Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Vitamin D protects against immobilization-induced muscle atrophy via neural crest-derived cells in mice
View through CrossRef
AbstractVitamin D deficiency is a recognized risk factor for sarcopenia development, but mechanisms underlying this outcome are unclear. Here, we show that low vitamin D status worsens immobilization-induced muscle atrophy in mice. Mice globally lacking vitamin D receptor (VDR) exhibited more severe muscle atrophy following limb immobilization than controls. Moreover, immobilization-induced muscle atrophy was worse in neural crest-specific than in skeletal muscle-specific VDR-deficient mice. Tnfα expression was significantly higher in immobilized muscle of VDR-deficient relative to control mice, and was significantly elevated in neural crest-specific but not muscle-specific VDR-deficient mice. Furthermore, muscle atrophy induced by limb immobilization in low vitamin D mice was significantly inhibited in Tnfα-deficient mice. We conclude that vitamin D antagonizes immobilization-induced muscle atrophy via VDR expressed in neural crest-derived cells.
Springer Science and Business Media LLC
Title: Vitamin D protects against immobilization-induced muscle atrophy via neural crest-derived cells in mice
Description:
AbstractVitamin D deficiency is a recognized risk factor for sarcopenia development, but mechanisms underlying this outcome are unclear.
Here, we show that low vitamin D status worsens immobilization-induced muscle atrophy in mice.
Mice globally lacking vitamin D receptor (VDR) exhibited more severe muscle atrophy following limb immobilization than controls.
Moreover, immobilization-induced muscle atrophy was worse in neural crest-specific than in skeletal muscle-specific VDR-deficient mice.
Tnfα expression was significantly higher in immobilized muscle of VDR-deficient relative to control mice, and was significantly elevated in neural crest-specific but not muscle-specific VDR-deficient mice.
Furthermore, muscle atrophy induced by limb immobilization in low vitamin D mice was significantly inhibited in Tnfα-deficient mice.
We conclude that vitamin D antagonizes immobilization-induced muscle atrophy via VDR expressed in neural crest-derived cells.
Related Results
Poster 247: Muscle ERRγ Overexpression Mitigates the Muscle Atrophy after ACL injury
Poster 247: Muscle ERRγ Overexpression Mitigates the Muscle Atrophy after ACL injury
Objectives:
Anterior cruciate ligament (ACL) reconstruction is the 6th most common orthopedic procedure performed in the United States (1,2). There is substanti...
VITAMIN D INSUFFICIENCY IN FOUR MAJOR HOSPITALS OF PUNJAB
VITAMIN D INSUFFICIENCY IN FOUR MAJOR HOSPITALS OF PUNJAB
Objective: To demonstrate vitamin D deficiency in the general population of Punjab
Study Design: Observational, Cross-Sectional
Place and Duration: Multicentre study co...
Incremental evolution of the neural crest, neural crest cells and neural crest‐derived skeletal tissues
Incremental evolution of the neural crest, neural crest cells and neural crest‐derived skeletal tissues
AbstractUrochordates (ascidians) have recently supplanted cephalochordates (amphioxus) as the extant sister taxon of vertebrates. Given that urochordates possess migratory cells th...
PO-231 Effects of exercise on muscle atrophy in simulated weightless rats
PO-231 Effects of exercise on muscle atrophy in simulated weightless rats
Objective Insufficient physical activity, aerospace weight loss, and fixed treatment of fractures, tendons, and neuropathy, or the resulting muscle atrophy caused by reduced exerci...
1642-P: Deferoxamine Prevented Dexamethasone-Induced Muscle Atrophy through Inhibition of KLF15 and FOXO3a
1642-P: Deferoxamine Prevented Dexamethasone-Induced Muscle Atrophy through Inhibition of KLF15 and FOXO3a
Aim/hypothesis: Muscle atrophy is caused by various factors such as aging, a lack of exercise, and diseases. During these events, the balance between protein synthesis and degradat...
1636-P: The Effects of MS-275 Derivative in Diabetic Skeletal Muscle Atrophy
1636-P: The Effects of MS-275 Derivative in Diabetic Skeletal Muscle Atrophy
Aim/hypothesis: Histone Deacetylase (HDAC) is considered one of the pathogenic factors that induced muscle atrophy. MS-275, HDAC inhibitor, plays an important role in many physiolo...
Therapeutic Potential of Hydrogen-Rich Water on Muscle Atrophy Caused by Immobilization in a Mouse Model
Therapeutic Potential of Hydrogen-Rich Water on Muscle Atrophy Caused by Immobilization in a Mouse Model
Skeletal muscle atrophy is associated with poor quality of life and disability. Thus, finding a new strategy for the prevention and treatment of skeletal muscle atrophy is very cru...
Supplementary Data from Targeted BiTE Expression by an Oncolytic Vector Augments Therapeutic Efficacy Against Solid Tumors
Supplementary Data from Targeted BiTE Expression by an Oncolytic Vector Augments Therapeutic Efficacy Against Solid Tumors
<p>Supplementary Methods, Supplementary Figures S1-S15 Fig. S1. Purification and binding specificity of MV-encoded BiTEs. (A) Purification of MV-expressed BiTEs. Vero cells w...