Selective Deletion of Renin-b in the Brain Alters Drinking and Metabolism

Shinohara, Keisuke; Nakagawa, Pablo; Gomez, Javier A.; Morgan, Donald A.; Littlejohn, Nicole K; Folchert, Matthew D; Weidemann, Benjamin J.; Liu, Xuebo; Walsh, Susan A.; Ponto, Laura L. Boles; Rahmouni, Kamal; Grobe, Justin L

doi:10.1161/hypertensionaha.117.09923

Cited by 19 publications

(19 citation statements)

References 39 publications

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“…Cellular and molecular studies have reported that all RAS genes and their promoter regions are active in the brain, while other evidences also revealed the de novo production of RAS components in the brain (Hermann et al, 1987;Fuxe et al, 1980). The establishment of brain RAS is also supported by several pharmacological inhibition studies (Shinohara et al, 2016(Shinohara et al, , 2017. Similarly, it has been found that all the components required for the synthesis of angiotensin peptides are synthesized locally within the brain (Harding et al, 1988).…”

Section: The Components Of Brain Renin Angiotensin Systemmentioning

confidence: 93%

“…However, van Thiel et al suggested that intracellular renin could be the key to generation of angiotensins in the brain, and coordinate other non-RAS functions (van Thiel et al, 2017). In addition, the impaired activity or expression of the brain renin may cause neurogenic hypertension, altering drinking and metabolism (Shinohara et al, 2016(Shinohara et al, , 2017. Few studies though still suggest that the expression of renin is controversial in the brain .…”

Section: Brain Renin/pro-reninmentioning

confidence: 99%

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Role of brain renin angiotensin system in neurodegeneration: An update

Abiodun¹,

Ola²

2020

Saudi Journal of Biological Sciences

110

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a b s t r a c tRenin angiotensin system (RAS) is an endocrine system widely known for its physiological roles in electrolyte homeostasis, body fluid volume regulation and cardiovascular control in peripheral circulation. However, brain RAS is an independent form of RAS expressed locally in the brain, which is known to be involved in brain functions and disorders. There is strong evidence for a major involvement of excessive brain angiotensin converting enzyme (ACE)/Angiotensin II (Ang II)/Angiotensin type-1 receptor (AT-1R) axis in increased activation of oxidative stress, apoptosis and neuroinflammation causing neurodegeneration in several brain disorders. Numerous studies have demonstrated strong neuroprotective effects by blocking AT1R in these brain disorders. Additionally, the angiotensin converting enzyme 2 (ACE2)/Angiotensin (1-7)/Mas receptor (MASR), is another axis of brain RAS which counteracts the damaging effects of ACE/Ang II/AT1R axis on neurons in the brain. Thus, angiotensin II receptor blockers (ARBs) and activation of ACE2/Angiotensin (1-7)/MASR axis may serve as an exciting and novel method for neuroprotection in several neurodegenerative diseases. Here in this review article, we discuss the expression of RAS in the brain and highlight how altered RAS level may cause neurodegeneration. Understanding the pathophysiology of RAS and their links to neurodegeneration has enormous potential to identify potentially effective pharmacological tools to treat neurodegenerative diseases in the brain.

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Section: The Components Of Brain Renin Angiotensin Systemmentioning

confidence: 93%

Section: Brain Renin/pro-reninmentioning

confidence: 99%

Role of brain renin angiotensin system in neurodegeneration: An update

Abiodun¹,

Ola²

2020

Saudi Journal of Biological Sciences

110

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“…In vitro and in vivo experiments suggest this form of renin is indeed active (546,555,973). Nevertheless, the physiological significance of endogenous intracellular renin remains unclear because, surprisingly, deletion of renin-b caused hypertension and increased activity of the brain RAS (954,955).…”

Section: A Localization Of Ras Components In Brainmentioning

confidence: 99%

Angiotensin II Signal Transduction: An Update on Mechanisms of Physiology and Pathophysiology

Forrester

Booz

Sigmund

et al. 2018

Physiological Reviews

Self Cite

778

780

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The renin-angiotensin-aldosterone system plays crucial roles in cardiovascular physiology and pathophysiology. However, many of the signaling mechanisms have been unclear. The angiotensin II (ANG II) type 1 receptor (ATR) is believed to mediate most functions of ANG II in the system. ATR utilizes various signal transduction cascades causing hypertension, cardiovascular remodeling, and end organ damage. Moreover, functional cross-talk between ATR signaling pathways and other signaling pathways have been recognized. Accumulating evidence reveals the complexity of ANG II signal transduction in pathophysiology of the vasculature, heart, kidney, and brain, as well as several pathophysiological features, including inflammation, metabolic dysfunction, and aging. In this review, we provide a comprehensive update of the ANG II receptor signaling events and their functional significances for potential translation into therapeutic strategies. ATR remains central to the system in mediating physiological and pathophysiological functions of ANG II, and participation of specific signaling pathways becomes much clearer. There are still certain limitations and many controversies, and several noteworthy new concepts require further support. However, it is expected that rigorous translational research of the ANG II signaling pathways including those in large animals and humans will contribute to establishing effective new therapies against various diseases.

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“…These data demonstrate that the secreted version of renin (Renin-a) is dispensable within the brain for cardiovascular, fluid, and metabolic homeostasis. Knockout of renin-b resulted in an increase in BP and sympathetic nerve activity and impaired baroreflex sensitivity as demonstrated by Shinohara et al [6]. These authors proposed the hypothesis that in the brain, renin-b inhibits renin-a expression under normal conditions.…”

Section: Renin and Prorenin Receptormentioning

confidence: 87%

“…Moreover, the authors showed an increase in Ang II activity in renin knockout mice, suggesting that Ang II formation might occur by other proteases, such as cathepsin [84,85]. In addition to the above cardiovascular effects, Shinohara et al [6] recently demonstrated that Renin-b is also important in the regulation of energy homeostasis and thermogenesis. The authors showed an increase in resting metabolic rate and SNA to brown adipose tissue in renin-b null mice.…”

Section: Renin and Prorenin Receptormentioning

confidence: 99%

Integrative Physiological Aspects of Brain RAS in Hypertension

2018

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Studies using neuronal or glial-specifc mouse models have allowed for greater understanding into the site-specific expression and role centrally expressed RAS proteins have on BP regulation. While all components of the RAS have been identified in cardiovascular regulatory regions of the brain, their actions may be site specific. In a number of animal models of hypertension, reduction in Ang II-mediated signaling, or upregulation of the central ACE2/Ang 1-7 pathway, has been shown to reduce BP, via a reduction in sympathetic signaling and increase parasympathetic tone, respectively. Emerging evidence also suggests that, in part, the female protective phenotype against hypertension may be due to inceased ACE2 activity within cardiovascular regulatory regions of the brain, potentially mediated by estrogen. Increasing evidence suggests the importance of a central renin-angiotensin pathway, although its localization and the mechanisms involved in its expression and regulation still need to be clarified and more precisely defined. All reported studies/experiments with human or animal subjects performed by the authors have been previously published and complied with all applicable ethical standards (including the Helsinki declaration and its amendments, institutional/national research committee standards, and international/national/institutional guidelines).

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Selective Deletion of Renin-b in the Brain Alters Drinking and Metabolism

Cited by 19 publications

References 39 publications

Role of brain renin angiotensin system in neurodegeneration: An update

Role of brain renin angiotensin system in neurodegeneration: An update

Angiotensin II Signal Transduction: An Update on Mechanisms of Physiology and Pathophysiology

Integrative Physiological Aspects of Brain RAS in Hypertension

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