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Literature DB >> 32228320

The neuronal (pro)renin receptor and astrocyte inflammation in the central regulation of blood pressure and blood glucose in mice fed a high-fat diet.

Caleb J Worker^1,2, Wencheng Li³, Cheng-Yuan Feng⁴, Lucas A C Souza^1,2, Ariana Julia B Gayban^1,2, Silvana G Cooper^1,2, Sanzida Afrin^1,2, Samantha Romanick^2,4, Bradley S Ferguson^2,4, Yumei Feng Earley^1,2.

Abstract

We report here that the neuronal (pro)renin receptor (PRR), a key component of the brain renin-angiotensin system (RAS), plays a critical role in the central regulation of high-fat-diet (HFD)-induced metabolic pathophysiology. The neuronal PRR is known to mediate formation of the majority of angiotensin (ANG) II, a key bioactive peptide of the RAS, in the central nervous system and to regulate blood pressure and cardiovascular function. However, little is known about neuronal PRR function in overnutrition-related metabolic physiology. Here, we show that PRR deletion in neurons reduces blood pressure, neurogenic pressor activity, and fasting blood glucose and improves glucose tolerance without affecting food intake or body weight following a 16-wk HFD. Mechanistically, we found that a HFD increases levels of the PRR ligand (pro)renin in the circulation and hypothalamus and of ANG II in the hypothalamus, indicating activation of the brain RAS. Importantly, PRR deletion in neurons reduced astrogliosis and activation of the astrocytic NF-κB p65 (RelA) in the arcuate nucleus and the ventromedial nucleus of the hypothalamus. Collectively, our findings indicate that the neuronal PRR plays essential roles in overnutrition-related metabolic pathophysiology.

Entities: Chemical

Keywords: (pro)renin receptor; astrocyte inflammation; diet-induced diabetes; neural mechanism; renin-angiotensin system

Mesh：

Substances：

Year: 2020 PMID： 32228320 PMCID： PMC7272727 DOI： 10.1152/ajpendo.00406.2019

Source DB: PubMed Journal: Am J Physiol Endocrinol Metab ISSN： 0193-1849 Impact factor: 4.310

64 in total

1. Exposure to a high-fat diet alters leptin sensitivity and elevates renal sympathetic nerve activity and arterial pressure in rabbits.

Authors: Larissa J Prior; Nina Eikelis; James A Armitage; Pamela J Davern; Sandra L Burke; Jean-Pierre Montani; Benjamin Barzel; Geoffrey A Head
Journal: Hypertension Date: 2010-03-01 Impact factor: 10.190

Review 2. Autonomic Regulation of Glucose Homeostasis: a Specific Role for Sympathetic Nervous System Activation.

Authors: Revathy Carnagarin; Vance B Matthews; Lakshini Y Herat; Jan K Ho; Markus P Schlaich
Journal: Curr Diab Rep Date: 2018-09-19 Impact factor: 4.810

3. Astrogliosis in the brain of obese Zucker rat: a model of metabolic syndrome.

Authors: Daniele Tomassoni; Innocent Ejike Nwankwo; Maria Gabriella Gabrielli; Siddhartha Bhatt; Abdul Bari Muhammad; Mustafa F Lokhandwala; Seyed Khosrow Tayebati; Francesco Amenta
Journal: Neurosci Lett Date: 2013-03-29 Impact factor: 3.046

4. Suppression of Resting Metabolism by the Angiotensin AT2 Receptor.

Authors: Nicole K Littlejohn; Henry L Keen; Benjamin J Weidemann; Kristin E Claflin; Kevin V Tobin; Kathleen R Markan; Sungmi Park; Meghan C Naber; Francoise A Gourronc; Nicole A Pearson; Xuebo Liu; Donald A Morgan; Aloysius J Klingelhutz; Matthew J Potthoff; Kamal Rahmouni; Curt D Sigmund; Justin L Grobe
Journal: Cell Rep Date: 2016-07-28 Impact factor: 9.423

5. Brain-targeted (pro)renin receptor knockdown attenuates angiotensin II-dependent hypertension.

Authors: Wencheng Li; Hua Peng; Theresa Cao; Ryosuke Sato; Sarah J McDaniels; Hiroyuki Kobori; L Gabriel Navar; Yumei Feng
Journal: Hypertension Date: 2012-04-23 Impact factor: 10.190

Review 6. Metabolic rate regulation by the renin-angiotensin system: brain vs. body.

Authors: Justin L Grobe; Kamal Rahmouni; Xuebo Liu; Curt D Sigmund
Journal: Pflugers Arch Date: 2012-04-12 Impact factor: 3.657

Review 7. CNS regulation of glucose homeostasis.

Authors: Carol K L Lam; Madhu Chari; Tony K T Lam
Journal: Physiology (Bethesda) Date: 2009-06

Review 8. The prorenin receptor in the cardiovascular system and beyond.

Authors: Matthew Hennrikus; Alexis A Gonzalez; Minolfa C Prieto
Journal: Am J Physiol Heart Circ Physiol Date: 2017-11-03 Impact factor: 4.733

9. Neuron-specific (pro)renin receptor knockout prevents the development of salt-sensitive hypertension.

Authors: Wencheng Li; Hua Peng; Eamonn P Mehaffey; Christie D Kimball; Justin L Grobe; Jeanette M G van Gool; Michelle N Sullivan; Scott Earley; A H Jan Danser; Atsuhiro Ichihara; Yumei Feng
Journal: Hypertension Date: 2013-11-18 Impact factor: 10.190

10. Astrocyte IKKβ/NF-κB signaling is required for diet-induced obesity and hypothalamic inflammation.

Authors: J D Douglass; M D Dorfman; R Fasnacht; L D Shaffer; J P Thaler
Journal: Mol Metab Date: 2017-01-28 Impact factor: 7.422

6 in total

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Authors: Deanna Necula; Frances S Cho; Andrea He; Jeanne T Paz
Journal: J Comp Neurol Date: 2021-11-01 Impact factor: 3.215

Review 2. Interplay Between Systemic Metabolic Cues and Autonomic Output: Connecting Cardiometabolic Function and Parasympathetic Circuits.

Authors: Liliana Espinoza; Stephanie Fedorchak; Carie R Boychuk
Journal: Front Physiol Date: 2021-03-11 Impact factor: 4.566

Review 6. The Arcuate Nucleus of the Hypothalamus and Metabolic Regulation: An Emerging Role for Renin-Angiotensin Pathways.

Authors: Darren Mehay; Yuval Silberman; Amy C Arnold
Journal: Int J Mol Sci Date: 2021-06-30 Impact factor: 5.923