Heart Failure Clinical Trial
Official title:
Role of Amino Acids and Genetic Disorder in Pathogenesis of Heart Failure
Heart failure (HF) is a continuously growing public health problem. The study aim to provide novel insights into the role of amino acids in pathogenesis of heart failure, to obtain a better understanding of cardiac ryanodine Receptor 2 role as an essential player in excitation-contraction coupling in pathogenesis of heart failure and clarify the potential value of these markers as targets for heart failure therapy
Heart failure (HF) is a continuously growing public health problem. Presently, almost 40
million people are affected by heart failure worldwide. According to World Health
Organization (WHO), cardiovascular diseases are number one cause of deaths globally . In
developed countries, the prevalence of heart failure is approximately 1-2% of the adult
population. In Egypt, the prevalence of HF with preserved ejection fraction represents about
34.2 % while heart failure with reduced ejection fraction represents 65.8 % of total heart
failure cases .
A broad range of cardiac diseases, inherited disorders, and systematic diseases can result in
heart failure. The situation is even more complex, as heart failure can have mixed
etiologies. Heart failure itself represents a final common pathway in response to genetic
and/or environmental influences. A clear genetic identification can positively influence
patient treatment and, thereby, improve prognosis. Besides, understanding the pathogenesis of
genetically induced heart failure at it molecular level may lead to the development of
specific individual heart failure therapies in the future.
The human heart uses large amounts of amino acids (AAs) as regulators of both myocardium
protein turnover and energy metabolism, but uses few AAs as substrates for direct energy
production .The heart's reliance on AAs increases during heart failure because of high
myocardium anabolic activity and cardiomyocyte energy shortage. Anabolic activity of the
ventricle wall is induced by both high levels of ventricular pressure and a myocardial
substrate shift from fatty acid oxidation (FAOX) to glucose oxidation (GLUOX).
Various mechanisms may potentially be operating during CHF to impair arterial AAs, including
inadequate protein-energy intake, body AA overconsumption, particularly in hyper metabolic
states, increased remodeling activity of the heart and lung and finally, the development of
pathogenic gut flora. Understanding arterial AA levels could be useful to understand whether
heart anabolic activity and remaining heart capacity of energy production are being
threatened by low AA s and furthermore may allow us to correct altered AAs through diet
and/or supplementation of specific free AAs.
A reduction in essential AAs in CHF subjects, shows the disease severity-related decline of
arterial levels of those non-essential (and essential methionine) AAs with the greatest
impact on myocardium energetics, anti-oxidative capacity and myocardial protein remodeling.
Calcium cycling protein and heart failure Ca2+-dependent signaling is highly regulated in
cardiomyocytes and determines the force of cardiac muscle contraction. Ca2+ cycling refers to
the release and reuptake of intracellular Ca2+ that drives muscle contraction and relaxation
in failing hearts. Ca2+ cycling is profoundly altered, resulting in impaired contractility
and fatal cardiac arrhythmias. The key defects in Ca2+ cycling occur at the level of the
sarcoplasmic reticulum (SR), a Ca2+ storage organelle in muscle. Defects in the regulation of
Ca2+ cycling proteins including the ryanodine receptor 2 (RyR2) a cardiac Ca2+ release
channel macromolecular complexes and the sarcoplasmic/endoplasmic reticulum Ca2+ ATPase2a
(SERCA2a) contribute to heart failure.
Phosphorylation of the cardiac ryanodine receptor (RyR2) phospho-site S2808 has hallmark of
heart failure (HF) and a critical mediator of the physiological fight or flight response of
the heart. In support of this hypothesis, mice unable to undergo phosphorylation at
RyR2-S2808 (S2808A) were significantly protected against HF and displayed a blunted response
to adrenergic stimulation.
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