Chikao Yutani scite author profile

Background-The endoplasmic reticulum (ER) is recognized as an organelle that participates in folding secretory and membrane proteins. The ER responds to stress by upregulating ER chaperones, but prolonged and/or excess ER stress leads to apoptosis. However, the potential role of ER stress in pathophysiological hearts remains unclear. Methods and Results-Mice were subjected to transverse aortic constriction (TAC) or sham operation. Echocardiographic analysis demonstrated that mice 1 and 4 weeks after TAC had cardiac hypertrophy and failure, respectively. Cardiac expression of ER chaperones was significantly increased 1 and 4 weeks after TAC, indicating that pressure overload by TAC induced prolonged ER stress. In addition, the number of terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL)-positive cells increased, and caspase-3 was cleaved in failing hearts. The antagonism of angiotensin II type 1 receptor prevented upregulation of ER chaperones and apoptosis in failing hearts. On the other hand, angiotensin II upregulated ER chaperones and induced apoptosis in cultured adult rat cardiac myocytes. We also investigated possible signaling pathways for ER-initiated apoptosis. The CHOP-(a transcription factor induced by ER stress), but not JNK-or caspase-12-, dependent pathway was activated in failing hearts by TAC. Pharmacological ER stress inducers upregulated ER chaperones and induced apoptosis in cultured cardiac myocytes. Finally, mRNA levels of ER chaperones were markedly increased in failing hearts of patients with elevated brain natriuretic peptide levels. Conclusions-These findings suggest that pressure overload by TAC induces prolonged ER stress, which may contribute to cardiac myocyte apoptosis during progression from cardiac hypertrophy to failure.

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Elevated Circulating Level of Ghrelin in Cachexia Associated With Chronic Heart Failure

Nagaya

et al. 2001

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Background-Ghrelin is a novel growth hormone (GH)-releasing peptide, isolated from the stomach, that may also cause a positive energy balance by stimulating food intake and inducing adiposity. We sought to investigate the pathophysiology of ghrelin in the cachexia associated with chronic heart failure (CHF). Methods and Results-Plasma ghrelin was measured in 74 patients with CHF and 12 control subjects, together with potentially important anabolic and catabolic factors, such as GH and tumor necrosis factor (TNF-␣). Patients with CHF were divided into two groups, those with cachexia (nϭ28) and those without cachexia (nϭ46). Plasma ghrelin did not significantly differ between all CHF patients and controls (181Ϯ10 versus 140Ϯ14 fmol/mL, PϭNS). However, plasma ghrelin was significantly higher in CHF patients with cachexia than in those without cachexia (237Ϯ18 versus 147Ϯ10 fmol/mL, PϽ0.001). Circulating GH, TNF-␣, norepinephrine, and angiotensin II were also significantly higher in CHF patients with cachexia than in those without cachexia. Interestingly, plasma ghrelin correlated positively with GH (rϭ0.28, PϽ0.05) and TNF-␣ (rϭ0.31, PϽ0.05) and negatively with body mass index (rϭϪ0.35, PϽ0.01). Conclusions-Plasma ghrelin was elevated in cachectic patients with CHF, associated with increases in GH and TNF-␣ and a decrease in body mass index. Considering ghrelin-induced positive energy effects, increased ghrelin may represent a compensatory mechanism under catabolic-anabolic imbalance in cachectic patients with CHF.

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Characterization of the Human NDRG Gene Family: A Newly Identified Member, NDRG4, Is Specifically Expressed in Brain and Heart

et al. 2001

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First International Summit on Thoracic Aortic Endografting: Roundtable on Thoracic Aortic Dissection as an Indication for Endografting

et al. 2002

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Urocortin, a member of the corticotropin-releasing factor family, in normal and diseased heart

Nishikimi¹,

Miyata²,

Horio³

et al. 2000

American Journal of Physiology-Heart and Circulatory Physiology

141

121

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In the present study we investigated the form of expression, action, second messenger, and the cellular location of urocortin, a member of the corticotropin-releasing factor (CRF) family, in the heart. Urocortin mRNA, as shown by quantitative RT-PCR analysis, is expressed in the cultured rat cardiac nonmyocytes (NMC) as well as myocytes (MC) in the heart, whereas CRF receptor type 2beta (CRF-R2beta), presumed urocortin receptor mRNA, is predominantly expressed in MC compared with NMC. Urocortin mRNA expression is higher in left ventricular (LV) hypertrophy than in normal LV, whereas CRF-R2beta mRNA expression is markedly depressed in LV hypertrophy compared with normal LV. Urocortin more potently increased the cAMP levels in both MC and NMC than did CRF, and its effect was more potent in MC than in NMC. Urocortin significantly increased protein synthesis by [(14)C]Phe incorporations and atrial natriuretic peptide secretion in MC and collagen and increased DNA synthesis by [(3)H]prolin and [(3)H]Thy incorporations in NMC. An immunohistochemical study revealed that urocortin immunoreactivity was observed in MC in the normal human heart and that it was more intense in the MC of the human failing heart than in MC of the normal heart. These results, together with the recent evidence of urocortin for positive inotropic action, suggest that increased urocortin in the diseased heart may modulate the pathophysiology of cardiac hypertrophy or failing heart, at least in part, via cAMP signaling pathway.

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Chikao Yutani

Prolonged Endoplasmic Reticulum Stress in Hypertrophic and Failing Heart After Aortic Constriction

Elevated Circulating Level of Ghrelin in Cachexia Associated With Chronic Heart Failure

Characterization of the Human NDRG Gene Family: A Newly Identified Member, NDRG4, Is Specifically Expressed in Brain and Heart

First International Summit on Thoracic Aortic Endografting: Roundtable on Thoracic Aortic Dissection as an Indication for Endografting

Urocortin, a member of the corticotropin-releasing factor family, in normal and diseased heart

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