To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde

To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde

The development of disturbances in energy processes and damaging free radical reactions in various pathological processes, including cardiovascular diseases, are interrelated and lead to a significant deterioration in the course of diseases.Aim of the study. Research of the dynamics of malondialdehy...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: S. L. Bogorodskaya, A. A. Runovich
Formato: article
Lenguaje:RU
Publicado: Scientific Сentre for Family Health and Human Reproduction Problems 2021
Materias:
xenogenic heart cells
adrenaline damage
creatine phosphate
lactate
malondialdehyde
Science
Q
Acceso en línea:https://doaj.org/article/18763dd814ed4523a1bdacc93ec42deb
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:18763dd814ed4523a1bdacc93ec42deb
record_format dspace
spelling oai:doaj.org-article:18763dd814ed4523a1bdacc93ec42deb2021-11-23T06:14:45ZTo the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde2541-94202587-959610.29413/ABS.2020-5.6.35https://doaj.org/article/18763dd814ed4523a1bdacc93ec42deb2021-01-01T00:00:00Zhttps://www.actabiomedica.ru/jour/article/view/2526https://doaj.org/toc/2541-9420https://doaj.org/toc/2587-9596The development of disturbances in energy processes and damaging free radical reactions in various pathological processes, including cardiovascular diseases, are interrelated and lead to a significant deterioration in the course of diseases.Aim of the study. Research of the dynamics of malondialdehyde, creatine phosphate and lactate in the cardiac tissue of rats under experimental adrenaline stress and during its correction with neonatal, xenogenic, cardiac cells.Methods. The experiment was carried out on outbred male rats. Adrenaline damage to the heart was simulated by a single subcutaneous injection of 0.1% adrenaline solution at a dose of 0.5 mg per 100 g of body weight. The first group (37 rats) was injected subcutaneously with adrenaline, the second group (41 rats) – adrenaline and isolated heart cells of a newborn rabbit at a dose of 500 000. The third group included 6 healthy rats.Results. It was found that a spike in the level of malondialdehyde and, accordingly, the activation of free  radical processes in adrenaline damage to the heart, occurred during the restructuring of the energy of the  heart cell from intense glycolysis to the restoration of active mitochondrial ATP synthesis (which corresponded to the end of the depletion of lactate and creatine phosphate, and the beginning of the restoration of their content in heart cells).  The dynamics of MDA sensitively reflected both the activity and the inhibition of oxidative processes in mitochondria, which manifested itself, respectively, both in the form of peaks and in a low level of MDA and corresponded to the interpretation of the dynamics of lactate and creatine phosphate.In the cardiac tissue of rats with transplantation of neonatal, xenogenic cardiac cells, the accumulation of lactate in the early stages of the experiment decreased, the subsequent depletion of the cellular reserves of creatine phosphate and lactate was inhibited, the period of inhibition (non-increase) in MDA was shorter, the subsequent increase in MDA was more moderate than in control animals.Conclusion. The data obtained indicate that neonatal cardiac cells are able to limit the disturbance of aerobic and of anaerobic processes in the heart tissue and promote the restoration of mitochondrial energy processes.  Moreover, they contribute to a more efficient restoration of mitochondrial ATP synthesis, accompanied by a smaller burst of damaging free radical processes.S. L. BogorodskayaA. A. RunovichScientific Сentre for Family Health and Human Reproduction Problemsarticlexenogenic heart cellsadrenaline damagecreatine phosphatelactatemalondialdehydeScienceQRUActa Biomedica Scientifica, Vol 5, Iss 6, Pp 265-270 (2021)
institution DOAJ
collection DOAJ
language RU
topic xenogenic heart cells
adrenaline damage
creatine phosphate
lactate
malondialdehyde
Science
Q
spellingShingle xenogenic heart cells
adrenaline damage
creatine phosphate
lactate
malondialdehyde
Science
Q
S. L. Bogorodskaya
A. A. Runovich
To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
description The development of disturbances in energy processes and damaging free radical reactions in various pathological processes, including cardiovascular diseases, are interrelated and lead to a significant deterioration in the course of diseases.Aim of the study. Research of the dynamics of malondialdehyde, creatine phosphate and lactate in the cardiac tissue of rats under experimental adrenaline stress and during its correction with neonatal, xenogenic, cardiac cells.Methods. The experiment was carried out on outbred male rats. Adrenaline damage to the heart was simulated by a single subcutaneous injection of 0.1% adrenaline solution at a dose of 0.5 mg per 100 g of body weight. The first group (37 rats) was injected subcutaneously with adrenaline, the second group (41 rats) – adrenaline and isolated heart cells of a newborn rabbit at a dose of 500 000. The third group included 6 healthy rats.Results. It was found that a spike in the level of malondialdehyde and, accordingly, the activation of free  radical processes in adrenaline damage to the heart, occurred during the restructuring of the energy of the  heart cell from intense glycolysis to the restoration of active mitochondrial ATP synthesis (which corresponded to the end of the depletion of lactate and creatine phosphate, and the beginning of the restoration of their content in heart cells).  The dynamics of MDA sensitively reflected both the activity and the inhibition of oxidative processes in mitochondria, which manifested itself, respectively, both in the form of peaks and in a low level of MDA and corresponded to the interpretation of the dynamics of lactate and creatine phosphate.In the cardiac tissue of rats with transplantation of neonatal, xenogenic cardiac cells, the accumulation of lactate in the early stages of the experiment decreased, the subsequent depletion of the cellular reserves of creatine phosphate and lactate was inhibited, the period of inhibition (non-increase) in MDA was shorter, the subsequent increase in MDA was more moderate than in control animals.Conclusion. The data obtained indicate that neonatal cardiac cells are able to limit the disturbance of aerobic and of anaerobic processes in the heart tissue and promote the restoration of mitochondrial energy processes.  Moreover, they contribute to a more efficient restoration of mitochondrial ATP synthesis, accompanied by a smaller burst of damaging free radical processes.
format article
author S. L. Bogorodskaya
A. A. Runovich
author_facet S. L. Bogorodskaya
A. A. Runovich
author_sort S. L. Bogorodskaya
title To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
title_short To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
title_full To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
title_fullStr To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
title_full_unstemmed To the Mechanism of Adrenaline Damage to the Heart Tissue and the Mechanism of Cardioprotection by Neonatal, Xenogenic, Cardiac Cells. Dynamics of Creatine Phosphate, Lactate and Malondialdehyde
title_sort to the mechanism of adrenaline damage to the heart tissue and the mechanism of cardioprotection by neonatal, xenogenic, cardiac cells. dynamics of creatine phosphate, lactate and malondialdehyde
publisher Scientific Сentre for Family Health and Human Reproduction Problems
publishDate 2021
url https://doaj.org/article/18763dd814ed4523a1bdacc93ec42deb
work_keys_str_mv AT slbogorodskaya tothemechanismofadrenalinedamagetothehearttissueandthemechanismofcardioprotectionbyneonatalxenogeniccardiaccellsdynamicsofcreatinephosphatelactateandmalondialdehyde
AT aarunovich tothemechanismofadrenalinedamagetothehearttissueandthemechanismofcardioprotectionbyneonatalxenogeniccardiaccellsdynamicsofcreatinephosphatelactateandmalondialdehyde
_version_ 1718416867909959680

Ejemplares similares