Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats

A mammal body reacts to the invader via an inflammation reaction. Immune system in brain is special because of the blood-brain barrier and glial cells. Hippocampal neurogenesis produces new neural cells. The rate of neurogenesis can be elevated by aerobic exercise and skill learning. Inflammation is...

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Main Author:	Honkanen, Markus
Other Authors:	Liikuntatieteellinen tiedekunta, Faculty of Sport and Health Sciences, Liikunta- ja terveystieteet, Sport and Health Sciences, Jyväskylän yliopisto, University of Jyväskylä
Format:	Master's thesis
Language:	eng
Published:	2019
Subjects:	acrobatic training western blotting synaptic plasticity neurogenesis Liikuntafysiologia Exercise Physiology 5011 immuunijärjestelmä tulehdus aivot aerobinen suorituskyky sytokiinit hippokampus rotta (laji) neurofysiologia immune system inflammation brain aerobic capacity cytokines hippocampus Rattus norvegicus neurophysiology
Online Access:	https://jyx.jyu.fi/handle/123456789/64098

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author	Honkanen, Markus
author2	Liikuntatieteellinen tiedekunta Faculty of Sport and Health Sciences Liikunta- ja terveystieteet Sport and Health Sciences Jyväskylän yliopisto University of Jyväskylä
author_facet	Honkanen, Markus Liikuntatieteellinen tiedekunta Faculty of Sport and Health Sciences Liikunta- ja terveystieteet Sport and Health Sciences Jyväskylän yliopisto University of Jyväskylä Honkanen, Markus Liikuntatieteellinen tiedekunta Faculty of Sport and Health Sciences Liikunta- ja terveystieteet Sport and Health Sciences Jyväskylän yliopisto University of Jyväskylä
author_sort	Honkanen, Markus
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description	A mammal body reacts to the invader via an inflammation reaction. Immune system in brain is special because of the blood-brain barrier and glial cells. Hippocampal neurogenesis produces new neural cells. The rate of neurogenesis can be elevated by aerobic exercise and skill learning. Inflammation is detrimental to the neurogenesis and learning. Western blot is often used as a tool for study of inflammation and neurogenesis, but lack of validation studies and uniform protocols causes uncertainty to results. High aerobic capacity should protect from inflammation and enhance learning. The purpose of the thesis was to study a connection with an intrinsic aerobic capacity, age or acrobatic training and inflammation or synaptic plasticity in the rat brain. Also inter-user variability and difference between two western blot devices and softwares were studied. 19 high aerobic capacity (HCR) and 20 low aerobic capacity (LCR) sedentary male rats were killed at the age of 8 or 40 weeks. 24 Sprague-Dawley rats were divided to the acrobatic training (Acro) and control (Ctrl) groups for 8 weeks of acrobatic training intervention. Quantitative western blotting analysis was made for protein homogenates of left hippocampi. Antibodies for brain inflammation and synaptic plasticity were used. Two analysts quantified results of three antibodies and between two devices and softwares for methodological comparison. The LCR rats expressed more inflammation markers than the HCR rats in overall. The age comparison resulted inconsistent outcome. Synaptic plasticity results were contradictory. There were no differences between the Acro and Ctrl groups in inflammation markers or in synaptic plasticity. In the method comparison, SYN-1 results were consistent regardless the analyst or device. IBA1 resulted moderate correlations in comparisons. SYP resulted high inter- user correlation but lower inter-device correlation. Higher aerobic capacity of the HCR rats reduces brain inflammation compared to the LCR rats. Differences in aerobic capacity and inflammation markers are present already at young age, but results were inconsistent. Contradictories in synaptic plasticity results leads to no conclusion with effect of aerobic capacity to learning. Acrobatic training did not result marked differences in this study. Reliability of western blotting results between analysts and devices depend on the antibody used. To ensure reliable results, one analyst should execute all the tests in a study using the same device and software. Results should also be confirmed using some other method.
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Immune system in brain is special because of the blood-brain barrier and glial cells. Hippocampal neurogenesis produces new neural cells. The rate of neurogenesis can be elevated by aerobic exercise and skill learning. Inflammation is detrimental to the neurogenesis and learning. Western blot is often used as a tool for study of inflammation and neurogenesis, but lack of validation studies and uniform protocols causes uncertainty to results. High aerobic capacity should protect from inflammation and enhance learning. The purpose of the thesis was to study a connection with an intrinsic aerobic capacity, age or acrobatic training and inflammation or synaptic plasticity in the rat brain. Also inter-user variability and difference between two western blot devices and softwares were studied.\n19 high aerobic capacity (HCR) and 20 low aerobic capacity (LCR) sedentary male rats were killed at the age of 8 or 40 weeks. 24 Sprague-Dawley rats were divided to the acrobatic training (Acro) and control (Ctrl) groups for 8 weeks of acrobatic training intervention. Quantitative western blotting analysis was made for protein homogenates of left hippocampi. Antibodies for brain inflammation and synaptic plasticity were used. Two analysts quantified results of three antibodies and between two devices and softwares for methodological comparison.\nThe LCR rats expressed more inflammation markers than the HCR rats in overall. The age comparison resulted inconsistent outcome. Synaptic plasticity results were contradictory. There were no differences between the Acro and Ctrl groups in inflammation markers or in synaptic plasticity. 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spellingShingle	Honkanen, Markus Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats acrobatic training western blotting synaptic plasticity neurogenesis Liikuntafysiologia Exercise Physiology 5011 immuunijärjestelmä tulehdus aivot aerobinen suorituskyky sytokiinit hippokampus rotta (laji) neurofysiologia immune system inflammation brain aerobic capacity cytokines hippocampus Rattus norvegicus neurophysiology
title	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_full	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_fullStr	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_full_unstemmed	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_short	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_sort	effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
title_txtP	Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats
topic	acrobatic training western blotting synaptic plasticity neurogenesis Liikuntafysiologia Exercise Physiology 5011 immuunijärjestelmä tulehdus aivot aerobinen suorituskyky sytokiinit hippokampus rotta (laji) neurofysiologia immune system inflammation brain aerobic capacity cytokines hippocampus Rattus norvegicus neurophysiology
topic_facet	5011 Exercise Physiology Liikuntafysiologia Rattus norvegicus acrobatic training aerobic capacity aerobinen suorituskyky aivot brain cytokines hippocampus hippokampus immune system immuunijärjestelmä inflammation neurofysiologia neurogenesis neurophysiology rotta (laji) synaptic plasticity sytokiinit tulehdus western blotting
url	https://jyx.jyu.fi/handle/123456789/64098 http://www.urn.fi/URN:NBN:fi:jyu-201905222702
work_keys_str_mv	AT honkanenmarkus effectontheinnateaerobiccapacityoracrobatictrainingontheinflammationofthebraininr

Effect on the innate aerobic capacity or acrobatic training on the inflammation of the brain in rats

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