Neuron specific reduction in CuZnSOD is not sufficient to initiate a full sarcopenia phenotype
Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic accelerated muscle atrophy and weakness that mimics age-related sarcopenia. We have further shown that loss of CuZnSOD targeted to skeletal...
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| Published in | Redox biology Vol. 5; pp. 140 - 148 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier
01.08.2015
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| Abstract | Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic accelerated muscle atrophy and weakness that mimics age-related sarcopenia. We have further shown that loss of CuZnSOD targeted to skeletal muscle alone results in only mild weakness and no muscle atrophy. In this study, we targeted deletion of CuZnSOD specifically to neurons (nSod1KO mice) and determined the effect on muscle mass and weakness. The nSod1KO mice show a significant loss of CuZnSOD activity and protein level in brain and spinal cord but not in muscle tissue. The masses of the gastrocnemius, tibialis anterior and extensor digitorum longus (EDL) muscles were not reduced in nSod1KO compared to wild type mice, even at 20 months of age, although the quadriceps and soleus muscles showed small but statistically significant reductions in mass in the nSod1KO mice. Maximum isometric specific force was reduced by 8-10% in the gastrocnemius and EDL muscle of nSod1KO mice, while soleus was not affected. Muscle mitochondrial ROS generation and oxidative stress measured by levels of reactive oxygen/nitrogen species (RONS) regulatory enzymes, protein nitration and F2-isoprostane levels were not increased in muscle from the nSod1KO mice. Although we did not find evidence of denervation in the nSod1KO mice, neuromuscular junction morphology was altered and the expression of genes associated with denervation acetylcholine receptor subunit alpha (AChRα), the transcription factor, Runx1 and GADD45α) was increased, supporting a role for neuronal loss of CuZnSOD initiating alterations at the neuromuscular junction. These results and our previous studies support the concept that CuZnSOD deficits in either the motor neuron or muscle alone are not sufficient to initiate a full sarcopenic phenotype and that deficits in both tissues are required to recapitulate the loss of muscle observed in Sod1KO mice. |
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| AbstractList | Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic accelerated muscle atrophy and weakness that mimics age-related sarcopenia. We have further shown that loss of CuZnSOD targeted to skeletal muscle alone results in only mild weakness and no muscle atrophy. In this study, we targeted deletion of CuZnSOD specifically to neurons (nSod1KO mice) and determined the effect on muscle mass and weakness. The nSod1KO mice show a significant loss of CuZnSOD activity and protein level in brain and spinal cord but not in muscle tissue. The masses of the gastrocnemius, tibialis anterior and extensor digitorum longus (EDL) muscles were not reduced in nSod1KO compared to wild type mice, even at 20 months of age, although the quadriceps and soleus muscles showed small but statistically significant reductions in mass in the nSod1KO mice. Maximum isometric specific force was reduced by 8-10% in the gastrocnemius and EDL muscle of nSod1KO mice, while soleus was not affected. Muscle mitochondrial ROS generation and oxidative stress measured by levels of reactive oxygen/nitrogen species (RONS) regulatory enzymes, protein nitration and F2-isoprostane levels were not increased in muscle from the nSod1KO mice. Although we did not find evidence of denervation in the nSod1KO mice, neuromuscular junction morphology was altered and the expression of genes associated with denervation acetylcholine receptor subunit alpha (AChRα), the transcription factor, Runx1 and GADD45α) was increased, supporting a role for neuronal loss of CuZnSOD initiating alterations at the neuromuscular junction. These results and our previous studies support the concept that CuZnSOD deficits in either the motor neuron or muscle alone are not sufficient to initiate a full sarcopenic phenotype and that deficits in both tissues are required to recapitulate the loss of muscle observed in Sod1KO mice. Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic accelerated muscle atrophy and weakness that mimics age-related sarcopenia. We have further shown that loss of CuZnSOD targeted to skeletal muscle alone results in only mild weakness and no muscle atrophy. In this study, we targeted deletion of CuZnSOD specifically to neurons (nSod1KO mice) and determined the effect on muscle mass and weakness. The nSod1KO mice show a significant loss of CuZnSOD activity and protein level in brain and spinal cord but not in muscle tissue. The masses of the gastrocnemius, tibialis anterior and extensor digitorum longus (EDL) muscles were not reduced in nSod1KO compared to wild type mice, even at 20 months of age, although the quadriceps and soleus muscles showed small but statistically significant reductions in mass in the nSod1KO mice. Maximum isometric specific force was reduced by 8–10% in the gastrocnemius and EDL muscle of nSod1KO mice, while soleus was not affected. Muscle mitochondrial ROS generation and oxidative stress measured by levels of reactive oxygen/nitrogen species (RONS) regulatory enzymes, protein nitration and F2-isoprostane levels were not increased in muscle from the nSod1KO mice. Although we did not find evidence of denervation in the nSod1KO mice, neuromuscular junction morphology was altered and the expression of genes associated with denervation acetylcholine receptor subunit alpha (AChRα), the transcription factor, Runx1 and GADD45α) was increased, supporting a role for neuronal loss of CuZnSOD initiating alterations at the neuromuscular junction. These results and our previous studies support the concept that CuZnSOD deficits in either the motor neuron or muscle alone are not sufficient to initiate a full sarcopenic phenotype and that deficits in both tissues are required to recapitulate the loss of muscle observed in Sod1KO mice. Keywords: CuZnSOD, Oxidative stress, Neuromuscular junction, Muscle atrophy, Sarcopenia Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1 KO mice) have neuromuscular changes resulting in dramatic accelerated muscle atrophy and weakness that mimics age-related sarcopenia. We have further shown that loss of CuZnSOD targeted to skeletal muscle alone results in only mild weakness and no muscle atrophy. In this study, we targeted deletion of CuZnSOD specifically to neurons (n Sod1 KO mice) and determined the effect on muscle mass and weakness. The n Sod1 KO mice show a significant loss of CuZnSOD activity and protein level in brain and spinal cord but not in muscle tissue. The masses of the gastrocnemius, tibialis anterior and extensor digitorum longus (EDL) muscles were not reduced in n Sod1 KO compared to wild type mice, even at 20 months of age, although the quadriceps and soleus muscles showed small but statistically significant reductions in mass in the n Sod1 KO mice. Maximum isometric specific force was reduced by 8–10% in the gastrocnemius and EDL muscle of n Sod1 KO mice, while soleus was not affected. Muscle mitochondrial ROS generation and oxidative stress measured by levels of reactive oxygen/nitrogen species (RONS) regulatory enzymes, protein nitration and F 2 -isoprostane levels were not increased in muscle from the n Sod1 KO mice. Although we did not find evidence of denervation in the n Sod1 KO mice, neuromuscular junction morphology was altered and the expression of genes associated with denervation acetylcholine receptor subunit alpha (AChRα), the transcription factor, Runx1 and GADD45α) was increased, supporting a role for neuronal loss of CuZnSOD initiating alterations at the neuromuscular junction. These results and our previous studies support the concept that CuZnSOD deficits in either the motor neuron or muscle alone are not sufficient to initiate a full sarcopenic phenotype and that deficits in both tissues are required to recapitulate the loss of muscle observed in Sod1 KO mice. ● CuZnSOD deletion in n Sod1 KO mice does not induce an overt sarcopenia phenotype. ● Force is slightly reduced in the gastrocnemius of n Sod1 KO mice but mass is unaffected. ● Neuronal Sod1 depletion does not induce denervation despite altered NMJ morphology. ● Neuronal Sod1 depletion does not induce muscle oxidative stress or mitochondrial ROS. ● Deficits in both motor neurons and muscle are required to initiate sarcopenia. |
| Author | Qaisar, Rizwan Sakellariou, Giorgos K McArdle, Anne Van Remmen, Holly Sataranatarajan, Kavithalakshmi Zhang, Yiqiang Bhaskaran, Shylesh Davis, Carol Liu, Yuhong Richardson, Arlan Jackson, Malcolm Vasilaki, Aphrodite Brooks, Susan V |
| AuthorAffiliation | f Department of Biochemistry, UT Southwestern Medical Center, Dallas, TX, USA b Oklahoma VA Medical Center, Oklahoma City, OK 73104, USA e Reynolds Oklahoma Center on Aging, University of Oklahoma Health Sciences Center and Oklahoma City VA Medical Center, Oklahoma City, OK, USA g Sam and Ann Barshop Institute for Longevity and Aging Studies, The University of Texas Health Science Center at San Antonio, San Antonio, TX, USA a Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA c MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK d Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, MI, USA |
| AuthorAffiliation_xml | – name: b Oklahoma VA Medical Center, Oklahoma City, OK 73104, USA – name: a Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA – name: c MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK – name: g Sam and Ann Barshop Institute for Longevity and Aging Studies, The University of Texas Health Science Center at San Antonio, San Antonio, TX, USA – name: d Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, MI, USA – name: e Reynolds Oklahoma Center on Aging, University of Oklahoma Health Sciences Center and Oklahoma City VA Medical Center, Oklahoma City, OK, USA – name: f Department of Biochemistry, UT Southwestern Medical Center, Dallas, TX, USA |
| Author_xml | – sequence: 1 givenname: Kavithalakshmi surname: Sataranatarajan fullname: Sataranatarajan, Kavithalakshmi organization: Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA – sequence: 2 givenname: Rizwan surname: Qaisar fullname: Qaisar, Rizwan organization: Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA – sequence: 3 givenname: Carol surname: Davis fullname: Davis, Carol organization: Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, MI, USA – sequence: 4 givenname: Giorgos K surname: Sakellariou fullname: Sakellariou, Giorgos K organization: MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK – sequence: 5 givenname: Aphrodite surname: Vasilaki fullname: Vasilaki, Aphrodite organization: MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK – sequence: 6 givenname: Yiqiang surname: Zhang fullname: Zhang, Yiqiang organization: Department of Biochemistry, UT Southwestern Medical Center, Dallas, TX, USA – sequence: 7 givenname: Yuhong surname: Liu fullname: Liu, Yuhong organization: Sam and Ann Barshop Institute for Longevity and Aging Studies, The University of Texas Health Science Center at San Antonio, San Antonio, TX, USA – sequence: 8 givenname: Shylesh surname: Bhaskaran fullname: Bhaskaran, Shylesh organization: Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA – sequence: 9 givenname: Anne surname: McArdle fullname: McArdle, Anne organization: MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK – sequence: 10 givenname: Malcolm surname: Jackson fullname: Jackson, Malcolm organization: MRC Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing (CIMA), Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK – sequence: 11 givenname: Susan V surname: Brooks fullname: Brooks, Susan V organization: Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, MI, USA – sequence: 12 givenname: Arlan surname: Richardson fullname: Richardson, Arlan organization: Oklahoma VA Medical Center, Oklahoma City, OK 73104, USA; Reynolds Oklahoma Center on Aging, University of Oklahoma Health Sciences Center and Oklahoma City VA Medical Center, Oklahoma City, OK, USA – sequence: 13 givenname: Holly surname: Van Remmen fullname: Van Remmen, Holly email: holly-vanremmen@omrf.org organization: Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA; Oklahoma VA Medical Center, Oklahoma City, OK 73104, USA. Electronic address: holly-vanremmen@omrf.org |
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| Keywords | Oxidative stress Sarcopenia CuZnSOD Muscle atrophy Neuromuscular junction |
| Language | English |
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| Snippet | Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic... Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1 KO mice) have neuromuscular changes resulting in... Our previous studies showed that adult (8 month) mice lacking CuZn-superoxide dismutase (CuZnSOD, Sod1KO mice) have neuromuscular changes resulting in dramatic... |
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| SubjectTerms | Aging Animals Cell Cycle Proteins - metabolism Core Binding Factor Alpha 2 Subunit - metabolism F2-Isoprostanes - analysis Gas Chromatography-Mass Spectrometry Mice Mice, Knockout Microscopy, Fluorescence Mitochondria - metabolism Muscle, Skeletal - metabolism Neuromuscular Junction - metabolism Neuromuscular Junction - pathology Neurons - metabolism Nuclear Proteins - metabolism Oxidative Stress Phenotype Reactive Nitrogen Species - metabolism Reactive Oxygen Species - metabolism Receptors, Cholinergic - metabolism Research Paper Sarcopenia - enzymology Sarcopenia - metabolism Sarcopenia - pathology Superoxide Dismutase - deficiency Superoxide Dismutase - genetics Superoxide Dismutase - metabolism |
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| Title | Neuron specific reduction in CuZnSOD is not sufficient to initiate a full sarcopenia phenotype |
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