Gne depletion during zebrafish development impairs skeletal muscle structure and function.
@article{Daya2014GneDD,
title={Gne depletion during zebrafish development impairs skeletal muscle structure and function.},
author={Alon Daya and Gad D Vatine and Michal Becker-Cohen and Tzukit Tal-Goldberg and Adam Friedmann and Yoav Gothilf and Shao Jun Du and Stella Mitrani‐Rosenbaum},
journal={Human molecular genetics},
year={2014},
volume={23 13},
pages={
3349-61
}
}GNE Myopathy is a rare recessively inherited neuromuscular disorder caused by mutations in the GNE gene, which codes for the key enzyme in the metabolic pathway of sialic acid synthesis. The process by which GNE mutations lead to myopathy is not well understood. By in situ hybridization and gne promoter-driven fluorescent transgenic fish generation, we have characterized the spatiotemporal expression pattern of the zebrafish gne gene and have shown that it is highly conserved compared with the…
13 Citations
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This study indicates possible role of GNE in regulating actin dynamics and cell migration of skeletal muscle cell in skeletal muscle myoblast cell-based model system and offers great potential in understanding pathomechanism and target identification for GNEM.
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Results clearly indicate role of GNE in mitochondria-dependent cell apoptosis and provide insights into the pathomechanism of G NE myopathy.
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Molecular Pathogenesis and Therapeutic Strategy in GNE Myopathy
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The supplementation of ManNAc, NeuAc, and sialyllactose prevented the onset of the disorder and also recovered the muscle function from symptomatic status, suggesting hyposialylation is one of key factors in the pathogenesis of this disorder.
The not-so-long history of zebrafish research in Israel.
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The zebrafish has become a model of choice in fundamental and applied life sciences and is widely used in various fields of biomedical research as a human disease model for cancer, metabolic and…
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GNE myopathy: from clinics and genetics to pathology and research strategies
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This review is summarising current GNE myopathy, scientific trends and open questions, which would be of significant interest for a wide neuromuscular diseases community.
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A review summarizes the advances in therapeutic approaches for CDG, finding innovative diagnostic approaches, in vitro and in vivo models and novel biomarkers have been developed that can lead to novel therapeutic avenues aiming to ameliorate the patients’ symptoms and lives.
References
SHOWING 1-10 OF 63 REFERENCES
The zebrafish dag1 mutant: a novel genetic model for dystroglycanopathies.
- Biology, MedicineHuman molecular genetics
- 2011
In a forward genetic approach to identify novel genes for congenital muscle diseases, a zebrafish mutant, designated patchytail, was identified that exhibits degenerating muscle fibers with impaired motility behavior that is highly reminiscent of the phenotypes observed in the human conditions muscle-eye-brain disease and Walker-Warburg syndrome.
A Splice Site Mutation in Laminin-α2 Results in a Severe Muscular Dystrophy and Growth Abnormalities in Zebrafish
- Biology, MedicinePloS one
- 2012
This laminin-α2 deficient mutant fish represents a novel disease model to develop therapies for modulating splicing defects in congenital muscular dystrophies and to restore the muscle function in human patients with CMD.
Variable Phenotypes of Knockin Mice Carrying the M712T Gne Mutation
- BiologyNeuroMolecular Medicine
- 2012
A colony of GneM712T/ M712T knockin mice with a high- and long-term survival rate, lacking any renal phenotype are established, indicating that Gne defects can affect both muscle and kidney in mouse, but probably through different mechanisms.
A Gne knockout mouse expressing human GNE D176V mutation develops features similar to distal myopathy with rimmed vacuoles or hereditary inclusion body myopathy.
- BiologyHuman molecular genetics
- 2007
The results show that the Gne(-/-)hGNED176V-Tg mouse mimics the clinical, histopathological and biochemical features of DMRV/hIBM, making it useful for understanding the pathomechanism of this myopathy and for employing different strategies for therapy.
The zebrafish as a model for muscular dystrophy and congenital myopathy.
- BiologyHuman molecular genetics
- 2003
These studies are described, including a zebrafish model of what is potentially the novel pathological mechanism of muscle attachment failure in Duchenne and other muscular dystrophies.
Characterization of hereditary inclusion body myopathy myoblasts: possible primary impairment of apoptotic events
- BiologyCell Death and Differentiation
- 2007
The identification of survival defects in HIBM affected muscle cells could disclose new functions for GNE in muscle cells, and alter processes in these altered processes could contribute to the muscle mass loss seen in patients.
No overall hyposialylation in hereditary inclusion body myopathy myoblasts carrying the homozygous M712T GNE mutation.
- BiologyBiochemical and biophysical research communications
- 2005
Mitochondrial processes are impaired in hereditary inclusion body myopathy.
- BiologyHuman molecular genetics
- 2008
The subtle involvement of mitochondrial processes identified in HibM reveals an unexpected facet of HIBM pathophysiology which could at least partially explain the slow evolution of this disorder and give new insights in the disease mechanism.
Swimming into prominence: the zebrafish as a valuable tool for studying human myopathies and muscular dystrophies
- BiologyThe FEBS journal
- 2013
How the zebrafish has greatly aided in the identification of new muscle disease genes and in the recognition of novel therapeutic strategies is highlighted.