Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophy--Supplementary Figure 2: Histograms of muscle fiber cross-sectional area

Supplementary Figure 2: Histograms of muscle cross-sectional area (CSA) for PGC and MCAT colonies. A: PGC male histogram of muscle CSA. B: PGC female histogram of muscle CSA. C: MCAT male histogram of muscle CSA. D: MCAT female histogram of muscle CSA. PGC males had the following sample sizes: WT-CO...

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Hauptverfasser:	Rosa-Caldwell, Megan, Greene, Nicholas, Washington, Tyrone A., Haynie, Wesley S., SeongKyun Lim, Jansen, Lisa T., Amos, Madeline G., Westervelt, Lauren C.
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Schlagworte:	FOS: Clinical medicine Neurology and Neuromuscular Diseases
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creator	Rosa-Caldwell, Megan Greene, Nicholas Washington, Tyrone A. Haynie, Wesley S. SeongKyun Lim Jansen, Lisa T. Amos, Madeline G. Westervelt, Lauren C.
description	Supplementary Figure 2: Histograms of muscle cross-sectional area (CSA) for PGC and MCAT colonies. A: PGC male histogram of muscle CSA. B: PGC female histogram of muscle CSA. C: MCAT male histogram of muscle CSA. D: MCAT female histogram of muscle CSA. PGC males had the following sample sizes: WT-CON= 9, WT-HU= 10, PGC-CON= 9, PGC-HU= 9. PGC females had the following samples sizes: WT-CON= 8, WT-HU= 9, PGC-CON= 9, PGC-HU= 9. MCAT males had the following sample sizes: WT-CON= 8, WT-HU= 7, MCAT-CON= 4, MCAT-HU= 3. MCAT females had the following samples sizes: WT-CON= 5, WT-HU= 6, MCAT-CON= 6, MCAT-HU= 6. Article Title: Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophyAuthors: Megan E. Rosa-Caldwell, Seongkyun Lim, Wesley S. Haynie, Lisa T. Jansen, Lauren C. Westervelt, Madeline G. Amos, Tyrone A. Washington, Nicholas P. GreeneAbstract: Muscle atrophy is a significant moderator for disease prognosis; as such, interventions to mitigate disuse-induced muscle loss are imperative to improve clinical interventions. Mitochondrial deteriorations may underlie disuse-induced myopathies; therefore, improving mitochondrial quality may be an enticing therapeutic intervention. However, different mitochondrial-based treatments may have divergent impacts on the prognosis of disuse atrophy. Therefore, the purpose of this study was to investigate different mitochondria-centered interventions during disuse atrophy in hindlimb unloaded male and female mice. Methods: Male and female mice overexpressing PGC-1α (PGC-1α) or mitochondrially-targeted catalase (MCAT) and their respective wildtype (WT) littermate controls were hindlimb unloaded for 7 days to induce disuse atrophy or allowed normal ambulatory activity (cage control; CON). After designated interventions, animals were euthanized and tissues collected for measures of mitochondrial quality control and protein turnover. Results: While PGC-1α overexpression mitigated ubiquitin-proteasome activation (MuRF1 and Atrogin mRNA content), this did not correspond to phenotypic protections from disuse-induced atrophy. Rather, PGC-1α mice appeared to have a greater reliance on autophagic protein breakdown compared to WT. In MCAT mice, females exhibited a mitigated response to disuse atrophy; however, this effect was not noted in males. Despite these phenotypic differences, there were no clear cellular signaling differences between MCAT hindlimb unloaded females and MCAT fully loaded females
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A: PGC male histogram of muscle CSA. B: PGC female histogram of muscle CSA. C: MCAT male histogram of muscle CSA. D: MCAT female histogram of muscle CSA. PGC males had the following sample sizes: WT-CON= 9, WT-HU= 10, PGC-CON= 9, PGC-HU= 9. PGC females had the following samples sizes: WT-CON= 8, WT-HU= 9, PGC-CON= 9, PGC-HU= 9. MCAT males had the following sample sizes: WT-CON= 8, WT-HU= 7, MCAT-CON= 4, MCAT-HU= 3. MCAT females had the following samples sizes: WT-CON= 5, WT-HU= 6, MCAT-CON= 6, MCAT-HU= 6. Article Title: Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophyAuthors: Megan E. Rosa-Caldwell, Seongkyun Lim, Wesley S. Haynie, Lisa T. Jansen, Lauren C. Westervelt, Madeline G. Amos, Tyrone A. Washington, Nicholas P. GreeneAbstract: Muscle atrophy is a significant moderator for disease prognosis; as such, interventions to mitigate disuse-induced muscle loss are imperative to improve clinical interventions. Mitochondrial deteriorations may underlie disuse-induced myopathies; therefore, improving mitochondrial quality may be an enticing therapeutic intervention. However, different mitochondrial-based treatments may have divergent impacts on the prognosis of disuse atrophy. Therefore, the purpose of this study was to investigate different mitochondria-centered interventions during disuse atrophy in hindlimb unloaded male and female mice. Methods: Male and female mice overexpressing PGC-1α (PGC-1α) or mitochondrially-targeted catalase (MCAT) and their respective wildtype (WT) littermate controls were hindlimb unloaded for 7 days to induce disuse atrophy or allowed normal ambulatory activity (cage control; CON). After designated interventions, animals were euthanized and tissues collected for measures of mitochondrial quality control and protein turnover. Results: While PGC-1α overexpression mitigated ubiquitin-proteasome activation (MuRF1 and Atrogin mRNA content), this did not correspond to phenotypic protections from disuse-induced atrophy. Rather, PGC-1α mice appeared to have a greater reliance on autophagic protein breakdown compared to WT. In MCAT mice, females exhibited a mitigated response to disuse atrophy; however, this effect was not noted in males. Despite these phenotypic differences, there were no clear cellular signaling differences between MCAT hindlimb unloaded females and MCAT fully loaded females. Conclusion: PGC-1α overexpression does not protect against phenotypic alterations during disuse atrophy but appears to shift catabolic pathways moderating atrophy. However, increased mitochondrially-targeted catalase activity appears to blunt disuse atrophy within highly oxidative muscles specifically in female mice.</description><identifier>DOI: 10.6084/m9.figshare.12689918</identifier><language>eng</language><publisher>figshare</publisher><subject>FOS: Clinical medicine ; Neurology and Neuromuscular Diseases</subject><creationdate>2020</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>780,1892</link.rule.ids><linktorsrc>$$Uhttps://commons.datacite.org/doi.org/10.6084/m9.figshare.12689918$$EView_record_in_DataCite.org$$FView_record_in_$$GDataCite.org$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Rosa-Caldwell, Megan</creatorcontrib><creatorcontrib>Greene, Nicholas</creatorcontrib><creatorcontrib>Washington, Tyrone A.</creatorcontrib><creatorcontrib>Haynie, Wesley S.</creatorcontrib><creatorcontrib>SeongKyun Lim</creatorcontrib><creatorcontrib>Jansen, Lisa T.</creatorcontrib><creatorcontrib>Amos, Madeline G.</creatorcontrib><creatorcontrib>Westervelt, Lauren C.</creatorcontrib><title>Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophy--Supplementary Figure 2: Histograms of muscle fiber cross-sectional area</title><description>Supplementary Figure 2: Histograms of muscle cross-sectional area (CSA) for PGC and MCAT colonies. A: PGC male histogram of muscle CSA. B: PGC female histogram of muscle CSA. C: MCAT male histogram of muscle CSA. D: MCAT female histogram of muscle CSA. PGC males had the following sample sizes: WT-CON= 9, WT-HU= 10, PGC-CON= 9, PGC-HU= 9. PGC females had the following samples sizes: WT-CON= 8, WT-HU= 9, PGC-CON= 9, PGC-HU= 9. MCAT males had the following sample sizes: WT-CON= 8, WT-HU= 7, MCAT-CON= 4, MCAT-HU= 3. MCAT females had the following samples sizes: WT-CON= 5, WT-HU= 6, MCAT-CON= 6, MCAT-HU= 6. Article Title: Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophyAuthors: Megan E. Rosa-Caldwell, Seongkyun Lim, Wesley S. Haynie, Lisa T. Jansen, Lauren C. Westervelt, Madeline G. Amos, Tyrone A. Washington, Nicholas P. GreeneAbstract: Muscle atrophy is a significant moderator for disease prognosis; as such, interventions to mitigate disuse-induced muscle loss are imperative to improve clinical interventions. Mitochondrial deteriorations may underlie disuse-induced myopathies; therefore, improving mitochondrial quality may be an enticing therapeutic intervention. However, different mitochondrial-based treatments may have divergent impacts on the prognosis of disuse atrophy. Therefore, the purpose of this study was to investigate different mitochondria-centered interventions during disuse atrophy in hindlimb unloaded male and female mice. Methods: Male and female mice overexpressing PGC-1α (PGC-1α) or mitochondrially-targeted catalase (MCAT) and their respective wildtype (WT) littermate controls were hindlimb unloaded for 7 days to induce disuse atrophy or allowed normal ambulatory activity (cage control; CON). After designated interventions, animals were euthanized and tissues collected for measures of mitochondrial quality control and protein turnover. Results: While PGC-1α overexpression mitigated ubiquitin-proteasome activation (MuRF1 and Atrogin mRNA content), this did not correspond to phenotypic protections from disuse-induced atrophy. Rather, PGC-1α mice appeared to have a greater reliance on autophagic protein breakdown compared to WT. In MCAT mice, females exhibited a mitigated response to disuse atrophy; however, this effect was not noted in males. Despite these phenotypic differences, there were no clear cellular signaling differences between MCAT hindlimb unloaded females and MCAT fully loaded females. Conclusion: PGC-1α overexpression does not protect against phenotypic alterations during disuse atrophy but appears to shift catabolic pathways moderating atrophy. However, increased mitochondrially-targeted catalase activity appears to blunt disuse atrophy within highly oxidative muscles specifically in female mice.</description><subject>FOS: Clinical medicine</subject><subject>Neurology and Neuromuscular Diseases</subject><fulltext>true</fulltext><rsrctype>image</rsrctype><creationdate>2020</creationdate><recordtype>image</recordtype><sourceid>PQ8</sourceid><recordid>eNqdjz1OxDAQhdNQIOAGFHOBhGRZrRI6hFhtD71lnEkyws4YzxgpN-KYGMFegOo17--rqtuubQ5tv78LQzPRLItN2HS7Qz8MXX9ZfT16xUTrDFYiOhXgCQIpu4XXMZH18JGtJ91AGSjExJ8IIYvLnuUdPWqxcFbHAQVohZEkC4LVxHHZ6volx-gx4Ko2bXCkOSeE3QOcSJTnZMPvZGn0CBO9YQKXWKSWcod4LfXlsr2uLibrBW_-9KraH59fn071aNU6UjQxUSgTpmvND7AJgzkDmzPw_T9j3zazbwA</recordid><startdate>20200722</startdate><enddate>20200722</enddate><creator>Rosa-Caldwell, Megan</creator><creator>Greene, Nicholas</creator><creator>Washington, Tyrone A.</creator><creator>Haynie, Wesley S.</creator><creator>SeongKyun Lim</creator><creator>Jansen, Lisa T.</creator><creator>Amos, Madeline G.</creator><creator>Westervelt, Lauren C.</creator><general>figshare</general><scope>DYCCY</scope><scope>PQ8</scope></search><sort><creationdate>20200722</creationdate><title>Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophy--Supplementary Figure 2: Histograms of muscle fiber cross-sectional area</title><author>Rosa-Caldwell, Megan ; Greene, Nicholas ; Washington, Tyrone A. ; Haynie, Wesley S. ; SeongKyun Lim ; Jansen, Lisa T. ; Amos, Madeline G. ; Westervelt, Lauren C.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-datacite_primary_10_6084_m9_figshare_126899183</frbrgroupid><rsrctype>images</rsrctype><prefilter>images</prefilter><language>eng</language><creationdate>2020</creationdate><topic>FOS: Clinical medicine</topic><topic>Neurology and Neuromuscular Diseases</topic><toplevel>online_resources</toplevel><creatorcontrib>Rosa-Caldwell, Megan</creatorcontrib><creatorcontrib>Greene, Nicholas</creatorcontrib><creatorcontrib>Washington, Tyrone A.</creatorcontrib><creatorcontrib>Haynie, Wesley S.</creatorcontrib><creatorcontrib>SeongKyun Lim</creatorcontrib><creatorcontrib>Jansen, Lisa T.</creatorcontrib><creatorcontrib>Amos, Madeline G.</creatorcontrib><creatorcontrib>Westervelt, Lauren C.</creatorcontrib><collection>DataCite (Open Access)</collection><collection>DataCite</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Rosa-Caldwell, Megan</au><au>Greene, Nicholas</au><au>Washington, Tyrone A.</au><au>Haynie, Wesley S.</au><au>SeongKyun Lim</au><au>Jansen, Lisa T.</au><au>Amos, Madeline G.</au><au>Westervelt, Lauren C.</au><format>book</format><genre>unknown</genre><ristype>GEN</ristype><title>Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophy--Supplementary Figure 2: Histograms of muscle fiber cross-sectional area</title><date>2020-07-22</date><risdate>2020</risdate><abstract>Supplementary Figure 2: Histograms of muscle cross-sectional area (CSA) for PGC and MCAT colonies. A: PGC male histogram of muscle CSA. B: PGC female histogram of muscle CSA. C: MCAT male histogram of muscle CSA. D: MCAT female histogram of muscle CSA. PGC males had the following sample sizes: WT-CON= 9, WT-HU= 10, PGC-CON= 9, PGC-HU= 9. PGC females had the following samples sizes: WT-CON= 8, WT-HU= 9, PGC-CON= 9, PGC-HU= 9. MCAT males had the following sample sizes: WT-CON= 8, WT-HU= 7, MCAT-CON= 4, MCAT-HU= 3. MCAT females had the following samples sizes: WT-CON= 5, WT-HU= 6, MCAT-CON= 6, MCAT-HU= 6. Article Title: Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophyAuthors: Megan E. Rosa-Caldwell, Seongkyun Lim, Wesley S. Haynie, Lisa T. Jansen, Lauren C. Westervelt, Madeline G. Amos, Tyrone A. Washington, Nicholas P. GreeneAbstract: Muscle atrophy is a significant moderator for disease prognosis; as such, interventions to mitigate disuse-induced muscle loss are imperative to improve clinical interventions. Mitochondrial deteriorations may underlie disuse-induced myopathies; therefore, improving mitochondrial quality may be an enticing therapeutic intervention. However, different mitochondrial-based treatments may have divergent impacts on the prognosis of disuse atrophy. Therefore, the purpose of this study was to investigate different mitochondria-centered interventions during disuse atrophy in hindlimb unloaded male and female mice. Methods: Male and female mice overexpressing PGC-1α (PGC-1α) or mitochondrially-targeted catalase (MCAT) and their respective wildtype (WT) littermate controls were hindlimb unloaded for 7 days to induce disuse atrophy or allowed normal ambulatory activity (cage control; CON). After designated interventions, animals were euthanized and tissues collected for measures of mitochondrial quality control and protein turnover. Results: While PGC-1α overexpression mitigated ubiquitin-proteasome activation (MuRF1 and Atrogin mRNA content), this did not correspond to phenotypic protections from disuse-induced atrophy. Rather, PGC-1α mice appeared to have a greater reliance on autophagic protein breakdown compared to WT. In MCAT mice, females exhibited a mitigated response to disuse atrophy; however, this effect was not noted in males. Despite these phenotypic differences, there were no clear cellular signaling differences between MCAT hindlimb unloaded females and MCAT fully loaded females. Conclusion: PGC-1α overexpression does not protect against phenotypic alterations during disuse atrophy but appears to shift catabolic pathways moderating atrophy. However, increased mitochondrially-targeted catalase activity appears to blunt disuse atrophy within highly oxidative muscles specifically in female mice.</abstract><pub>figshare</pub><doi>10.6084/m9.figshare.12689918</doi><oa>free_for_read</oa></addata></record>
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title	Altering aspects of mitochondrial quality to improve musculoskeletal outcomes in disuse atrophy--Supplementary Figure 2: Histograms of muscle fiber cross-sectional area
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