Haploinsufficiency for translation elongation factor eEF1A2 in aged mouse muscle and neurons is compatible with normal function

Translation elongation factor isoform eEF1A2 is expressed in muscle and neurons. Deletion of eEF1A2 in mice gives rise to the neurodegenerative phenotype "wasted" (wst). Mice homozygous for the wasted mutation die of muscle wasting and neurodegeneration at four weeks post-natal. Although t...

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Veröffentlicht in:	PloS one 2012-07, Vol.7 (7), p.e41917-e41917
Hauptverfasser:	Griffiths, Lowri A, Doig, Jennifer, Churchhouse, Antonia M D, Davies, Faith C J, Squires, Charlotte E, Newbery, Helen J, Abbott, Catherine M
Format:	Artikel
Sprache:	eng
Schlagworte:	Abnormalities Age Aging Aging - genetics Aging - metabolism Aging - physiology Amyotrophic lateral sclerosis Analysis Animal models Animals Biology Brain Breeding Degeneration Down-Regulation Elongation Female Genotype & phenotype Grip strength Hand Strength - physiology Haploinsufficiency Heterozygote Immunohistochemistry Male Medicine Mice Muscles Muscles - metabolism Muscles - physiology Mutation Neurodegeneration Neurons Neurons - cytology Neurons - metabolism Peptide Elongation Factor 1 - genetics Phenotype Protein expression Proteins Proteomics Rodents Rotarod Performance Test Spinal cord Spinal Cord - cytology Translation Translation elongation
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creator	Griffiths, Lowri A Doig, Jennifer Churchhouse, Antonia M D Davies, Faith C J Squires, Charlotte E Newbery, Helen J Abbott, Catherine M
description	Translation elongation factor isoform eEF1A2 is expressed in muscle and neurons. Deletion of eEF1A2 in mice gives rise to the neurodegenerative phenotype "wasted" (wst). Mice homozygous for the wasted mutation die of muscle wasting and neurodegeneration at four weeks post-natal. Although the mutation is said to be recessive, aged heterozygous mice have never been examined in detail; a number of other mouse models of motor neuron degeneration have recently been shown to have similar, albeit less severe, phenotypic abnormalities in the heterozygous state. We therefore examined the effects of ageing on a cohort of heterozygous +/wst mice and control mice, in order to establish whether a presumed 50% reduction in eEF1A2 expression was compatible with normal function. We evaluated the grip strength assay as a way of distinguishing between wasted and wild-type mice at 3-4 weeks, and then performed the same assay in older +/wst and wild-type mice. We also used rotarod performance and immunohistochemistry of spinal cord sections to evaluate the phenotype of aged heterozygous mice. Heterozygous mutant mice showed no deficit in neuromuscular function or signs of spinal cord pathology, in spite of the low levels of eEF1A2.
doi_str_mv	10.1371/journal.pone.0041917
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Deletion of eEF1A2 in mice gives rise to the neurodegenerative phenotype "wasted" (wst). Mice homozygous for the wasted mutation die of muscle wasting and neurodegeneration at four weeks post-natal. Although the mutation is said to be recessive, aged heterozygous mice have never been examined in detail; a number of other mouse models of motor neuron degeneration have recently been shown to have similar, albeit less severe, phenotypic abnormalities in the heterozygous state. We therefore examined the effects of ageing on a cohort of heterozygous +/wst mice and control mice, in order to establish whether a presumed 50% reduction in eEF1A2 expression was compatible with normal function. We evaluated the grip strength assay as a way of distinguishing between wasted and wild-type mice at 3-4 weeks, and then performed the same assay in older +/wst and wild-type mice. 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subjects	Abnormalities Age Aging Aging - genetics Aging - metabolism Aging - physiology Amyotrophic lateral sclerosis Analysis Animal models Animals Biology Brain Breeding Degeneration Down-Regulation Elongation Female Genotype & phenotype Grip strength Hand Strength - physiology Haploinsufficiency Heterozygote Immunohistochemistry Male Medicine Mice Muscles Muscles - metabolism Muscles - physiology Mutation Neurodegeneration Neurons Neurons - cytology Neurons - metabolism Peptide Elongation Factor 1 - genetics Phenotype Protein expression Proteins Proteomics Rodents Rotarod Performance Test Spinal cord Spinal Cord - cytology Translation Translation elongation
title	Haploinsufficiency for translation elongation factor eEF1A2 in aged mouse muscle and neurons is compatible with normal function
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