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Articles 1 - 5 of 5
Full-Text Articles in Rehabilitation and Therapy
Immunohistochemical Identification Of Human Skeletal Muscle Macrophages, Kate Kosmac, Bailey D. Peck, R. Grace Walton, Jyothi Mula, Philip A. Kern, Marcas M. Bamman, Richard A. Dennis, Cale A. Jacobs, Christian Lattermann, Darren L. Johnson, Charlotte A. Peterson
Immunohistochemical Identification Of Human Skeletal Muscle Macrophages, Kate Kosmac, Bailey D. Peck, R. Grace Walton, Jyothi Mula, Philip A. Kern, Marcas M. Bamman, Richard A. Dennis, Cale A. Jacobs, Christian Lattermann, Darren L. Johnson, Charlotte A. Peterson
Physical Therapy Faculty Publications
Macrophages have well-characterized roles in skeletal muscle repair and regeneration. Relatively little is known regarding the role of resident macrophages in skeletal muscle homeostasis, extracellular matrix remodeling, growth, metabolism and adaptation to various stimuli including exercise and training. Despite speculation into macrophage contributions during these processes, studies characterizing macrophages in non-injured muscle are limited and methods used to identify macrophages vary. A standardized method for the identification of human resident skeletal muscle macrophages will aide in the characterization of these immune cells and allow for the comparison of results across studies. Here, we present an immunohistochemistry (IHC) protocol, validated by …
Differential Requirement For Satellite Cells During Overload-Induced Muscle Hypertrophy In Growing Versus Mature Mice, Kevin A. Murach, Sarah H. White, Yuan Wen, Angel Ho, Esther E. Dupont-Versteegden, John J. Mccarthy, Charlotte A. Peterson
Differential Requirement For Satellite Cells During Overload-Induced Muscle Hypertrophy In Growing Versus Mature Mice, Kevin A. Murach, Sarah H. White, Yuan Wen, Angel Ho, Esther E. Dupont-Versteegden, John J. Mccarthy, Charlotte A. Peterson
Physical Therapy Faculty Publications
Background: Pax7+ satellite cells are required for skeletal muscle fiber growth during post-natal development in mice. Satellite cell-mediated myonuclear accretion also appears to persist into early adulthood. Given the important role of satellite cells during muscle development, we hypothesized that the necessity of satellite cells for adaptation to an imposed hypertrophic stimulus depends on maturational age.
Methods: Pax7CreER-R26RDTA mice were treated for 5 days with vehicle (satellite cell-replete, SC+) or tamoxifen (satellite cell-depleted, SC-) at 2 months (young) and 4 months (mature) of age. Following a 2-week washout, mice were subjected to sham surgery or 10 day …
Metformin To Augment Strength Training Effective Response In Seniors (Masters): Study Protocol For A Randomized Controlled Trial, Douglas E. Long, Bailey D. Peck, Jenny L. Martz, S. Craig Tuggle, Heather M. Bush, Gerald Mcgwin, Philip A. Kern, Marcas M. Bamman, Charlotte A. Peterson
Metformin To Augment Strength Training Effective Response In Seniors (Masters): Study Protocol For A Randomized Controlled Trial, Douglas E. Long, Bailey D. Peck, Jenny L. Martz, S. Craig Tuggle, Heather M. Bush, Gerald Mcgwin, Philip A. Kern, Marcas M. Bamman, Charlotte A. Peterson
Physical Therapy Faculty Publications
Background: Muscle mass and strength are strong determinants of a person’s quality of life and functional independence with advancing age. While resistance training is the most effective intervention to combat age-associated muscle atrophy (sarcopenia), the ability of older adults to increase muscle mass and strength in response to training is blunted and highly variable. Thus, finding novel ways to complement resistance training to improve muscle response and ultimately quality of life among older individuals is critical. The purpose of this study is to determine whether a commonly prescribed medication called metformin can be repurposed to improve the response to resistance …
Walking Performance Is Positively Correlated To Calf Muscle Fiber Size In Peripheral Artery Disease Subjects, But Fibers Show Aberrant Mitophagy: An Observational Study, Sarah H. White, Mary M. Mcdermott, Robert L. Sufit, Kate Kosmac, Alex W. Bugg, Marta Gonzalez-Freire, Luigi Ferrucci, Lu Tian, Lihui Zhao, Ying Gao, Melina R. Kibbe, Michael H. Criqui, Christiaan Leeuwenburgh, Charlotte A. Peterson
Walking Performance Is Positively Correlated To Calf Muscle Fiber Size In Peripheral Artery Disease Subjects, But Fibers Show Aberrant Mitophagy: An Observational Study, Sarah H. White, Mary M. Mcdermott, Robert L. Sufit, Kate Kosmac, Alex W. Bugg, Marta Gonzalez-Freire, Luigi Ferrucci, Lu Tian, Lihui Zhao, Ying Gao, Melina R. Kibbe, Michael H. Criqui, Christiaan Leeuwenburgh, Charlotte A. Peterson
Physical Therapy Faculty Publications
Background: Patients with lower extremity peripheral artery disease (PAD) have decreased mobility, which is not fully explained by impaired blood supply to the lower limb. Additionally, reports are conflicted regarding fiber type distribution patterns in PAD, but agree that skeletal muscle mitochondrial respiration is impaired.
Methods: To test the hypothesis that reduced muscle fiber oxidative activity and type I distribution are negatively associated with walking performance in PAD, calf muscle biopsies from non-PAD (n = 7) and PAD participants (n = 26) were analyzed immunohistochemically for fiber type and size, oxidative activity, markers of autophagy, and capillary density. Data were …
Bmi-1 Absence Causes Premature Brain Degeneration, Guangliang Cao, Minxia Gu, Min Zhu, Junying Gao, Ying Yin, Charles Marshall, Ming Xiao, Jiong Ding, Dengshun Miao
Bmi-1 Absence Causes Premature Brain Degeneration, Guangliang Cao, Minxia Gu, Min Zhu, Junying Gao, Ying Yin, Charles Marshall, Ming Xiao, Jiong Ding, Dengshun Miao
Physical Therapy Faculty Publications
Bmi-1, a polycomb transcriptional repressor, is implicated in cell cycle regulation and cell senescence. Its absence results in generalized astrogliosis and epilepsy during the postnatal development, but the underlying mechanisms are poorly understood. Here, we demonstrate the occurrence of oxidative stress in the brain of four-week-old Bmi-1 null mice. The mice showed various hallmarks of neurodegeneration including synaptic loss, axonal demyelination, reactive gliosis and brain mitochondrial damage. Moreover, astroglial glutamate transporters and glutamine synthetase decreased in the Bmi-1 null hippocampus, which might contribute to the sporadic epileptic-like seizures in these mice. These results indicate that Bmi-1 is required for maintaining …