Effects of ramelteon on cardiac injury and adipose tissue pathology in rats with metabolic syndrome

Uchinaka, Ayako; Kawashima, Yuri; Sano, Yuki; Ito, Shogo; Sano, Yusuke; Nagasawa, Kai; Matsuura, Natsumi; Yoneda, Mamoru; Yamada, Yoshio; Murohara, Toyoaki; Nagata, Kazuya

doi:10.1111/nyas.13578

Cited by 9 publications

(9 citation statements)

References 64 publications

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“…Melatonin has clinical utility in the management of cardiac hypertrophy and affords protection in an array of different preclinical models, with effects variously attributed, including to an increase in PGC-1b [78], cyclophilin A/CD147 [79], antioxidant effects [80], retinoic acid receptor-related orphan receptor-α (RORα) [81], autophagy and AMPK [82] or a decrease in mTOR [83] and TNF-α [84]. Melatonin receptor regulating pharmaceuticals, such as ramelteon, have also shown utility in the management of LVH, suggesting a protective role for melatonin receptor activation [85].…”

Section: Lvh Pathophysiologymentioning

confidence: 99%

Left Ventricular Hypertrophy: Roles of Mitochondria CYP1B1 and Melatonergic Pathways in Co-Ordinating Wider Pathophysiology

Anderson

Mazzoccoli

2019

IJMS

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Left ventricular hypertrophy (LVH) can be adaptive, as arising from exercise, or pathological, most commonly when driven by hypertension. The pathophysiology of LVH is consistently associated with an increase in cytochrome P450 (CYP)1B1 and mitogen-activated protein kinases (MAPKs) and a decrease in sirtuins and mitochondria functioning. Treatment is usually targeted to hypertension management, although it is widely accepted that treatment outcomes could be improved with cardiomyocyte hypertrophy targeted interventions. The current article reviews the wide, but disparate, bodies of data pertaining to LVH pathoetiology and pathophysiology, proposing a significant role for variations in the N-acetylserotonin (NAS)/melatonin ratio within mitochondria in driving the biological underpinnings of LVH. Heightened levels of mitochondria CYP1B1 drive the ‘backward’ conversion of melatonin to NAS, resulting in a loss of the co-operative interactions of melatonin and sirtuin-3 within mitochondria. NAS activates the brain-derived neurotrophic factor receptor, TrkB, leading to raised trophic signalling via cyclic adenosine 3′,5′-monophosphate (cAMP)-response element binding protein (CREB) and the MAPKs, which are significantly increased in LVH. The gut microbiome may be intimately linked to how stress and depression associate with LVH and hypertension, with gut microbiome derived butyrate, and other histone deacetylase inhibitors, significant modulators of the melatonergic pathways and LVH more generally. This provides a model of LVH that has significant treatment and research implications.

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Section: Lvh Pathophysiologymentioning

confidence: 99%

Left Ventricular Hypertrophy: Roles of Mitochondria CYP1B1 and Melatonergic Pathways in Co-Ordinating Wider Pathophysiology

Anderson

Mazzoccoli

2019

IJMS

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“…Multiple molecular and cellular responses including neurohormonal activation, complex metabolic changes and increased production of reactive oxygen species, and oxidative stress contribute to the development of HF in metabolic syndrome [ 96 ]. Melatonin has recently received attention as a potential therapy in obesity and related cardiometabolic abnormalities [ 17 , 34 , 44 , 98 , 99 , 100 ]. Its role in metabolic syndrome is reported in both animal and human studies [ 17 , 34 , 44 , 98 ].…”

Section: Role Of Melatonin In Heart Failure Related To the Metabolmentioning

confidence: 99%

“…It also associates with increased oxidative stress and cardiomyopathy [ 104 , 105 ]. Interestingly, a recent study in the DahlS.Z-Lepr (fa) /Lepr (fa) (DS/obese) rat model of metabolic syndrome, shows that melatonin receptor agonist, ramelteon treatment at either low (0.3 mg/kg per day) or high (8 mg/kg per day) dose attenuates body weight gain, left ventricular fibrosis, and diastolic dysfunction, as well as cardiac oxidative stress and inflammation [ 34 ]. Similar beneficial effects on cardiac hypertrophy and fibrosis are also reported in pre-diabetic obese (ob/ob) mice treated with melatonin (100 mg/kg per day in drinking water) for 8 weeks (from 5 weeks of age) [ 99 ].…”

Section: Role Of Melatonin In Heart Failure Related To the Metabolmentioning

confidence: 99%

“…Their downstream signaling effector mechanisms include adenylate cyclase, protein kinase C (PKC), phospholipase C, phospholipase A2, potassium channels, guanylyl cyclase and calcium channels and mediate the anti-adrenergic effects of melatonin [ 25 , 28 , 29 ]. In the context of HF, melatonin receptors play a significant role in the prevention of HF following myocardial infarction [ 29 , 30 , 31 , 32 , 33 ], and cardiomyopathy [ 20 , 34 , 35 , 36 ].…”

Section: Introductionmentioning

confidence: 99%

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Melatonin in Heart Failure: A Promising Therapeutic Strategy?

Nduhirabandi

Maarman

2018

Molecules

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Heart failure is a multifactorial clinical syndrome characterized by the inability of the heart to pump sufficient blood to the body. Despite recent advances in medical management, poor outcomes in patients with heart failure remain very high. This highlights a need for novel paradigms for effective, preventive and curative strategies. Substantial evidence supports the importance of endogenous melatonin in cardiovascular health and the benefits of melatonin supplementation in various cardiac pathologies and cardiometabolic disorders. Melatonin plays a crucial role in major pathological processes associated with heart failure including ischemic injury, oxidative stress, apoptosis, and cardiac remodeling. In this review, available evidence for the role of melatonin in heart failure is discussed. Current challenges and possible limitations of using melatonin in heart failure are also addressed. While few clinical studies have investigated the role of melatonin in the context of heart failure, current findings from experimental studies support the potential use of melatonin as preventive and adjunctive curative therapy in heart failure.

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“…7 We also recently detected whitening of interscapular BAT (iBAT) associated with thermogenic dysfunction (downregulation of UCP1) in DS/obese rats. 8 Furthermore, surgical removal of subcutaneous (inguinal) WAT attenuated salt-induced exacerbation of MetS and cardiac and renal pathology in DS/obese rats. 9 The aim of the present study was to investigate the effects of salt loading and surgical removal of whitened iBAT on cardiac and adipose tissue pathology as well as on metabolism in DS/obese rats.…”

Section: Introductionmentioning

confidence: 97%

Surgical ablation of whitened interscapular brown fat ameliorates cardiac pathology in salt‐loaded metabolic syndrome rats

Komatsu

Aoyama

Yoneda

et al. 2020

Annals of the New York Academy of Sciences

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Brown adipose tissue (BAT) is an endocrine organ that contributes to thermogenesis and energy consumption. We investigated the effects of salt loading and surgical removal of whitened interscapular BAT (iBAT) on cardiac and adipose tissue pathology in DahlS.Z-Lepr fa /Lepr fa (DS/obese) rats, an animal model of metabolic syndrome (MetS). DS/obese rats were subjected to surgical removal of iBAT or sham surgery at 8 weeks of age and were provided with drinking water containing or not containing 0.3% NaCl for 4 weeks beginning at 9 weeks of age. Removal of iBAT suppressed the salt-induced exacerbation of left ventricular inflammation, fibrosis, and diastolic dysfunction, but not that of hypertension development, in DS/obese rats. Salt loading attenuated adipocyte hypertrophy but enhanced inflammation in both visceral white adipose tissue (WAT) and iBAT. Although iBAT removal did not affect visceral WAT pathology in salt-loaded DS/obese rats, it attenuated the elevation of circulating interleukin-6 levels in these animals. Downregulation of uncoupling protein-1 expression in iBAT of DS/obese rats was not affected by salt loading. Our results suggest that the conversion of iBAT to WAT-like tissue contributes to a saltinduced elevation of circulating proinflammatory cytokine levels that leads to exacerbation of cardiac pathology in this model of MetS.

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Effects of ramelteon on cardiac injury and adipose tissue pathology in rats with metabolic syndrome

Cited by 9 publications

References 64 publications

Left Ventricular Hypertrophy: Roles of Mitochondria CYP1B1 and Melatonergic Pathways in Co-Ordinating Wider Pathophysiology

Left Ventricular Hypertrophy: Roles of Mitochondria CYP1B1 and Melatonergic Pathways in Co-Ordinating Wider Pathophysiology

Melatonin in Heart Failure: A Promising Therapeutic Strategy?

Surgical ablation of whitened interscapular brown fat ameliorates cardiac pathology in salt‐loaded metabolic syndrome rats

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