SNX1 in RPT cells from NT subjects led to a blunting of D5 R agonist-induced increase in cAMP production and decrease in Na+ transport, effects that were normalized by over-expression of SNX1. Among HT African-Americans, three of the 12 single nucleotide polymorphisms interrogated for the SNX1 gene were associated with a decrease in systolic BP in response to hydrochlorothiazide (HCTZ). The results illustrate a new paradigm for the development of hypertension and imply that the trafficking protein SNX1 may be a crucial determinant for hypertension and response to antihypertensive therapy.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: dopamine D5 receptor; hypertension; oxidative stress; renal proximal tubule cells; sorting nexin 1

Year: 2020 PMID： 32293069 PMCID： PMC7643053 DOI： 10.1096/fj.201902448R

Source DB: PubMed Journal: FASEB J ISSN： 0892-6638 Impact factor: 5.191

50 in total

1. Lack of renal dopamine D5 receptors promotes hypertension.

Authors: Laureano Asico; Xiaojie Zhang; Jifu Jiang; David Cabrera; Crisanto S Escano; David R Sibley; Xiaoyan Wang; Yu Yang; Roslyn Mannon; John E Jones; Ines Armando; Pedro A Jose
Journal: J Am Soc Nephrol Date: 2010-11-04 Impact factor: 10.121

2. Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase.

Authors: Yu Yang; Yanrong Zhang; Santiago Cuevas; Van Anthony Villar; Crisanto Escano; Laureano D Asico; Peiying Yu; David K Grandy; Robin A Felder; Ines Armando; Pedro A Jose
Journal: Free Radic Biol Med Date: 2012-05-23 Impact factor: 7.376

3. D5 dopamine receptor regulation of phospholipase D.

Authors: Zhiwei Yang; Laureano D Asico; Peiying Yu; Zheng Wang; John E Jones; Ren-Kui Bai; David R Sibley; Robin A Felder; Pedro A Jose
Journal: Am J Physiol Heart Circ Physiol Date: 2005-01 Impact factor: 4.733

4. Essential Role of NADPH Oxidase-Dependent Production of Reactive Oxygen Species in Maintenance of Sustained B Cell Receptor Signaling and B Cell Proliferation.

Authors: Yang-Yang Feng; Miao Tang; Mitsuhiro Suzuki; Chinthika Gunasekara; Yuki Anbe; Yuichi Hiraoka; Jun Liu; Helmut Grasberger; Mamoru Ohkita; Yasuo Matsumura; Ji-Yang Wang; Takeshi Tsubata
Journal: J Immunol Date: 2019-03-13 Impact factor: 5.422

5. Blood pressure and risk of cancer incidence and mortality in the Metabolic Syndrome and Cancer Project.

Authors: Tanja Stocks; Mieke Van Hemelrijck; Jonas Manjer; Tone Bjørge; Hanno Ulmer; Göran Hallmans; Björn Lindkvist; Randi Selmer; Gabriele Nagel; Steinar Tretli; Hans Concin; Anders Engeland; Håkan Jonsson; Pär Stattin
Journal: Hypertension Date: 2012-02-21 Impact factor: 10.190

6. Sexual dimorphism in cafeteria diet-induced hypertension is associated with gender-related difference in renal leptin receptor down-regulation.

Authors: Gwenn Coatmellec-Taglioni; Jean-Pierre Dausse; Yves Giudicelli; Catherine Ribière
Journal: J Pharmacol Exp Ther Date: 2003-04 Impact factor: 4.030

Review 7. Dopamine and renal function and blood pressure regulation.

Authors: Ines Armando; Van Anthony M Villar; Pedro A Jose
Journal: Compr Physiol Date: 2011-07 Impact factor: 9.090

8. Distinct in vitro interaction pattern of dopamine receptor subtypes with adaptor proteins involved in post-endocytotic receptor targeting.

Authors: Arne Heydorn; Birgitte P Søndergaard; Niels Hadrup; Birgitte Holst; Carol Renfrew Haft; Thue W Schwartz
Journal: FEBS Lett Date: 2004-01-02 Impact factor: 4.124

9. Renal dopaminergic defect in C57Bl/6J mice.

Authors: Crisanto S Escano; Ines Armando; Xiaoyan Wang; Laureano D Asico; Annabelle Pascua; Yu Yang; Zheng Wang; Yuen-Sum Lau; Pedro A Jose
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2009-09-02 Impact factor: 3.619

10. Reduced ENaC activity and blood pressure in mice with genetic knockout of the insulin receptor in the renal collecting duct.

Authors: Lijun Li; R Mayuri Garikepati; Susanna Tsukerman; Donald Kohan; James B Wade; Swasti Tiwari; Carolyn M Ecelbarger
Journal: Am J Physiol Renal Physiol Date: 2012-11-28

4 in total

Review 4. Oxidative Stress and Hypertension.

Authors: Kathy K Griendling; Livia L Camargo; Francisco J Rios; Rhéure Alves-Lopes; Augusto C Montezano; Rhian M Touyz
Journal: Circ Res Date: 2021-04-01 Impact factor: 17.367