Biochemical mechanisms of the energy-protective action of blockers of slow high-threshold L-type calcium channels

Vorobieva, V. V.; Левченкова, Ольга Сергеевна; Shabanov, Petr D.

doi:10.17816/rcf204395-405

Rev Clin Pharm Drug Ther

2023

DOI: 10.17816/rcf204395-405

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Biochemical mechanisms of the energy-protective action of blockers of slow high-threshold L-type calcium channels

V. V. Vorobieva

Ольга Сергеевна Левченкова²,

Petr D. Shabanov³

Abstract: This review discusses information about the structure and function of calcium channels in the plasma membrane and mitochondria of the heart, and pharmacological methods for modulating their conductance. Experimental data are presented that characterize the change in the energy metabolism of cardiomyocytes against the background of the transformation of the conductivity of L-type calcium channels of the cell membrane in a non-invasive model of vibration-mediated (56 sessions of total vertical vibration, with a … Show more

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Cited by 3 publications

References 35 publications

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Role of bioenergetic hypoxia in the morphological transformation of the myocardium during vibration disease

Vorobieva,

Levchenkova,

Lenskaya

2024

Psychopharmacology & biological narcology

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BACKGROUND: Analysis of literature on the structural changes in the heart in patients with vibration disease using echocardiographic research methods revealed a concentric type of remodeling of the left ventricular chambers, which is associated with a high risk of cardiovascular complications, including sudden cardiac death, in people of working age. AIM: To determine the role of bioenergetic hypoxia in the development of morphological transformation of the myocardium to substantiate the efficacy of pharmacotherapy for vibration disease. MATERIALS AND METHODS: The energy production activity of cellular systems of heart tissue in vitro was analyzed by the polarographic method using a closed galvanic-type oxygen sensor (Clark electrode). The stressful effects of vibration were confirmed by the dynamics of the morphohistological picture of changes in the myocardial tissue of the left ventricle in the apical region after standard alcohol–paraffin wiring and staining of histological preparations with hematoxylin and eosin. RESULTS: Evaluation of the morphometric and bioenergetic parameters of cardiomyocytes under various experimental vibration modes (7, 21, and 56 sessions with a frequency of 8 and 44 Hz) confirmed the relationship between the provision of tissue with energy potential and morphological signs of pathological structural changes in the myocardial tissue, such as hypertrophy of cardiomyocytes, development of fibrosis, restructuring of the vascular bed, and necrosis. CONCLUSION: Analysis of the relationship between energy metabolism and morphohistological transformation of heart tissue allows us to resolve the role of universal and specific mechanisms in cardiac remodeling in the presence of vibration and pathogenetically substantiate the choice of drugs that not only have a vibration-protective effect but also inhibit pathological structural changes in the myocardial tissue.

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Role of bioenergetic hypoxia in the morphological transformation of the myocardium during vibration disease

Vorobieva,

Levchenkova,

Lenskaya

2024

Psychopharmacology & biological narcology

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Clinical manifestations and mechanisms of formation of neurological disorders in patients with vibration disease

Vorobieva,

Levchenkova

2023

Rev Clin Pharm Drug Ther

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The review presents an analysis of literature sources devoted to the study of changes in the nervous system in patients with vibration disease. Vibration-mediated cellular hypoxia, which occurs as a result of spastic changes in blood vessels, phase fluctuations in intravascular pressure, impaired blood and lymph outflow, causes suppression of energy metabolism, contributes to disorders at the level of receptor (glutamate, GABA-ergic, dopamine and cholinergic) and synaptic structures, conductors of pain and temperature sensitivity (demyelinization), analyzing neurons in the parietal region of the brain, regulatory proteins of the nervous tissue (NF-200, GFAP S-100). A low-amplitude, irregular, disorganized and sometimes deformed EEG spectrum with a predominance of the alpha wave and a shift of the alpha rhythm to the left reflects changes in the spontaneous electrical activity of brain structures in patients. With an increase in the experience dose of vibration-noise exposure, the dominant alpha activity changes to slow-wave or polyrhythmic. Mild and moderate diffuse changes in the brain become focal in nature, cortical-subcortical relationships are disrupted at the diencephalic level, creating a pathophysiological basis for sensorineural (sensory-neural) hearing loss, especially in patients with a genetic predisposition mediated by genes encoding proteins of the heat shock system. The psycho-emotional status of patients is characterized by a hypochondriacal focus on the state of health, mental disadaptation, psycho-emotional disorders in the form of anxiety, depressive mood. The analysis of literature sources on the mechanisms of the formation of neurological disorders in patients with vibration disease revealed the lack of data on the state of the multicomponent ghrelin system interacting with GHSR-1A and GHSR-1B receptors, which determines a new vector in further experimental and clinical studies.

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Mechanisms of vibration-induced structural myocardial remodeling

Vorobieva,

Levchenkova,

Lenskaya

et al. 2024

Rev Clin Pharm Drug Ther

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The review presents literature data analysis devoted to the study of structural changes in the heart in patients with vibration disease, identified by echocardiographic methods in the form of concentric remodeling of the left ventricle chambers and disturbance of its diastolic function, a decrease in the intensity of the heart structure work compared to healthy ones in 1.2 times (p0.05). The changes in morphometric and bioenergetic parameters of cardiomyocytes against the background of various experimental vibration modes (7 and 56 sessions with a frequency of 8 Hz) confirms the violation of the ideal relationship between the spatial configuration of the heart cavities, the ability to contract and the energy supply potential. The loss of cardiac myofibrils symbolizes the convertion of myocardial hypertrophy to the decompensation stage and the increase in degenerative (dystrophic) signs, in particular the loss of sarcomeres of cardiomyocytes. To realize the processes of pathological structural (morphological) and energy restructuring of tissue under the influence of vibration-mediated hemodynamic and ischemic factors, it is necessary to involve in the process numerous mediators that regulate metabolism, proliferation, growth and survival of cells, such as STIM (stromal interaction molecule), SERCA (calcium ATPase of the endo(sarco)plasmic reticulum), IP3R (inositol-1,4,5-triphosphate receptor), Orai (protein that forms CRAC channels), TRPC (transient receptor potential canonical), etc. As one of the most important link of structural cardiac remodeling is performed by the degradation system of the extracellular matrix, including matrix metalloproteinases (MMPs) and their tissue inhibitors (TIMPs), which regulate the rate of mRNA synthesis on the DNA matrix by binding to specific DNA regions that control cardiac nutrition and plasticity. A lot of analyzed facts make it possible to explain some patterns of the development of cardiac remodeling in patients with vibration disease and to determine the direction of pathogenetically based approaches to therapy, taking into account not only the vibration-protective effect of drugs, but also their ability to inhibit and regress myocardial remodeling.

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Biochemical mechanisms of the energy-protective action of blockers of slow high-threshold L-type calcium channels

Cited by 3 publications

References 35 publications

Role of bioenergetic hypoxia in the morphological transformation of the myocardium during vibration disease

Role of bioenergetic hypoxia in the morphological transformation of the myocardium during vibration disease

Clinical manifestations and mechanisms of formation of neurological disorders in patients with vibration disease

Mechanisms of vibration-induced structural myocardial remodeling

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