CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS

CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS

Various substances have been introduced in relation with cardiac hypertrophy almost always with controversy in their roles in signal transduction. Those controversies may attribute to the diversity of cardiac hypertrophy. We previously showed that calcineurin was activated in physiological left vent...

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Main Authors: Ikuo Yokoyama, Koichiro Kinugawa, Ryozo Nagai, Hitosh Oshikawa, Yoshihiro Ishikawa, Teruhiko Aoyagi
Format: Article
Language:English
Published: University of Uludag 2002-12-01
Series:Journal of Sports Science and Medicine
Subjects:
Exercise
hypertrophy
signal transduction
Online Access:http://www.jssm.org/vol1/n4/6/n4_6.htm
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spelling doaj-9f2b8d69491d48d2932a35c6d8ca26542020-11-24T22:59:16ZengUniversity of UludagJournal of Sports Science and Medicine1303-29682002-12-0114141146CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATSIkuo YokoyamaKoichiro KinugawaRyozo NagaiHitosh OshikawaYoshihiro IshikawaTeruhiko AoyagiVarious substances have been introduced in relation with cardiac hypertrophy almost always with controversy in their roles in signal transduction. Those controversies may attribute to the diversity of cardiac hypertrophy. We previously showed that calcineurin was activated in physiological left ventricular hypertrophy (LVH) induced by voluntary exercise training, but not in decompensated pressure-overload LVH. In the current study, we advanced our search for the differences between the voluntary exercise-induced LVH and the pressure-overload LVH into several other hypertrophy-related substances including caveolin. Wistar rats were assigned to one of the following three groups: 10 weeks of voluntary exercise (EX), sedentary regimen (SED), and 4 weeks of ascending aortic constriction (AC). The EX rats voluntarily ran 1.6±1.1 km/day in the specially manufactured cages resulting in LVH (24 % increase in left ventricular weight per body weight ratio). Myocardial tissue homogenate of the EX rats revealed different characteristics in signal transduction of hypertrophy from that of the AC. The EX rats had normal sarcoplasmic reticulum (SR) Ca2+ATPase mRNA level and normal myosin heavy chain isozyme pattern assessed by RNA protection assay, while AC rats had decreased SR Ca2+ATPase mRNA level and increased beta myosin heavy chain mRNA level. Myocardial caveolin-3 protein levels assessed by Western blotting increased in the EX rats but decreased in the AC rats. The voluntary exercise-induced LVH differed in signal transduction from the decompensated pressure-overload LVH. Caveolin-3 was induced in the voluntary exercise-induced LVH, while it was decreased in the decompensated pressure-overload LVHhttp://www.jssm.org/vol1/n4/6/n4_6.htmExercisehypertrophysignal transduction
collection DOAJ
language English
format Article
sources DOAJ
author Ikuo Yokoyama
Koichiro Kinugawa
Ryozo Nagai
Hitosh Oshikawa
Yoshihiro Ishikawa
Teruhiko Aoyagi
spellingShingle Ikuo Yokoyama
Koichiro Kinugawa
Ryozo Nagai
Hitosh Oshikawa
Yoshihiro Ishikawa
Teruhiko Aoyagi
CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
Journal of Sports Science and Medicine
Exercise
hypertrophy
signal transduction
author_facet Ikuo Yokoyama
Koichiro Kinugawa
Ryozo Nagai
Hitosh Oshikawa
Yoshihiro Ishikawa
Teruhiko Aoyagi
author_sort Ikuo Yokoyama
title CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
title_short CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
title_full CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
title_fullStr CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
title_full_unstemmed CAVEOLIN-3 IS UP-REGULATED IN THE PHYSIOLOGICAL LEFT VENTRICULAR HYPERTROPHY INDUCED BY VOLUNTARY EXERCISE TRAINING IN RATS
title_sort caveolin-3 is up-regulated in the physiological left ventricular hypertrophy induced by voluntary exercise training in rats
publisher University of Uludag
series Journal of Sports Science and Medicine
issn 1303-2968
publishDate 2002-12-01
description Various substances have been introduced in relation with cardiac hypertrophy almost always with controversy in their roles in signal transduction. Those controversies may attribute to the diversity of cardiac hypertrophy. We previously showed that calcineurin was activated in physiological left ventricular hypertrophy (LVH) induced by voluntary exercise training, but not in decompensated pressure-overload LVH. In the current study, we advanced our search for the differences between the voluntary exercise-induced LVH and the pressure-overload LVH into several other hypertrophy-related substances including caveolin. Wistar rats were assigned to one of the following three groups: 10 weeks of voluntary exercise (EX), sedentary regimen (SED), and 4 weeks of ascending aortic constriction (AC). The EX rats voluntarily ran 1.6±1.1 km/day in the specially manufactured cages resulting in LVH (24 % increase in left ventricular weight per body weight ratio). Myocardial tissue homogenate of the EX rats revealed different characteristics in signal transduction of hypertrophy from that of the AC. The EX rats had normal sarcoplasmic reticulum (SR) Ca2+ATPase mRNA level and normal myosin heavy chain isozyme pattern assessed by RNA protection assay, while AC rats had decreased SR Ca2+ATPase mRNA level and increased beta myosin heavy chain mRNA level. Myocardial caveolin-3 protein levels assessed by Western blotting increased in the EX rats but decreased in the AC rats. The voluntary exercise-induced LVH differed in signal transduction from the decompensated pressure-overload LVH. Caveolin-3 was induced in the voluntary exercise-induced LVH, while it was decreased in the decompensated pressure-overload LVH
topic Exercise
hypertrophy
signal transduction
url http://www.jssm.org/vol1/n4/6/n4_6.htm
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AT koichirokinugawa caveolin3isupregulatedinthephysiologicalleftventricularhypertrophyinducedbyvoluntaryexercisetraininginrats
AT ryozonagai caveolin3isupregulatedinthephysiologicalleftventricularhypertrophyinducedbyvoluntaryexercisetraininginrats
AT hitoshoshikawa caveolin3isupregulatedinthephysiologicalleftventricularhypertrophyinducedbyvoluntaryexercisetraininginrats
AT yoshihiroishikawa caveolin3isupregulatedinthephysiologicalleftventricularhypertrophyinducedbyvoluntaryexercisetraininginrats
AT teruhikoaoyagi caveolin3isupregulatedinthephysiologicalleftventricularhypertrophyinducedbyvoluntaryexercisetraininginrats
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