Mitochondrial and sarcoplasmic reticulum abnormalities in cancer cachexia: altered energetic efficiency?
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Aiming for a better understanding and management of cancer-related fatigueMolecular pathways leading to loss of skeletal muscle mass in cancer cachexia--can findings from animal models be translated to humans?Preserved muscle oxidative metabolic phenotype in newly diagnosed non-small cell lung cancer cachexia.Time-Course of Muscle Mass Loss, Damage, and Proteolysis in Gastrocnemius following Unloading and Reloading: Implications in Chronic Diseases.Combination of exercise training and erythropoietin prevents cancer-induced muscle alterationsThe emerging role of skeletal muscle oxidative metabolism as a biological target and cellular regulator of cancer-induced muscle wastingCancer and Chemotherapy Contribute to Muscle Loss by Activating Common Signaling PathwaysChemotherapy-related cachexia is associated with mitochondrial depletion and the activation of ERK1/2 and p38 MAPKs.Novel investigational drugs mimicking exercise for the treatment of cachexia.Multi-omics Analysis of Serum Samples Demonstrates Reprogramming of Organ Functions Via Systemic Calcium Mobilization and Platelet Activation in Metastatic Melanoma.Disrupted Skeletal Muscle Mitochondrial Dynamics, Mitophagy, and Biogenesis during Cancer Cachexia: A Role for Inflammation.Phenotypic and metabolic features of mouse diaphragm and gastrocnemius muscles in chronic lung carcinogenesis: influence of underlying emphysema.Mitochondria dysfunction in lung cancer-induced muscle wasting in C2C12 myotubes.Bioenergetic Impairment in Congenital Muscular Dystrophy Type 1A and Leigh Syndrome Muscle CellsGrowth hormone secretagogues hexarelin and JMV2894 protect skeletal muscle from mitochondrial damages in a rat model of cisplatin-induced cachexia.Cachexia: a problem of energetic inefficiency.Physiological characterization of a mouse model of cachexia in colorectal liver metastases.ACVR2B/Fc counteracts chemotherapy-induced loss of muscle and bone mass.Formoterol attenuates increased oxidative stress and myosin protein loss in respiratory and limb muscles of cancer cachectic rats.Skeletal Muscle Function During the Progression of Cancer Cachexia in the Male ApcMin/+ Mouse.Role of PARP activity in lung cancer-induced cachexia: Effects on muscle oxidative stress, proteolysis, anabolic markers, and phenotype.Mitochondrial dysfunction and therapeutic approaches in respiratory and limb muscles of cancer cachectic mice.Modulating Metabolism to Improve Cancer-Induced Muscle Wasting.The AMPK agonist 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR), but not metformin, prevents inflammation-associated cachectic muscle wasting.
P2860
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P2860
Mitochondrial and sarcoplasmic reticulum abnormalities in cancer cachexia: altered energetic efficiency?
description
2013 nî lūn-bûn
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2013年の論文
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2013年学术文章
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2013年学术文章
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2013年学术文章
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name
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@en
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@nl
type
label
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@en
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@nl
prefLabel
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@en
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@nl
P2093
P50
P1476
Mitochondrial and sarcoplasmic ...... altered energetic efficiency?
@en
P2093
Albert García
Ana Paula Silva
Angelica Sette
Francisco J López-Soriano
Josep M Argilés
Marcel Orpí
Maria Inês Genovese
Maria Paz Aylwin
Míriam Toledo
Sònia Sirisi
P304
P356
10.1016/J.BBAGEN.2012.11.009
P577
2013-03-01T00:00:00Z