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12 results on '"Owen ED"'

1. Deletion of Sod1 in Motor Neurons Exacerbates Age-Related Changes in Axons and Neuromuscular Junctions in Mice.

Author

Pollock N, Macpherson PC, Staunton CA, Hemmings K, Davis CS, Owen ED, Vasilaki A, Van Remmen H, Richardson A, McArdle A, Brooks SV, and Jackson MJ

Subjects
Mice, Animals, Motor Neurons metabolism, Superoxide Dismutase-1 genetics, Superoxide Dismutase-1 metabolism, Axons metabolism, Mice, Transgenic, Superoxide Dismutase genetics, Muscle, Skeletal physiology, Neuromuscular Junction metabolism
Abstract

Whole-body knock-out of Cu,Zn superoxide dismutase (Sod1KO) results in accelerated, age-related loss of muscle mass and function associated with neuromuscular junction (NMJ) breakdown similar to sarcopenia. In order to determine whether altered redox in motor neurons underlies this phenotype, an inducible neuron-specific deletion of Sod1 (i-mnSod1KO) was compared with wild-type (WT) mice of different ages (adult, mid-age, and old) and whole-body Sod1KO mice. Nerve oxidative damage, motor neuron numbers and structural changes to neurons and NMJ were examined. Tamoxifen-induced deletion of neuronal Sod1 from two months of age. No specific effect of a lack of neuronal Sod1 was seen on markers of nerve oxidation (electron paramagnetic resonance of an in vivo spin probe, protein carbonyl, or protein 3-nitrotyrosine contents). i-mnSod1KO mice showed increased denervated NMJ, reduced numbers of large axons and increased number of small axons compared with old WT mice. A large proportion of the innervated NMJs in old i-mnSod1KO mice displayed a simpler structure than that seen in adult or old WT mice. Thus, previous work showed that neuronal deletion of Sod1 induced exaggerated loss of muscle in old mice, and we report that this deletion leads to a specific nerve phenotype including reduced axonal area, increased proportion of denervated NMJ, and reduced acetyl choline receptor complexity. Other changes in nerve and NMJ structure seen in the old i-mnSod1KO mice reflect aging of the mice., Competing Interests: The authors declare no competing financial interests., (Copyright © 2023 Pollock et al.)

Published
2023
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2. Skeletal muscle transcriptomics identifies common pathways in nerve crush injury and ageing.

Author

Staunton CA, Owen ED, Hemmings K, Vasilaki A, McArdle A, Barrett-Jolley R, and Jackson MJ

Subjects
Aging genetics, Animals, Mice, Mice, Inbred C57BL, Muscle, Skeletal innervation, Nerve Crush, Nerve Regeneration physiology, RNA, Transcriptome, Crush Injuries, Muscle Denervation
Abstract

Motor unit remodelling involving repeated denervation and re-innervation occurs throughout life. The efficiency of this process declines with age contributing to neuromuscular deficits. This study investigated differentially expressed genes (DEG) in muscle following peroneal nerve crush to model motor unit remodelling in C57BL/6 J mice. Muscle RNA was isolated at 3 days post-crush, RNA libraries were generated using poly-A selection, sequenced and analysed using gene ontology and pathway tools. Three hundred thirty-four DEG were found in quiescent muscle from (26mnth) old compared with (4-6mnth) adult mice and these same DEG were present in muscle from adult mice following nerve crush. Peroneal crush induced 7133 DEG in muscles of adult and 699 DEG in muscles from old mice, although only one DEG (ZCCHC17) was found when directly comparing nerve-crushed muscles from old and adult mice. This analysis revealed key differences in muscle responses which may underlie the diminished ability of old mice to repair following nerve injury., (© 2022. The Author(s).)

Published
2022
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3. Panniculitis with an unusual diagnosis.

Author

Owen ED, Logan R, May K, and Kalavala M

Subjects
Diagnosis, Differential, Female, Humans, Immunosuppressive Agents therapeutic use, Microscopic Polyangiitis complications, Microscopic Polyangiitis drug therapy, Microscopic Polyangiitis pathology, Middle Aged, Panniculitis drug therapy, Panniculitis etiology, Renal Insufficiency etiology, Microscopic Polyangiitis diagnosis, Panniculitis pathology, Skin pathology
Published
2020
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4. HyPer2 imaging reveals temporal and heterogeneous hydrogen peroxide changes in denervated and aged skeletal muscle fibers in vivo.

Author

Staunton CA, Owen ED, Pollock N, Vasilaki A, Barrett-Jolley R, McArdle A, and Jackson MJ

Subjects
Animals, Fluorescent Dyes, Male, Mice, Mitochondria metabolism, Muscular Atrophy metabolism, Nerve Crush, Neuromuscular Junction metabolism, Oxidants metabolism, Oxidative Stress, Sarcopenia metabolism, Aging metabolism, Hydrogen Peroxide metabolism, Molecular Probes metabolism, Muscle Fibers, Skeletal metabolism
Abstract

To determine the role of denervation and motor unit turnover in the age-related increase in skeletal muscle oxidative stress, the hydrogen peroxide (H 2 O 2 ) specific, genetically-encoded, fluorescent cyto-HyPer2 probe was expressed in mouse anterior tibialis (AT) muscle and compared with ex vivo measurements of mitochondrial oxidant generation. Crush of the peroneal nerve induced increased mitochondrial peroxide generation, measured in permeabilised AT fibers ex vivo and intra vital confocal microscopy of cyto-HyPer2 fluorescence showed increased cytosolic H 2 O 2 in a sub-set (~24%) of individual fibers associated with onset of fiber atrophy. In comparison, mitochondrial peroxide generation was also increased in resting muscle from old (26 month) mice compared with adult (6-8 month) mice, but no age effect on fiber cytosolic H 2 O 2 in vivo was seen. Thus ageing is associated with an increased ability of muscle fibers to maintain cytosolic redox homeostasis in the presence of denervation-induced increase in mitochondrial peroxide generation.

Published
2019
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9. Reimplantation of completely amputated rat limb.

Author

Ashur H and Owen ED

Subjects
Amputation, Surgical, Animals, Female, Male, Microsurgery, Saphenous Vein surgery, Hindlimb surgery, Rats anatomy & histology, Replantation
Abstract

A technique for the amputation and immediate reimplantation of rats legs was studied using a microsurgical technique. Complete survival of the reimplanted leg was achieved by basing the blood supply on anastomoses of arteries about 0.4 mm in external diameter. Anastomoses of vessels in that range by interrupted sutures of 10/0 and 11/0 black monofilament nylon proved to be compatible with leg survival. The ultimate survival of the reimplanted limbs depended upon microsurgical technique, preoperative and operative heparinization and external protection during the recovery phase. Animals are alive and using the replanted limb, several months postoperatively.

Published
1979

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