Literature DB >> 26453495

Bone and skeletal muscle: Key players in mechanotransduction and potential overlapping mechanisms.

Craig A Goodman1, Troy A Hornberger2, Alexander G Robling3.   

Abstract

The development and maintenance of skeletal muscle and bone mass is critical for movement, health and issues associated with the quality of life. Skeletal muscle and bone mass are regulated by a variety of factors that include changes in mechanical loading. Moreover, bone mass is, in large part, regulated by muscle-derived mechanical forces and thus by changes in muscle mass/strength. A thorough understanding of the cellular mechanism(s) responsible for mechanotransduction in bone and skeletal muscle is essential for the development of effective exercise and pharmaceutical strategies aimed at increasing, and/or preventing the loss of, mass in these tissues. Thus, in this review we will attempt to summarize the current evidence for the major molecular mechanisms involved in mechanotransduction in skeletal muscle and bone. By examining the differences and similarities in mechanotransduction between these two tissues, it is hoped that this review will stimulate new insights and ideas for future research and promote collaboration between bone and muscle biologists.(1).
Copyright © 2015 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Bone mineral density; Growth; Hypertrophy; Mechanical loading; mTORC1

Mesh:

Substances:

Year:  2015        PMID: 26453495      PMCID: PMC4600534          DOI: 10.1016/j.bone.2015.04.014

Source DB:  PubMed          Journal:  Bone        ISSN: 1873-2763            Impact factor:   4.398


  227 in total

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3.  Identification of a novel human lysophosphatidic acid acyltransferase, LPAAT-theta, which activates mTOR pathway.

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Journal:  J Biochem Mol Biol       Date:  2006-09-30

4.  Early activation of mTORC1 signalling in response to mechanical overload is independent of phosphoinositide 3-kinase/Akt signalling.

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Journal:  J Physiol       Date:  2011-02-07       Impact factor: 5.182

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  38 in total

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2.  A map of the phosphoproteomic alterations that occur after a bout of maximal-intensity contractions.

Authors:  Gregory K Potts; Rachel M McNally; Rocky Blanco; Jae-Sung You; Alexander S Hebert; Michael S Westphall; Joshua J Coon; Troy A Hornberger
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Review 3.  Exercise, muscle, and the applied load-bone strength balance.

Authors:  L Giangregorio; R El-Kotob
Journal:  Osteoporos Int       Date:  2016-10-13       Impact factor: 4.507

4.  The clinical impact and biological mechanisms of skeletal muscle aging.

Authors:  Zaira Aversa; Xu Zhang; Roger A Fielding; Ian Lanza; Nathan K LeBrasseur
Journal:  Bone       Date:  2019-05-22       Impact factor: 4.398

Review 5.  Strength and Power Training in Rehabilitation: Underpinning Principles and Practical Strategies to Return Athletes to High Performance.

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Journal:  Sports Med       Date:  2020-02       Impact factor: 11.136

6.  Muscle strength is associated with bone health independently of muscle mass in postmenopausal women: the Japanese population-based osteoporosis study.

Authors:  Takahiro Tachiki; Katsuyasu Kouda; Namiraa Dongmei; Junko Tamaki; Masayuki Iki; Jun Kitagawa; Naonobu Takahira; Yuho Sato; Etsuko Kajita; Yuki Fujita; Akiko Yura; Sadanobu Kagamimori
Journal:  J Bone Miner Metab       Date:  2017-12-27       Impact factor: 2.626

Review 7.  Effects of physical exercise on bone mineral density in older postmenopausal women: a systematic review and meta-analysis of randomized controlled trials.

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8.  State of Knowledge on Molecular Adaptations to Exercise in Humans: Historical Perspectives and Future Directions.

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9.  Are there effects of age, gender, height, and body fat on the functional muscle-bone unit in children and adults?

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Review 10.  Calcium homeostasis during hibernation and in mechanical environments disrupting calcium homeostasis.

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