Hideaki Inazumi scite author profile

BackgroundRecent studies have shown that plasma levels of the biologically inactive prohormone for brain natriuretic peptide (proBNP) are increased in patients with heart failure. This can contribute to a reduction in the effectiveness of circulating BNP and exacerbate heart failure progression. The precise mechanisms governing the increase in proBNP remain unclear, however.Methods and ResultsWe used our recently developed, highly sensitive human proBNP assay system to investigate the mechanisms underlying the increase in plasma proBNP levels. We divided 53 consecutive patients hospitalized with heart failure into 2 groups based on their aortic plasma levels of immunoreactive BNP. Patients with higher levels exhibited more severe heart failure, a higher proportion of proBNP among the immunoreactive BNP forms secreted from failing hearts, and a weaker effect of BNP as estimated from the ratio of plasma cyclic guanosine monophosphate levels to log‐transformed plasma BNP levels. Glycosylation at threonines 48 and 71 of human proBNP contributed to the increased secretion of proBNP by attenuating its processing, and GalNAc‐transferase (GALNT) 1 and 2 mediated the glycosylation‐regulated increase in cardiac human proBNP secretion. Cardiac GALNT1 and 2 expression was suppressed by microRNA (miR)‐30, which is abundantly expressed in the myocardium of healthy hearts, but is suppressed in failing hearts.ConclusionsWe have elucidated a novel miR‐30‐GALNT1/2 axis whose dysregulation increases the proportion of inactive proBNP secreted by the heart and impairs the compensatory actions of BNP during the progression of heart failure.

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NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca ²⁺ Homeostasis

Inazumi¹,

Kuwahara²,

Nakagawa³

et al. 2022

Circulation Research

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Background: During the development of heart failure, a fetal cardiac gene program is reactivated and accelerates pathological cardiac remodeling. We previously reported that a transcriptional repressor, neuron restrictive silencer factor (NRSF), suppresses the fetal cardiac gene program, thereby maintaining cardiac integrity. The underlying molecular mechanisms remains to be determined, however. Methods: We aim to elucidate molecular mechanisms by which NRSF maintains normal cardiac function. We generated cardiac-specific NRSF knockout mice and analyzed cardiac gene expression profiles in those mice and mice cardiac-specifically expressing a dominant-negative NRSF mutant. Results: We found that cardiac expression of Gαo, an inhibitory G protein encoded in humans by GNAO1, is transcriptionally regulated by NRSF and is increased in the ventricles of several mouse models of heart failure. Genetic knockdown of Gnao1 ameliorated the cardiac dysfunction and prolonged survival rates in these mouse heart failure models. Conversely, cardiac-specific overexpression of GNAO1 in mice was sufficient to induce cardiac dysfunction. Mechanistically, we observed that increasing Gαo expression increased surface sarcolemmal L-type Ca 2+ channel activity, activated Calcium/calmodulin-dependent kinase-II (CaMKII) signaling and impaired Ca 2+ handling in ventricular myocytes, which led to cardiac dysfunction. Conclusions: These findings shed light on a novel function of Gαo in the regulation of cardiac Ca 2+ homeostasis and systolic function and suggest Gαo may be an effective therapeutic target for the treatment of heart failure.

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Prognostic significance of changes in cystatin C during treatment of acute cardiac decompensation

Inazumi

Koyama

Tanada

et al. 2016

Journal of Cardiology

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Changes in C-reactive Protein (CRP) in Patients with Acute Heart Failure

Kuragaichi

Sato

Koyama

et al. 2013

Journal of Cardiac Failure

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Overview of the 84<sup>th</sup> Annual Scientific Meeting of the Japanese Circulation Society　― Change Practice! ―

Ono

Shizuta

Yamamoto

et al. 2021

Circ J

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Due to the COVID-19 pandemic, the 84 th Annual Meeting of the Japanese Circulation Society (JCS) was held in a web-based format for the first time in its history as "The Week for JCS 2020" from Monday, July 27 to Sunday, August 2, 2020. All sessions, including general abstracts, were streamed live or on-demand. The main theme of the meeting was "Change Practice!" and the aim was to organize the latest findings in the field of cardiovascular medicine and discuss how to change practice. The total number of registered attendees was over 16,800, far exceeding our expectations, and many of the sessions were viewed by far more people than at conventional face-to-face scientific meetings. At this conference, the power of online information dissemination was fully demonstrated, and the evolution of online academic meetings will be a direction that cannot be reversed in the future. The meeting was completed with great success, and we express our heartfelt gratitude to all affiliates for their enormous amount of work, cooperation, and support.

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Hideaki Inazumi

MiR30‐GALNT1/2 Axis‐Mediated Glycosylation Contributes to the Increased Secretion of Inactive Human Prohormone for Brain Natriuretic Peptide (proBNP) From Failing Hearts

NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca ²⁺ Homeostasis

Prognostic significance of changes in cystatin C during treatment of acute cardiac decompensation

Changes in C-reactive Protein (CRP) in Patients with Acute Heart Failure

Overview of the 84<sup>th</sup> Annual Scientific Meeting of the Japanese Circulation Society　― Change Practice! ―

Contact Info

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Resources

About

Hideaki Inazumi

MiR30‐GALNT1/2 Axis‐Mediated Glycosylation Contributes to the Increased Secretion of Inactive Human Prohormone for Brain Natriuretic Peptide (proBNP) From Failing Hearts

NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca 2+ Homeostasis

Prognostic significance of changes in cystatin C during treatment of acute cardiac decompensation

Changes in C-reactive Protein (CRP) in Patients with Acute Heart Failure

Overview of the 84<sup>th</sup> Annual Scientific Meeting of the Japanese Circulation Society ― Change Practice! ―

Contact Info

Product

Resources

About

NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca ²⁺ Homeostasis

Overview of the 84<sup>th</sup> Annual Scientific Meeting of the Japanese Circulation Society　― Change Practice! ―