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1.
J Appl Physiol (1985) ; 127(5): 1419-1426, 2019 11 01.
Article in English | MEDLINE | ID: mdl-31513447

ABSTRACT

Skeletal muscle satellite cells (SC) play an important role in muscle repair following injury. The regulation of SC activity is governed by myogenic regulatory factors (MRF), including MyoD, Myf5, myogenin, and MRF4. The mRNA expression of these MRF in humans following muscle damage has been predominately measured in whole muscle homogenates. Whether the temporal expression of MRF in a whole muscle homogenate reflects SC-specific expression of MRF remains largely unknown. Sixteen young men (23.1 ± 1.0 yr) performed 300 unilateral eccentric contractions (180°/s) of the knee extensors. Percutaneous muscle biopsies from the vastus lateralis were taken before (Pre) and 48 h postexercise. Fluorescence-activated cell sorting analysis was utilized to purify NCAM+ muscle SC from the whole muscle homogenate. Forty-eight hours post-eccentric exercise, MyoD, Myf5, and myogenin mRNA expression were increased in the whole muscle homogenate (~1.4-, ~4.0-, ~1.7-fold, respectively, P < 0.05) and in isolated SC (~19.3-, ~17.5-, ~58.9-fold, respectively, P < 0.05). MRF4 mRNA expression was not increased 48 h postexercise in the whole muscle homogenate (P > 0.05) or in isolated SC (P > 0.05). In conclusion, our results suggest that the directional changes in mRNA expression of the MRF in a whole muscle homogenate in response to acute eccentric exercise reflects that observed in isolated muscle SC.NEW & NOTEWORTHY The myogenic program is controlled via transcription factors referred to as myogenic regulatory factors (MRF). Previous studies have derived MRF expression from whole muscle homogenates, but little work has examined whether the mRNA expression of these transcripts reflects the pattern of expression in the actual population of satellite cells (SC). We report that MRF expression from an enriched SC population reflects the directional pattern of expression from skeletal muscle biopsy samples following eccentric contractions.


Subject(s)
Exercise/physiology , Muscle Contraction/physiology , Muscle, Skeletal/metabolism , Myogenic Regulatory Factors/biosynthesis , Satellite Cells, Skeletal Muscle/metabolism , Gene Expression , Humans , Male , Myogenic Regulatory Factors/genetics , RNA, Messenger/biosynthesis , RNA, Messenger/genetics , Young Adult
2.
J Appl Physiol (1985) ; 122(1): 182-190, 2017 01 01.
Article in English | MEDLINE | ID: mdl-27881669

ABSTRACT

Hematopoietic stem and progenitor cells are necessary to maintain, repair, and reconstitute the hematopoietic blood cell system. Mobilization of these cells from bone marrow to blood can be greatly increased under certain conditions, one such being exercise. The purpose of this study was to identify the importance of exercise intensity in hematopoietic mobilization, to better understand the mobilization kinetics postexercise, and to determine if exercise is capable of mobilizing several specific populations of hematopoietic cells that have clinical relevance in a transplant setting. Healthy individuals were exercised on a cycle ergometer at 70% of their peak work rate (WRpeak) until volitional fatigue and at 30% of their WRpeak work matched to the 70% WRpeak bout. Blood was collected before, immediately post, and 10, 30, and 60 min postexercise. Total blood cells, hematocrit, and mononuclear cells isolated by density gradient centrifugation were counted. Specific populations of hematopoietic stem cells were analyzed by flow cytometry. Mononuclear cells, CD34+, CD34+/CD38-, CD34+/CD110+, CD3-/CD16+/CD56+, CD11c+/CD123-, and CD11c-/CD123+ cells per millilter of blood increased postexercise. Overall, the 70% WRpeak exercise group showed greater mobilization immediately postexercise, while there was no observable increase in mobilization in the work matched 30% WRpeak exercise group. Mobilization of specific populations of hematopoietic cells mirrored changes in the general mobilization of mononuclear cells, suggesting that exercise serves as a nonspecific mobilization stimulus. Evidently, higher intensity exercise is capable of mobilizing hematopoietic cells to a large extent and immediately postexercise is an ideal time point for their collection. NEW & NOTEWORTHY: Here we demonstrate for the first time that mobilization of hematopoietic stem cells (HSCs) through exercise is intensity dependent, with the greatest mobilization occurring immediately after high-intensity exercise. As well, we show that exercise is a general stimulus for mobilization: increases in specific HSC populations are reliant on general mononuclear cell mobilization. Finally, we demonstrate no differences in mobilization between groups with different aerobic fitness.


Subject(s)
Exercise/physiology , Hematopoietic Stem Cells/physiology , Adult , Antigens, CD/metabolism , Bone Marrow/metabolism , Bone Marrow/physiology , Fatigue/metabolism , Fatigue/physiopathology , Flow Cytometry/methods , Hematopoietic Stem Cells/metabolism , Humans , Leukocytes, Mononuclear/metabolism , Leukocytes, Mononuclear/physiology , Male , Young Adult
3.
FASEB J ; 30(9): 3256-68, 2016 09.
Article in English | MEDLINE | ID: mdl-27306336

ABSTRACT

Skeletal muscle possesses the ability to regenerate after injury, but this ability is impaired or delayed with aging. Regardless of age, muscle retains the ability to positively respond to stimuli, such as exercise. We examined whether exercise is able to improve regenerative response in skeletal muscle of aged mice. Twenty-two-month-old male C57Bl/6J mice (n = 20) underwent an 8-wk progressive exercise training protocol [old exercised (O-Ex) group]. An old sedentary (O-Sed) and a sedentary young control (Y-Ctl) group were included. Animals were subjected to injections of cardiotoxin into the tibialis anterior muscle. The tibialis anterior were harvested before [O-Ex/O-Sed/Y-Ctl control (CTL); n = 6], 10 d (O-Ex/O-Sed/Y-Ctl d 10; n = 8), and 28 d (O-Ex/O-Sed/Y-Ctl d 28; n = 6) postinjection. Average fiber cross-sectional area was reduced in all groups at d 10 (CTL: O-Ex: 2499 ± 140; O-Sed: 2320 ± 165; Y-Ctl: 2474 ± 269; d 10: O-Ex: 1191 ± 100; O-Sed: 1125 ± 99; Y-Ctl: 1481 ± 167 µm(2); P < 0.05), but was restored to control values in O-Ex and Y-Ctl groups at d 28 (O-Ex: 2257 ± 181; Y-Ctl: 2398 ± 171 µm(2); P > 0.05). Satellite cell content was greater at CTL in O-Ex (2.6 ± 0.4 satellite cells/100 fibers) compared with O-Sed (1.0 ± 0.1% satellite cells/100 fibers; P < 0.05). Exercise conditioning appears to improve ability of skeletal muscle to regenerate after injury in aged mice.-Joanisse, S., Nederveen, J. P., Baker, J. M., Snijders, T., Iacono, C., Parise, G. Exercise conditioning in old mice improves skeletal muscle regeneration.


Subject(s)
Aging/physiology , Muscle, Skeletal/physiology , Physical Conditioning, Animal/physiology , Regeneration/physiology , Animals , Cobra Cardiotoxin Proteins/toxicity , Male , Mice , Mice, Inbred C57BL , Physical Endurance/physiology
4.
Med Sci Sports Exerc ; 48(7): 1294-301, 2016 07.
Article in English | MEDLINE | ID: mdl-26885637

ABSTRACT

PURPOSE: Erythropoietin is responsible for regulating the growth and development of red blood cells. Reports conflict on whether skeletal muscle is able to produce erythropoietin and release it into circulation and if exercise affects this. We set out to determine how erythropoietin is regulated in skeletal muscle and to determine whether skeletal muscle-derived erythropoietin can stimulate erythropoiesis. METHODS: Using an in vitro approach, we exposed proliferating and differentiated skeletal muscle cells to various forms of exercise-induced physiological stimuli and measured erythropoietin gene expression. To understand if skeletal muscle cells were able to stimulate erythropoiesis, independent of other cell types found in skeletal muscle, we used myoblast-conditioned media to treat bone marrow and to measure erythropoiesis through flow cytometry. We also measured erythropoietin expression and hypoxia in mice subjected to an exercise protocol designed to induce skeletal muscle oxygen stress. RESULTS: Hypoxia increased erythropoietin expression in C2C12 myoblasts, myotubes, and primary myoblasts in vitro by 50% to 130%. Bone marrow treated with media conditioned with hypoxic myoblasts for 24 h increased the number of Ter-119-positive cells by 32%. An erythropoietin-neutralizing antibody prevented this increase. Compared with unexercised controls, exhaustive exercise increased skeletal muscle HIF1α levels by 50% and HIF2α levels by 20%. Moreover, exercised skeletal muscle erythropoietin expression was 70% higher. CONCLUSION: These results demonstrate that skeletal muscle produces erythropoietin in a hypoxia and HIF-dependent manner and that hypoxia-treated muscle is capable of stimulating erythropoiesis in vitro.


Subject(s)
Erythropoietin/metabolism , Hypoxia/metabolism , Muscle Fibers, Skeletal/metabolism , Muscle, Skeletal/physiology , Physical Conditioning, Animal , Animals , Basic Helix-Loop-Helix Transcription Factors/metabolism , Cell Hypoxia , Cell Line , Hypoxia-Inducible Factor 1, alpha Subunit/metabolism , Male , Mice , Mice, Inbred C57BL
5.
Physiol Rep ; 2(6)2014 Jun 18.
Article in English | MEDLINE | ID: mdl-24944290

ABSTRACT

Chronic systemic inflammation is a clinical symptom in children with cystic fibrosis (CF), but the effects on skeletal muscle development are unknown. The aims of this study were to determine (1) the effects of systemic factors from children with CF and healthy controls on myoblast proliferation, and (2) whether exercise serum can have an effect on proliferation in vitro. Eleven children with CF and 11 biological age-matched controls completed two 30-min bouts of cycling at an intensity set at 50% peak mechanical power. Serum samples were collected before exercise (REST), immediately following exercise (EX), and after 60 min of recovery (REC). Serum samples prepared in group-specific pools were used for cell culture experiments. C2C12 myoblasts were incubated in 5% serum and media for 1 h and then immediately harvested for protein and mRNA analysis, or incubated in growth media for 2 days to examine proliferation. C2C12 myoblasts treated with CF serum displayed greater proliferation phenotype than myoblasts treated with control serum. Proliferation did not change with EX or REC serum from children with CF compared to CF REST serum, while proliferation was increased with EX and REC serum from control compared to control REST serum. These findings suggest that systemic factors from children with CF at rest and after exercise can alter myoblast proliferation responses when compared to systemic factors from healthy children, which may have implications on skeletal muscle development.

6.
J Cyst Fibros ; 13(1): 92-8, 2014 Jan.
Article in English | MEDLINE | ID: mdl-23809509

ABSTRACT

BACKGROUND: Exercise is a viable form of therapy for children with cystic fibrosis (CF). Understanding the energy sources used during exercise would aid CF patients in obtaining proper nutrition in order to sustain an active lifestyle. METHODS: Six boys with CF (mean age ± SD: 14.8 ± 2.3 yrs, FEV1: 99 ± 18% predicted) and six matched controls (14.0 ± 2.2 yrs) completed a session of two 30 min bouts of cycling at an intensity set at 50% peak mechanical power. Rates of total fat and carbohydrate (CHO) oxidation were calculated from expired gases. Plasma insulin, glucose and free fatty acid (FFA) were determined before, during and at the end of the exercise. RESULTS: Rates of fat oxidation (expressed in mean mg × kg body weight(-1) × min(-1) ± SD) were significantly lower in children with CF (5.7 ± 1.6) compared to controls (8.6 ± 1.8, p < 0.05). Children with CF also had lower values than controls in amount of fat oxidized (CF: 17.3 ± 5.0 g, controls: 26.1 ± 5.9 g, p < 0.05) and percent of total energy expenditure from fat (CF: 32 ± 6%, controls: 43 ± 7%, p < .0.05), but a higher contribution from CHO (CF: 68 ± 6%, controls: 57 ± 7% p < .0.05). Plasma FFA was significantly lower in children with CF compared to controls during (CF: 252.5 ± 117.9 µM, controls: 602.2 ± 295.6) and at the end of exercise (CF: 430.9 ± 180.6, controls: 1147.5 ± 473.5). There were no differences in the rates of CHO oxidation, insulin or glucose between groups. CONCLUSION: Fat metabolism during exercise is impaired in boys with CF and may be attributed to an inability to mobilize FFA.


Subject(s)
Cystic Fibrosis/metabolism , Cystic Fibrosis/physiopathology , Dietary Fats/metabolism , Exercise/physiology , Adolescent , Bicycling , Blood Glucose/metabolism , Child , Dietary Carbohydrates/metabolism , Energy Metabolism/physiology , Fatty Acids, Nonesterified/metabolism , Humans , Insulin/blood , Life , Lipid Metabolism/physiology , Male , Models, Biological , Nutritional Status , Oxidation-Reduction , Oxygen Consumption/physiology
7.
Inflamm Bowel Dis ; 19(12): 2659-65, 2013 Nov.
Article in English | MEDLINE | ID: mdl-24105390

ABSTRACT

BACKGROUND: Children with Crohn's disease (CD) suffer from malnutrition. Understanding substrate utilization during exercise may help patients with CD sustain a healthy active lifestyle without compromising nutrition. The aim of this study was to determine whether substrate utilization and bioavailability during exercise are altered in children with CD compared with controls. METHODS: Seven children with CD (mean age ± SD: 15.2 ± 2.3 yr) and 7 controls (14.4 ± 2.3 yr) were matched by sex and biological age. Participants completed 60 minutes of cycling at an intensity equivalent to 50% of their peak mechanical power. Rates of total fat and carbohydrate (CHO) oxidation, the amount of fat and CHO oxidized, and the contribution of fat and CHO to total energy expenditure were calculated from expired gases collected during exercise. Blood was collected before, during, and at the end of exercise and analyzed for insulin, free fatty acids, and glucose. RESULTS: Whole-body fat oxidation rate (expressed in mg · kg(-1) of body weight per min) during exercise was lower in children with CD (5.8 ± 1.0) compared with controls (8.0 ± 2.2, P < 0.05). Children with CD relied significantly more on CHO, with approximately 10% greater contribution toward total energy expenditure (P < 0.05) than controls. There were no differences in plasma insulin, free fatty acids, or glucose between the groups. CONCLUSIONS: Fat metabolism during exercise seems to be impaired in children with CD. A greater reliance on CHO is required to meet the energy demands of submaximal exercise.


Subject(s)
Adipose Tissue/chemistry , Crohn Disease/metabolism , Crohn Disease/pathology , Exercise/physiology , Lipid Metabolism , Adolescent , Blood Glucose/metabolism , Carbohydrate Metabolism , Case-Control Studies , Fatty Acids, Nonesterified/metabolism , Female , Follow-Up Studies , Humans , Insulin/metabolism , Male , Oxidation-Reduction , Prognosis
8.
Am J Physiol Cell Physiol ; 304(8): C717-28, 2013 Apr 15.
Article in English | MEDLINE | ID: mdl-23392112

ABSTRACT

Aging is associated with increased circulating interleukin-6 (IL-6) and a reduced myogenic capacity, marked by reduced muscle stem cell [satellite cell (SC)] activity. Although IL-6 is important for normal SC function, it is unclear whether elevated IL-6 associated with aging alters SC function. We hypothesized that mild chronically elevated IL-6 would be associated with a blunted SC response through altered IL-6 signaling and elevated suppressor of cytokine signaling-3 (SOCS3) in the elderly. Nine healthy older adult men (OA; 69.6 ± 3.9 yr) and 9 young male controls (YC; 21. 3 ± 3.1 yr) completed 4 sets of 10 repetitions of unilateral leg press and knee extension (75% of 1-RM). Muscle biopsies and blood were obtained before and 3, 24, and 48 h after exercise. Basal SC number was 33% lower in OA vs. YC, and the response was blunted in OA. IL-6(+)/Pax7(+) cells demonstrated a divergent response in OA, with YC increasing to 69% at 3 h and peaking at 24 h (72%), while IL-6(+)/Pax7(+) cells were not increased until 48 h in OA (61%). Type II fiber-associated phosphorylated signal transducer and activator of transcription (pSTAT3)(+)/Pax7(+) cells demonstrated a similar delay in OA, not increasing until 48 h (vs. 3 h in YC). SOCS3 protein was 86% higher in OA. These data demonstrate an age-related impairment in normal SC function that appears to be influenced by SOCS3 protein and delayed induction of IL-6 and pSTAT3 in the SCs of OA. Collectively, these data suggest dysregulated IL-6 signaling as a consequence of aging contributes to the blunted muscle stem cell response.


Subject(s)
Aging/metabolism , Interleukin-6/physiology , Muscle Cells/metabolism , Signal Transduction/physiology , Stem Cells/metabolism , Suppressor of Cytokine Signaling Proteins/biosynthesis , Adolescent , Aged , Aging/pathology , Exercise/physiology , Humans , Interleukin-6/antagonists & inhibitors , Male , Muscle Cells/pathology , Muscle Fibers, Skeletal/metabolism , Muscle Strength/physiology , Stem Cells/pathology , Suppressor of Cytokine Signaling 3 Protein , Young Adult
9.
Exp Hematol ; 41(2): 143-54, 2013 Feb.
Article in English | MEDLINE | ID: mdl-23063724

ABSTRACT

Bone marrow transplantation (BMT) is associated with a high risk of mortality, partially because of the harmful effects of the preconditioning myeloablative regimens. We have recently demonstrated increased bone marrow cell survival and proliferation in response to exercise training, which may be attributable to increased quality of the niche. The purpose of the present study was to determine the extent to which exercise preconditioning of recipients could increase the success of BMT. Recipient mice remained sedentary (SED) or were exercise-trained (EX) on a treadmill (3 d/wk for 8 weeks) before reconstitution with green fluorescent protein (GFP)-labeled donor marrow. Recipient survival, both donor-derived and total (donor- and recipient-derived) blood reconstitution were measured by flow cytometry. The first and fourth day after BMT apoptosis, cellularity and donor cell homing were determined in the recipients' bone marrow cavity by flow cytometry. Whereas only 25% of SED mice survived, 82% of EX recipients survived the BMT. Homing of donor-derived marrow cells to the recipients' marrow cavity acutely after BMT was not altered in EX, but EX mice displayed decreased levels (10%; p < 0.05) of activated caspase-3/-7 one day after BMT, leading to a maintenance of marrow cellularity in mice preconditioned with exercise. The acute inhibition of marrow cell apoptosis in EX mice resulted in increased total blood cell reconstitution at 1 and 3.5 months after BMT in EX mice (42% and 43%, respectively; both p < 0.05). Short- and long-term donor-derived engraftment was not different between EX and SED recipients. Exercise training increases recipient survival after BMT with increased total blood cell reconstitution.


Subject(s)
Bone Marrow Cells/cytology , Bone Marrow Transplantation/rehabilitation , Graft Survival , Physical Conditioning, Animal , Animals , Apoptosis , Bone Marrow Cells/enzymology , Chemotaxis, Leukocyte , Cytokines/blood , Female , Genes, Reporter , Green Fluorescent Proteins/analysis , Inflammation/blood , Male , Mice , Mice, Inbred C57BL , Radiation Chimera , Radiation Injuries, Experimental/blood , Radiation Injuries, Experimental/pathology , Radiation Injuries, Experimental/surgery , Running , Sedentary Behavior
10.
PLoS One ; 5(8): e12033, 2010 Aug 09.
Article in English | MEDLINE | ID: mdl-20711498

ABSTRACT

BACKGROUND: We aimed to determine the effect of resistance exercise intensity (%1 repetition maximum-1RM) and volume on muscle protein synthesis, anabolic signaling, and myogenic gene expression. METHODOLOGY/PRINCIPAL FINDINGS: Fifteen men (21+/-1 years; BMI=24.1+/-0.8 kg/m2) performed 4 sets of unilateral leg extension exercise at different exercise loads and/or volumes: 90% of repetition maximum (1RM) until volitional failure (90FAIL), 30% 1RM work-matched to 90%FAIL (30WM), or 30% 1RM performed until volitional failure (30FAIL). Infusion of [ring-13C6] phenylalanine with biopsies was used to measure rates of mixed (MIX), myofibrillar (MYO), and sarcoplasmic (SARC) protein synthesis at rest, and 4 h and 24 h after exercise. Exercise at 30WM induced a significant increase above rest in MIX (121%) and MYO (87%) protein synthesis at 4 h post-exercise and but at 24 h in the MIX only. The increase in the rate of protein synthesis in MIX and MYO at 4 h post-exercise with 90FAIL and 30FAIL was greater than 30WM, with no difference between these conditions; however, MYO remained elevated (199%) above rest at 24 h only in 30FAIL. There was a significant increase in AktSer473 at 24h in all conditions (P=0.023) and mTORSer2448 phosphorylation at 4 h post-exercise (P=0.025). Phosporylation of Erk1/2Tyr202/204, p70S6KThr389, and 4E-BP1Thr37/46 increased significantly (P<0.05) only in the 30FAIL condition at 4 h post-exercise, whereas, 4E-BP1Thr37/46 phosphorylation was greater 24 h after exercise than at rest in both 90FAIL (237%) and 30FAIL (312%) conditions. Pax7 mRNA expression increased at 24 h post-exercise (P=0.02) regardless of condition. The mRNA expression of MyoD and myogenin were consistently elevated in the 30FAIL condition. CONCLUSIONS/SIGNIFICANCE: These results suggest that low-load high volume resistance exercise is more effective in inducing acute muscle anabolism than high-load low volume or work matched resistance exercise modes.


Subject(s)
Exercise/physiology , Muscle Proteins/biosynthesis , Resistance Training , Weight-Bearing/physiology , Gene Expression Regulation , Humans , Intracellular Space/metabolism , Male , Muscle Fibers, Skeletal/cytology , Muscle Fibers, Skeletal/metabolism , Muscle Proteins/genetics , Myogenic Regulatory Factors/genetics , PAX7 Transcription Factor/genetics , Phenylalanine/blood , Phenylalanine/metabolism , RNA, Messenger/genetics , RNA, Messenger/metabolism , Signal Transduction , Young Adult
11.
NeuroRehabilitation ; 14(2): 69-83, 2000.
Article in English | MEDLINE | ID: mdl-11455070

ABSTRACT

Chronic pain is one of the most prevalent and costly health care problems and variability is the rule more than the exception in terms of pain related outcomes. Clearly, psychological factors such as depression, anxiety, post traumatic stress, excessive somatic thoughts and a variety of psychiatric syndromes are recognized as actively contributing to a patient's perceptions and responses to pain and can represent significant potential impediments to functioning and optimal health care outcome. As a result, it is becoming increasingly common, and even required by many programs, for individuals who seek treatment for pain to undergo a comprehensive assessment that evaluates not only their medical findings, but also beliefs about their condition, coping strategies, psychological adjustment, activity level and quality of life. Psychological assessment instruments that provide information about a person's physiological, behavioral, and cognitive-affective functioning in terms of vulnerabilities and strengths can be a valuable tool for treatment providers. In the present paper, a biopsychosocial conceptual model is employed to provide an overview of a method and approach in evaluating patients with chronic pain, toward the goal of facilitating optimal outcome and management of pain syndromes.

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