Atrogin1-induced loss of aquaporin 4 in myocytes leads to skeletal muscle atrophy
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Atrogin1-induced loss of aquaporin 4 in myocytes leads to skeletal muscle atrophy
Authors
Keywords
-
Journal
Scientific Reports
Volume 10, Issue 1, Pages -
Publisher
Springer Science and Business Media LLC
Online
2020-08-25
DOI
10.1038/s41598-020-71167-8
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Innate immune receptors in skeletal muscle metabolism
- (2017) Nicolas J. Pillon et al. EXPERIMENTAL CELL RESEARCH
- Aquaporin Protein-Protein Interactions
- (2017) Jennifer Roche et al. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
- Marked decrease of aquaporin-4 protein is independent of the changes in α1-syntrophin and TRPV4 levels in response to denervation-induced muscle atrophy in vivo
- (2017) Minenori Ishido et al. JOURNAL OF MUSCLE RESEARCH AND CELL MOTILITY
- Upregulation of Atrogin-1/FBXO32 is not necessary for cartilage destruction in mouse models of osteoarthritis
- (2017) H.-E. Kim et al. OSTEOARTHRITIS AND CARTILAGE
- Fatty acid-binding protein 4 regulates fatty infiltration after rotator cuff tear by hypoxia-inducible factor 1 in mice
- (2017) Yong-Soo Lee et al. Journal of Cachexia Sarcopenia and Muscle
- Aquaporin-4 Protein Is Stably Maintained in the Hypertrophied Muscles by Functional Overload
- (2016) Minenori Ishido et al. ACTA HISTOCHEMICA ET CYTOCHEMICA
- The toll of the gridiron: damage-associated molecular patterns and hypertension in American football
- (2016) Cameron G. McCarthy et al. FASEB JOURNAL
- Activin A induces skeletal muscle catabolism via p38β mitogen-activated protein kinase
- (2016) Hui Ding et al. Journal of Cachexia Sarcopenia and Muscle
- Unknown
- (2015) Huan Yang et al. MOLECULAR MEDICINE
- Skeletal muscle atrophy and the E3 ubiquitin ligases MuRF1 and MAFbx/atrogin-1
- (2014) Sue C. Bodine et al. AMERICAN JOURNAL OF PHYSIOLOGY-ENDOCRINOLOGY AND METABOLISM
- Age-related and disease-related muscle loss: the effect of diabetes, obesity, and other diseases
- (2014) Rita Rastogi Kalyani et al. Lancet Diabetes & Endocrinology
- Diggin′ on U(biquitin): A Novel Method for the Identification of Physiological E3 Ubiquitin Ligase Substrates
- (2013) Carrie E. Rubel et al. CELL BIOCHEMISTRY AND BIOPHYSICS
- Stat3 Activation Links a C/EBPδ to Myostatin Pathway to Stimulate Loss of Muscle Mass
- (2013) Liping Zhang et al. Cell Metabolism
- Fatty Infiltration and Rotator Cuff Atrophy
- (2013) Bradley R. Kuzel et al. JOURNAL OF THE AMERICAN ACADEMY OF ORTHOPAEDIC SURGEONS
- AQP4-Dependent Water Transport Plays a Functional Role in Exercise-Induced Skeletal Muscle Adaptations
- (2013) Davide Basco et al. PLoS One
- Cellular and molecular mechanisms of muscle atrophy
- (2012) P. Bonaldo et al. Disease Models & Mechanisms
- Molecular and cellular mechanisms of skeletal muscle atrophy: an update
- (2012) Alessandro Fanzani et al. Journal of Cachexia Sarcopenia and Muscle
- C/EBPβ mediates tumour-induced ubiquitin ligase atrogin1/MAFbx upregulation and muscle wasting
- (2011) Guohua Zhang et al. EMBO JOURNAL
- Absence of Aquaporin-4 in Skeletal Muscle Alters Proteins Involved in Bioenergetic Pathways and Calcium Handling
- (2011) Davide Basco et al. PLoS One
- Signaling pathways perturbing muscle mass
- (2010) David J Glass CURRENT OPINION IN CLINICAL NUTRITION AND METABOLIC CARE
- Alterations in function after rotator cuff tears in an animal model
- (2009) Stephanie M. Perry et al. JOURNAL OF SHOULDER AND ELBOW SURGERY
- AQP4 knockout impairs proliferation, migration and neuronal differentiation of adult neural stem cells
- (2008) H. Kong et al. JOURNAL OF CELL SCIENCE
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExploreAdd your recorded webinar
Do you already have a recorded webinar? Grow your audience and get more views by easily listing your recording on Peeref.
Upload Now