HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE

HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE

Abstract. Physiological and biochemical changes proceeding in muscles during physical loads exert systemic influence upon protein biosynthesis. This process is accelerated in presence of free amino acids, sufficient quantities of hormones, creatine, hydrogen ions. High proton concentrations in tissu...

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Main Authors: Z. Ch. Musin, S. V. Latukhov
Format: Article
Language:Russian
Published: SPb RAACI 2014-07-01
Series:Medicinskaâ Immunologiâ
Subjects:
hydrogen ions
lactate
cell membrane
mitochondria
protein biosynthesis
phosphocreatine
creatine
muscle fibers
oxidative phosphorylation
immunoglobulins
immunosupression
endocrine system
Online Access:https://www.mimmun.ru/mimmun/article/view/117
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spelling doaj-831e6d2c15ac455d89c93b97f61620492021-07-29T09:02:22ZrusSPb RAACIMedicinskaâ Immunologiâ1563-06252313-741X2014-07-0191353810.15789/1563-0625-2007-1-35-38114HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISEZ. Ch. Musin0S. V. Latukhov1Башкирский государственный медицинский университет, г. УфаБашкирский государственный медицинский университет, г. УфаAbstract. Physiological and biochemical changes proceeding in muscles during physical loads exert systemic influence upon protein biosynthesis. This process is accelerated in presence of free amino acids, sufficient quantities of hormones, creatine, hydrogen ions. High proton concentrations in tissues and longitudinal physical loadings upon human organism suppress the protein biosynthesis, thus leading to decomposition of hormones, immunoglobulins and cell damage. These changes may explain the development of various immunodeficiencies in sportsmen.https://www.mimmun.ru/mimmun/article/view/117hydrogen ionslactatecell membranemitochondriaprotein biosynthesisphosphocreatinecreatinemuscle fibersoxidative phosphorylationimmunoglobulinsimmunosupressionendocrine system
collection DOAJ
language Russian
format Article
sources DOAJ
author Z. Ch. Musin
S. V. Latukhov
spellingShingle Z. Ch. Musin
S. V. Latukhov
HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
Medicinskaâ Immunologiâ
hydrogen ions
lactate
cell membrane
mitochondria
protein biosynthesis
phosphocreatine
creatine
muscle fibers
oxidative phosphorylation
immunoglobulins
immunosupression
endocrine system
author_facet Z. Ch. Musin
S. V. Latukhov
author_sort Z. Ch. Musin
title HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
title_short HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
title_full HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
title_fullStr HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
title_full_unstemmed HUMAN IMMUNE SYSTEM AND PHYSICAL EXERCISE
title_sort human immune system and physical exercise
publisher SPb RAACI
series Medicinskaâ Immunologiâ
issn 1563-0625
2313-741X
publishDate 2014-07-01
description Abstract. Physiological and biochemical changes proceeding in muscles during physical loads exert systemic influence upon protein biosynthesis. This process is accelerated in presence of free amino acids, sufficient quantities of hormones, creatine, hydrogen ions. High proton concentrations in tissues and longitudinal physical loadings upon human organism suppress the protein biosynthesis, thus leading to decomposition of hormones, immunoglobulins and cell damage. These changes may explain the development of various immunodeficiencies in sportsmen.
topic hydrogen ions
lactate
cell membrane
mitochondria
protein biosynthesis
phosphocreatine
creatine
muscle fibers
oxidative phosphorylation
immunoglobulins
immunosupression
endocrine system
url https://www.mimmun.ru/mimmun/article/view/117
work_keys_str_mv AT zchmusin humanimmunesystemandphysicalexercise
AT svlatukhov humanimmunesystemandphysicalexercise
_version_ 1721250067533266944

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