Mineralocorticoid receptors and the heart, multiple cell types and multiple mechanisms: a focus on the cardiomyocyte.

@article{Bienvenu2013MineralocorticoidRA,
  title={Mineralocorticoid receptors and the heart, multiple cell types and multiple mechanisms: a focus on the cardiomyocyte.},
  author={Laura A Bienvenu and Melissa E Reichelt and Lea M. D. Delbridge and Morag J. Young},
  journal={Clinical science},
  year={2013},
  volume={125 9},
  pages={
          409-21
        }
}
MR (mineralocorticoid receptor) activation in the heart plays a central role in the development of cardiovascular disease, including heart failure. The MR is present in many cell types within the myocardium, including cardiomyocytes, macrophages and the coronary vasculature. The specific role of the MR in each of these cell types in the initiation and progression of cardiac pathophysiology is not fully understood. Cardiomyocyte MRs are increasingly recognized to play a role in regulating… 
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Mineralocorticoid Receptor and Cardiovascular Disease
TLDR
The pathological role of the MR in the CV system and the major mechanisms underlying it are discussed, which include oxidative stress, inflammation, and fibrosis.
Role of Aldosterone and Mineralocorticoid Receptor in Cardiovascular Aging
TLDR
There is an unmet need for the enhanced understanding of the role of MR in aging and for development of novel specific MR antagonists in the context of cardiovascular rehabilitation in the elderly, in order to reduce relevant side effects.
An evaluation of Glucocorticoid Receptors in A549 cells and cardiac fibroblasts: Potential in vitro models of COPD and Heart Failure
TLDR
The aim of this study was to investigate the effect of 24 hours incubation with the GR agonist dexamethasone in both adenocarcinoma cell lines (A549 cells) and primary Human Cardiac Fibroblasts (HCF), in order to identify whether GR resistance could be induced in these cells lines.
On the Pleotropic Actions of Mineralocorticoids
  • F. Lang
  • Biology, Medicine
    Nephron Physiology
  • 2014
TLDR
This special issue discusses the role of mineralocorticoids in the regulation of acid-base balance, the involvement of aldosterone and its receptors in major depression, the mineraloc Corticoid stimulation of inflammation and tissue fibrosis and the effect of a Aldosterone on osteoinductive signaling and vascular calcification.
The neuronal mineralocorticoid receptor: From cell survival to neurogenesis
MicroRNA-204 Is Necessary for Aldosterone-Stimulated T-Type Calcium Channel Expression in Cardiomyocytes
TLDR
It is strongly suggested that miR-204 expression stimulated by aldosterone promotes the expression of T-channels in isolated rat ventricular cardiomyocytes, and therefore, increases the frequency of the cell spontaneous contractions, presumably through the inhibition of REST-NRSF protein.
The involvement of aldosterone on vascular insulin resistance: implications in obesity and type 2 diabetes
TLDR
Evidence indicating MR antagonists as therapeutic tools to minimize vascular injury associated with obesity and diabetes type 2 is also discussed, with particular focus on the relationship between aldosterone and vascular insulin resistance.
Pathophysiology of cardiac hypertrophy and heart failure: signaling pathways and novel therapeutic targets
TLDR
New therapeutic approaches either entering clinical trials or in preclinical development, and the challenges that remain in translating these discoveries to new and approved therapies for heart failure are addressed.
Mineralocorticoid and SGK1-Sensitive Inflammation and Tissue Fibrosis
TLDR
The untoward inflammatory and fibrosing effects of mineralocorticoids could be blunted or even reversed by mineraloc Corticoid receptor blockers, which may thus be considered in the treatment of inflammatory and/or fibrosed disease.
Mineralocorticoid receptor modulators: a patent review (2007 – 2012)
TLDR
The recognition of its proinflammatory and fibrogenic effects and the discovery of extrarenal sites of expression of its receptor (the mineralocorticoid receptor or MR) support a broader implication in diseases of MR activation than previously anticipated and the possible novel therapeutic indications of MR antagonists.
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References

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TLDR
It is demonstrated that chronic MR overexpression in the heart results in a limited number of induced and repressed genes compared with their control littermates, which may be of particular interest to design novel therapeutic targets in cardiac diseases.
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TLDR
Cardiac MR overexpression led to ion channel remodeling, resulting in prolonged ventricular repolarization at both the cellular and integrated levels and in severe ventricular arrhythmias, suggesting novel opportunities for prevention of arrhythmia-related sudden death.
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TLDR
These data demonstrate that macrophage MR are necessary for the translation of inflammation and oxidative stress into interstitial and perivascular fibrosis after NO deficiency, even when plasma aldosterone levels are not elevated.
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TLDR
Overstimulation of the cardiac mineralocorticoid pathway in the heart might be a major upstream factor for aberrant Ca2+ release during diastole, which contributes to cardiac arrhythmia in heart failure.
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TLDR
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TLDR
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TLDR
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TLDR
Potential mechanisms for the benefits observed in recent large scale clinical trials investigating the cardioprotective effects of MR antagonists given in conjunction with current best practice therapy for moderate-to-severe heart failure and heart failure post-myocardial infarction are suggested.
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TLDR
It is shown that myeloid MR is an important control point in macrophage polarization and that the function of MR on myeloids cells likely represents a conserved ancestral MR function that is integrated in a transcriptional network with PPARgamma and glucocorticoid receptor.
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TLDR
It is demonstrated that MR is coexpressed with 11-HSD in human heart, which thus possesses the cellular machinery required for direct aldosterone action.
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