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1. Skeletal muscle adaptations in patients with lung cancer: Longitudinal observations from the whole body to cellular level

Author

Deena B. Snoke, Emma Bellefleur, Hibba Tul Rehman, James A. Carson, Matthew E. Poynter, Kim L. Dittus, and Michael J. Toth

Subjects
Atrophy, Cachexia, Chemotherapy, Malignancy, Pulmonary disease, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Cancer and its treatment can adversely affect skeletal muscle, impacting physical function, treatment response and survival. No studies, however, have comprehensively characterized these muscle adaptations longitudinally in human patients at the cellular level. Methods We examined skeletal muscle size and function from the whole body to the sub‐cellular level in 11 patients with non‐small cell lung cancer (NSCLC; 6 male/5 female, mean age 58 ± 3 years) studied over a 2‐month observation period starting during their first cycle of standard of care cancer treatment and in 11 age‐ and sex‐matched healthy controls (HC) without a current or past history of cancer. Biopsies of the vastus lateralis were performed to assess muscle fibre size, contractility and mitochondrial content, along with assessments of physical function, whole muscle size and function, and circulating cytokines. Results Body weight, composition and thigh muscle area and density were unaltered over time in patients with NSCLC, while muscle density was lower in patients with NSCLC versus HC (P = 0.03). Skeletal muscle fibre size decreased by 18% over time in patients (all P = 0.02) and was lower than HC (P = 0.02). Mitochondrial fractional area and density did not change over time in patients, but fractional area was lower in patients with NSCLC compared with HC (subsarcolemmal, P = 0.04; intermyofibrillar, P = 0.03). Patients with NSCLC had higher plasma concentrations of IL‐6 (HC 1.40 ± 0.50; NSCLC 4.71 ± 4.22; P

Published
2023
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2. Mouse skeletal muscle adaptations to different durations of treadmill exercise after the cessation of FOLFOX chemotherapy

Author

Jessica L. Halle, Brittany R. Counts, Quan Zhang, Kylie M. James, Melissa J. Puppa, Stephen E. Alway, and James A. Carson

Subjects
myokines, exerkines, IL-6, LIF, myostatin, COXIV, Physiology, QP1-981
Abstract

FOLFOX (5-fluorouracil, leucovorin, oxaliplatin) chemotherapy is a treatment for colorectal cancer that can induce persistent fatigue and metabolic dysfunction. Regular exercise after chemotherapy cessation is widely recommended for cancer patients and has been shown to improve fatigue resistance in mice. However, gaps remain in understanding whether the early systemic and skeletal muscle adaptations to regular exercise are altered by prior FOLFOX chemotherapy treatment. Furthermore, the effects of exercise duration on early metabolic and skeletal muscle transcriptional adaptations are not fully established.Purpose: Investigate the effects of prior FOLFOX chemotherapy treatment on the early adaptations to repeated short- or long-duration treadmill exercise, including the fasting regulation of circulating metabolic regulators, skeletal muscle COXIV activity and myokine/exerkine gene expression in male mice.Methods: Male C57BL6/J mice completed 4 cycles of FOLFOX or PBS and were allowed to recover for 4-weeks. Subsets of mice performed 14 sessions (6 d/wk, 18 m/min, 5% grade) of short- (10 min/d) or long-duration (55 min/d) treadmill exercise. Blood plasma and muscle tissues were collected 48–72 h after the last exercise bout for biochemical analyses.Results: Long-duration exercise increased fasting plasma osteocalcin, LIF, and IL-6 in healthy PBS mice, and these changes were ablated by prior FOLFOX treatment. Slow-oxidative soleus muscle COXIV activity increased in response to long-duration exercise in PBS mice, which was blocked by prior FOLFOX treatment. Fast-glycolytic plantaris muscle COXIV activity increased with short-duration exercise independent of FOLFOX administration. There was a main effect for long-duration exercise to increase fasting muscle IL-6 and COXIV mRNA expression independent of FOLFOX. FOLFOX administration reduced muscle IL-6, LIF, and BDNF mRNA expression irrespective of long-duration exercise. Interestingly, short-duration exercise suppressed the FOLXOX induction of muscle myostatin mRNA expression.Conclusion: FOLFOX attenuated early exercise adaptations related to fasting circulating osteocalcin, LIF, and IL-6. However, prior FOLFOX treatment did not alter the exercise adaptations of plantaris muscle COXIV activity and plasma adiponectin. An improved understanding of mechanisms underlying exercise adaptations after chemotherapy will provide the basis for successfully treating fatigue and metabolic dysfunction in cancer survivors.

Published
2023
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3. Mitochondria transplant therapy improves regeneration and restoration of injured skeletal muscle

Author

Stephen E. Alway, Hector G. Paez, Christopher R. Pitzer, Peter J. Ferrandi, Mohammad Moshahid Khan, Junaith S. Mohamed, James A. Carson, and Michael R. Deschenes

Subjects
Mitochondria, Muscle injury, Regeneration, Muscle fibre types, Muscle force, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Injection of exogenous mitochondria has been shown to improve the ischaemia‐damaged myocardium, but the effect of mitochondrial transplant therapy (MTT) to restore skeletal muscle mass and function has not been tested following neuromuscular injury. Therefore, we tested the hypothesis that MTT would improve the restoration of muscle function after injury. Methods BaCl2 was injected into the gastrocnemius muscle of one limb of 8–12‐week‐old C57BL/6 mice to induce damage without injury to the resident stem cells. The contralateral gastrocnemius muscle was injected with phosphate‐buffered saline (PBS) and served as the non‐injured intra‐animal control. Mitochondria were isolated from donor mice. Donor mitochondria were suspended in PBS or PBS without mitochondria (sham treatment) and injected into the tail vein of BaCl2 injured mice 24 h after the initial injury. Muscle repair was examined 7, 14 and 21 days after injury. Results MTT did not increase systemic inflammation in mice. Muscle mass 7 days following injury was 21.9 ± 2.1% and 17.4 ± 1.9% lower (P

Published
2023
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4. Exercise as a therapy for cancer-induced muscle wasting

Author

Jessica L. Halle, Brittany R. Counts, and James A. Carson

Subjects
Physical activity, Anabolic resistance, Inflammation, IL-6, Metabolic dysfunction, Protein turnover, Medicine (General), R5-920
Abstract

Cancer cachexia is a progressive disorder characterized by body weight, fat, and muscle loss. Cachexia induces metabolic disruptions that can be analogous and distinct from those observed in cancer, obscuring both diagnosis and treatment options. Inflammation, hypogonadism, and physical inactivity are widely investigated as systemic mediators of cancer-induced muscle wasting. At the cellular level, dysregulation of protein turnover and energy metabolism can negatively impact muscle mass and function. Exercise is well known for its anti-inflammatory effects and potent stimulation of anabolic signaling. Emerging evidence suggests the potential for exercise to rescue muscle's sensitivity to anabolic stimuli, reduce wasting through protein synthesis modulation, myokine release, and subsequent downregulation of proteolytic factors. To date, there is no recommendation for exercise in the management of cachexia. Given its complex nature, a multimodal approach incorporating exercise offers promising potential for cancer cachexia treatment. This review's primary objective is to summarize the growing body of research examining exercise regulation of cancer cachexia. Furthermore, we will provide evidence for exercise interactions with established systemic and cellular regulators of cancer-induced muscle wasting.

Published
2020
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5. Inflammation, physical activity, and chronic disease: An evolutionary perspective

Author

Roberto Carlos Burini, Elizabeth Anderson, J. Larry Durstine, and James A. Carson

Subjects
Medicine (General), R5-920
Abstract

Low-grade inflammation is emerging as a common feature of contemporary metabolic, psychiatric, and neurodegenerative diseases. Both physical inactivity and abdominal adiposity are associated with persistent systemic low-grade inflammation. Thus, the behavioral, biological, and physiological changes that cause a predisposition to obesity and other co-morbidities could have epigenetic underpinnings in addition to various evolutionary scenarios. A key assumption involves the potential for a mismatch between the human genome molded over generations, and the issue of adapting to the modern high calorie diet and common built environments promoting inactivity. This biological mismatch appears to have dire health consequences. Therefore, the goal of this article is to provide a brief overview on the importance of inflammation as part of human survival and how physical activity (PA) and physical inactivity are critical regulators of systemic inflammation. The review will highlight anti-inflammatory effects of PA and exercise training from a metabolic and systemic signaling perspective, which includes skeletal muscle to utilization of fatty acids, TLR4 signaling, and myokine/adipokine effects. The available evidence suggests that PA, regular exercise, and weight loss offer both protection against and treatment for a wide variety of chronic diseases associated with low-grade inflammation through an improved inflammatory profile. Keywords: Inflammation, Immunity, Myokines, Cytokines, Physical inactivity, Physical activity, Exercise, Obesity

Published
2020
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6. The Effect of Mechanical Stretch on Myotube Growth Suppression by Colon-26 Tumor-Derived Factors

Author

Jessica L. Halle, Brittany R. Counts-Franch, Rose M. Prince, and James A. Carson

Subjects
cancer cachexia, skeletal muscle (myotubes), myosin heavy chain, myogenic differentiation, passive stretch, Biology (General), QH301-705.5
Abstract

Preclinical models and in vitro experiments have provided valuable insight into the regulation of cancer-induced muscle wasting. Colon-26 (C26) tumor cells induce cachexia in mice, and conditioned media (CM) from these cells promotes myotube atrophy and catabolic signaling. While mechanical stimuli can prevent some effects of tumor-derived factors on myotubes, the impact of mechanical signaling on tumor-derived factor regulation of myosin heavy chain (MyHC) expression is not well understood. Therefore, we examined the effects of stretch-induced mechanical signaling on C2C12 myotube growth and MyHC expression after C26 CM exposure. C26 CM was administered to myotubes on day 5 of differentiation for 48 h. During the last 4 or 24 h of C26 CM exposure, 5% static uniaxial stretch was administered. C26 CM suppressed myotube growth and MyHC protein and mRNA expression. Stretch for 24 h increased myotube size and prevented the C26 CM suppression of MyHC-Fast protein expression. Stretch did not change suppressed MyHC mRNA expression. Stretch for 24 h reduced Atrogin-1/MAFbx, MuRF-1, and LC3B II/I ratio and increased integrin β1D protein expression and the myogenin-to-MyoD protein ratio. Stretch in the last 4 h of CM increased ERK1/2 phosphorylation but did not alter the CM induction of STAT3 or p38 phosphorylation. These results provide evidence that in myotubes pre-incubated with CM, the induction of mechanical signaling can still provide a growth stimulus and preserve MyHC-Fast protein expression independent of changes in mRNA expression.

Published
2021
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7. Wheel running improves fasting‐induced AMPK signaling in skeletal muscle from tumor‐bearing mice

Author

Dennis K. Fix, Brittany R. Counts, Ashley J. Smuder, Mark A. Sarzynski, Ho‐Jin Koh, and James A. Carson

Subjects
cachexia, muscle wasting, physical activity, protein breakdown, Physiology, QP1-981
Abstract

Abstract Disruptions to muscle protein turnover and metabolic regulation contribute to muscle wasting during the progression of cancer cachexia. The initiation of cachexia is also associated with decreased physical activity. While chronic muscle AMPK activation occurs during cachexia progression in ApcMin/+ (MIN) mice, a preclinical cachexia model, the understanding of muscle AMPK’s role during cachexia initiation is incomplete. Therefore, we examined if voluntary wheel exercise could improve skeletal muscle AMPK signaling in pre‐cachectic MIN mice. Next, we examined muscle AMPK’s role in aberrant catabolic signaling in response to a 12‐h fast in mice initiating cachexia. Male C57BL/6 (B6: N = 26) and MIN (N = 29) mice were subjected to ad libitum feeding, 12‐h fast, or 4 wks. of wheel access and then a 12‐h fast during the initiation of cachexia. Male tamoxifen‐inducible skeletal muscle AMPKα1α2 (KO) knockout mice crossed with ApcMin/+ and floxed controls were examined (WT: N = 8, KO: N = 8, MIN: N = 10, MIN KO: N = 6). Male mice underwent a 12‐h fast and the gastrocnemius muscle was analyzed. MIN gastrocnemius mass was reduced compared to B6 mice. A 12‐h fast induced MIN muscle AMPKT172, FOXOS413, and ULK‐1S555 phosphorylation compared to B6. Wheel running attenuated these inductions. A 12‐h fast induced MIN muscle MuRF‐1 protein expression compared to B6 and was suppressed by wheel running. Additionally, fasting induced muscle autophagy signaling and disrupted mitochondrial quality protein expression in the MIN, which was prevented in the MIN KO. We provide evidence that increased skeletal muscle AMPK sensitivity to a 12‐h fast is an adverse event in pre‐cachectic MIN mice, and exercise can improve this regulation.

Published
2021
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8. The Acute Effects of 5 Fluorouracil on Skeletal Muscle Resident and Infiltrating Immune Cells in Mice

Author

Brandon N. VanderVeen, Alexander T. Sougiannis, Kandy T. Velazquez, James A. Carson, Daping Fan, and E. Angela Murphy

Subjects
chemotherapy, monocytes, macrophages, skeletal muscle, bone marrow, Physiology, QP1-981
Abstract

5 fluorouracil (5FU) has been a first-choice chemotherapy drug for several cancer types (e.g., colon, breast, head, and neck); however, its efficacy is diminished by patient acquired resistance and pervasive side effects. Leukopenia is a hallmark of 5FU; however, the impact of 5FU-induced leukopenia on healthy tissue is only becoming unearthed. Recently, skeletal muscle has been shown to be impacted by 5FU in clinical and preclinical settings and weakness and fatigue remain among the most consistent complaints in cancer patients undergoing chemotherapy. Monocytes, or more specifically macrophages, are the predominate immune cell in skeletal muscle which regulate turnover and homeostasis through removal of damaged or old materials as well as coordinate skeletal muscle repair and remodeling. Whether 5FU-induced leukopenia extends beyond circulation to impact resident and infiltrating skeletal muscle immune cells has not been examined. The purpose of the study was to examine the acute effects of 5FU on resident and infiltrating skeletal muscle monocytes and inflammatory mediators. Male C57BL/6 mice were given a physiologically translatable dose (35 mg/kg) of 5FU, or PBS, i.p. once daily for 5 days to recapitulate 1 dosing cycle. Our results demonstrate that 5FU reduced circulating leukocytes, erythrocytes, and thrombocytes while inducing significant body weight loss (>5%). Flow cytometry analysis of the skeletal muscle indicated a reduction in total CD45+ immune cells with a corresponding decrease in total CD45+CD11b+ monocytes. There was a strong relationship between circulating leukocytes and skeletal muscle CD45+ immune cells. Skeletal muscle Ly6cHigh activated monocytes and M1-like macrophages were reduced with 5FU treatment while total M2-like CD206+CD11c- macrophages were unchanged. Interestingly, 5FU reduced bone marrow CD45+ immune cells and CD45+CD11b+ monocytes. Our results demonstrate that 5FU induced body weight loss and decreased skeletal muscle CD45+ immune cells in association with a reduction in infiltrating Ly6cHigh monocytes. Interestingly, the loss of skeletal muscle immune cells occurred with bone marrow cell cycle arrest. Together our results highlight that skeletal muscle is sensitive to 5FU’s off-target effects which disrupts both circulating and skeletal muscle immune cells.

Published
2020
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9. The Impact of Immune Cells on the Skeletal Muscle Microenvironment During Cancer Cachexia

Author

Brandon N. VanderVeen, E. Angela Murphy, and James A. Carson

Subjects
extracellular matrix, macrophage, satellite cell, fibroblast, endothelium, Physiology, QP1-981
Abstract

Progressive weight loss combined with skeletal muscle atrophy, termed cachexia, is a common comorbidity associated with cancer that results in adverse consequences for the patient related to decreased chemotherapy responsiveness and increased mortality. Cachexia’s complexity has provided a barrier for developing successful therapies to prevent or treat the condition, since a large number of systemic disruptions that can regulate muscle mass are often present. Furthermore, considerable effort has focused on investigating how tumor derived factors and inflammatory mediators directly signal skeletal muscle to disrupt protein turnover regulation. Currently, there is developing appreciation for understanding how cancer alters skeletal muscle’s complex microenvironment and the tightly regulated interactions between multiple cell types. Skeletal muscle microenvironment interactions have established functions in muscle response to regeneration from injury, growth, aging, overload-induced hypertrophy, and exercise. This review explores the growing body of evidence for immune cell modulation of the skeletal muscle microenvironment during cancer-induced muscle wasting. Emphasis is placed on the regulatory network that integrates physiological responses between immune cells with other muscle cell types including satellite cells, fibroblast cells, and endothelial cells to regulate myofiber size and plasticity. The overall goal of this review is to provide an understanding of how different cell types that constitute the muscle microenvironment and their signaling mediators contribute to cancer and chemotherapy-induced muscle wasting.

Published
2020
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10. The Effect of Estradiol Administration on Muscle Mass Loss and Cachexia Progression in Female ApcMin/+ Mice

Author

Brittany R. Counts, Dennis K. Fix, Kimbell L. Hetzler, and James A. Carson

Subjects
muscle wasting, cachexia, 17ß-estradiol, hypogonadism, physical activity, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Cancer cachexia is a multifactorial muscle wasting condition characterized by severe body weight and muscle mass loss which is secondary to chronic disease. The mechanistic examination of cachexia has predominately focused on the male phenotype and created significant gaps in understanding cachexia progression in the female. Female hypogonadism can accompany cancer cachexia and is characterized by reduced circulating 17ß-estradiol and uterine atrophy. Estrogen has known functions in skeletal muscle homeostasis involving the regulation of muscle protein turnover, cellular stressors, and oxidative metabolism. However, 17ß-estradiol's ability to regulate cachexia progression in the female is not known. The purpose of this study was to determine the effect of gonadal function and estradiol administration on muscle mass loss and cachexia progression in female ApcMin/+ mice.Methods: Female C57BL/6 (B6; N = 82) and ApcMin/+ (MIN; N = 88) mice were used in two separate experiments. In experiment 1, mice were sacrificed at either 12 (N = 20) or 20 (N = 41) weeks of age. Body weight and estrous cycle presence was determined weekly. In experiment 2, B6 and MIN mice were randomly allocated to: Control (N = 17), received E2 pellet (E2, N = 18), ovariectomy surgery (OVX; N = 19) or ovariectomy surgery with E2 pellet (OVX + E2; N = 21). 17ß-estradiol was administered through an implanted slow-releasing pellet (0.1 mg). In estrogen and ovariectomy experiments, food intake, and functional outcomes were recorded 1 week prior to sacrifice.Results: We report that E2 administration prevented body weight loss, muscle mass loss, cage inactivity, and grip strength loss associated with cachexia. In skeletal muscle, E2 reduced skeletal muscle AMPK phosphorylation, improved mTORC1 signaling, and prevented mitochondrial dysfunction.Conclusion: Our results demonstrate a role for 17ß-estradiol for the prevention of skeletal muscle mass loss in female tumor bearing mice. Furthermore, 17ß-estradiol prevented cachexia's disruption in skeletal muscle signaling involving AMPK and mTORC1, in addition to improving mitochondrial function in female tumor bearing mice.

Published
2019
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11. Antibiotic‐mediated bacteriome depletion in ApcMin/+ mice is associated with reduction in mucus‐producing goblet cells and increased colorectal cancer progression

Author

Kamaljeet Kaur, Arpit Saxena, Irina Debnath, Jacqueline L. O'Brien, Nadim J. Ajami, Thomas A. Auchtung, Joseph F. Petrosino, Alexander‐Jacques Sougiannis, Sarah Depaep, Alexander Chumanevich, Phani M. Gummadidala, Mayomi H. Omebeyinje, Sourav Banerjee, Ioulia Chatzistamou, Paramita Chakraborty, Raja Fayad, Franklin G. Berger, James A. Carson, and Anindya Chanda

Subjects
Antibiotics, Colorectal cancer, Goblet cells, Microbiome, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Recent epidemiological evidence suggests that exposure to antibiotics in early‐to‐middle adulthood is associated with an increased risk of colorectal adenoma. However, mechanistic studies in established preclinical cancer to examine these claims are extremely limited. Therefore, we investigated the effect of long‐term exposure of an antibiotic cocktail composed of Vancomycin, Neomycin, and Streptomycin, on tumor development and progression in the ApcMin/+ mouse, an established genetic model for familial adenomatous polyposis. Clinical pathologies related to tumor development as well as intestinal and colon tissue histopathology were studied at ages 8, 12, and 16 weeks of age, which correspond to the approximate ages of development of neoplasia, gut inflammation with polyposis, and cancer progression, respectively, in this animal model. We show that the antibiotics significantly increase the severity of clinical symptoms, including effects on intestinal histology and goblet cell numbers. In addition, they promote small intestinal polyposis. Finally, metagenomic analysis of fecal samples demonstrated that antibiotic exposure is associated with a significant but nonuniform depletion of the animal's natural gut flora. Overall, these findings support the premise that long‐term antibiotic exposure mediates the selected depletion of gut microbial communities and the concomitant thinning of the protective mucus layer, resulting in an increase in tumor development.

Published
2018
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12. Inflammatory signalling regulates eccentric contraction‐induced protein synthesis in cachectic skeletal muscle

Author

Justin P. Hardee, Brittany R. Counts, Song Gao, Brandon N. VanderVeen, Dennis K. Fix, Ho‐Jin Koh, and James A. Carson

Subjects
ApcMin/+, Cancer cachexia, Eccentric contractions, Interleukin‐6, Muscle protein synthesis, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Skeletal muscle responds to eccentric contractions (ECC) with an anabolic response that involves the induction of protein synthesis through the mechanistic target of rapamycin complex 1. While we have reported that repeated ECC bouts after cachexia initiation attenuated muscle mass loss and inflammatory signalling, cachectic muscle's capacity to induce protein synthesis in response to ECC has not been determined. Therefore, we examined cachectic muscle's ability to induce mechano‐sensitive pathways and protein synthesis in response to an anabolic stimulus involving ECC and determined the role of muscle signal transducer and activator of transcription 3 (STAT3)/nuclear factor kappa‐light‐chain‐enhancer of activated B cells (NFκB) signalling on ECC‐induced anabolic signalling. Methods Mechano‐sensitive pathways and anabolic signalling were examined immediately post or 3 h after a single ECC bout in cachectic male ApcMin/+ mice (n = 17; 16 ± 1% body weight loss). Muscle STAT3/NFκB regulation of basal and ECC‐induced anabolic signalling was also examined in an additional cohort of ApcMin/+ mice (n = 10; 16 ± 1% body weight loss) that received pyrrolidine dithiocarbamate 24 h prior to a single ECC bout. In all experiments, the left tibialis anterior performed ECC while the right tibialis anterior served as intra‐animal control. Data were analysed by Student's t‐test or two‐way repeated measures analysis of variance with Student‐Newman‐Keuls post‐hoc when appropriate. The accepted level of significance was set at P

Published
2018
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13. Characterization of the male ApcMin/+ mouse as a hypogonadism model related to cancer cachexia

Author

James P. White, Melissa J. Puppa, Aditi Narsale, and James A. Carson

Subjects
Testosterone, Hypogonadism, Muscle, Cancer cachexia, Science, Biology (General), QH301-705.5
Abstract

Summary Cancer cachexia, the unintentional loss of lean body mass, is associated with decreased quality of life and poor patient survival. Hypogonadism, involving a reduction in circulating testosterone, is associated with the cachectic condition. At this time there is a very limited understanding of the role of hypogonadism in cancer cachexia progression. This gap in our knowledge is related to a lack of functional hypogonadal models associated with cancer cachexia. The ApcMin/+ mouse is an established colorectal cancer model that develops an IL-6 dependent cachexia which is physiologically related to human disease due to the gradual progression of tumor development and cachexia. The purpose of this study was to assess the utility of the ApcMin/+ mouse for the examination of hypogonadism during cancer cachexia and to investigate if IL-6 has a role in this process. We report that ApcMin/+ mice that are weight stable have comparable testosterone levels and gonad size compared to wild type mice. Cachectic ApcMin/+ mice exhibit a reduction in circulating testosterone and gonad size, which has a significant association with the degree of muscle mass and functional strength loss. Circulating testosterone levels were also significantly associated with the suppression of myofibrillar protein synthesis. Skeletal muscle and testes androgen receptor expression were decreased with severe cachexia. Although testes STAT3 phosphorylation increased with severe cachexia, systemic IL-6 over-expression for 2 weeks was not sufficient to reduce either testes weight or circulating testosterone. Inhibition of systemic IL-6 signaling by an IL-6 receptor antibody to ApcMin/+ mice that had already initiated weight loss was sufficient to attenuate a reduction in testes size and circulating testosterone. In summary, the ApcMin/+ mouse becomes hypogonadal with the progression of cachexia severity and elevated circulating IL-6 levels may have a role in the development of hypogonadism during cancer cachexia.

Published
2013
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15. brainlife.io: A decentralized and open source cloud platform to support neuroscience research.

Author

Soichi Hayashi, Bradley Caron, Anibal Solon Heinsfeld, Sophia Vinci-Booher, Brent C. McPherson, Daniel N. Bullock, Giulia Berto, J. Guiomar Niso, Sandra Hanekamp, Daniel Levitas, Lindsey Kitchell, Josiah Leong, Filipi N. Silva, Serge Koudoro, Hanna Willis, Jasleen Jolly, Derek Pisner, Taylor Zuidema, Jan Kurzwaski, Koulla Mikellidou, Aurore Bussalb, Christopher Rorden, Conner Victory, Dheeraj Bhatia, Dogu Baran Aydogan, Frank C. Yeh, Franco Delogu, Javier Guaje, Jelle Veraart, Jeremy Fischer, Joshua Faskowitz, Maximilien Chaumon, Ricardo Fabrega, David Hunt, Shawn McKee, Shaw T. Brown, Stephanie Heyman, Vittorio Iacovella, Amanda Mejia, Daniele Marinazzo, R. Cameron Craddock, Emanuele Olivetti, Jamie Hanson, Paolo Avesani, Eleftherios Garyfallidis, Daniel Stanzione, James P. Carson, Robert Henschel, David Y. Hancock, Craig A. Stewart, David M. Schnyer, Damian Eke, Russell A. Poldrack, Nathalie George, Holly Bridge, Ilaria Sani, Winrich Freiwald, Aina Puce, Nicholas Port, and Franco Pestilli

Published
2023
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18. Are Internal Capital Markets Ex Post Efficient?

Author

James M. Carson, Evan M. Eastman, David L. Eckles, and Joshua D. Frederick

Subjects
Statistics and Probability, Economics and Econometrics, Statistics, Probability and Uncertainty
Published
2022

20. 5-Fluorouracil disrupts skeletal muscle immune cells and impairs skeletal muscle repair and remodeling

Author

Brandon N. VanderVeen, Thomas D. Cardaci, Sarah S. Madero, Sierra J. McDonald, Brooke M. Bullard, Robert L. Price, James A. Carson, Daping Fan, and E. Angela Murphy

Subjects
Mice, Inbred C57BL, Mice, Physiology, Macrophages, Physiology (medical), Animals, Fluorouracil, Muscle, Skeletal, Monocytes
Abstract

5-Fluorouracil (5FU) remains a first-line chemotherapeutic for several cancers despite its established adverse side effects. Reduced blood counts with cytotoxic chemotherapies not only expose patients to infection and fatigue, but can disrupt tissue repair and remodeling, leading to lasting functional deficits. We sought to characterize the impact of 5FU-induced leukopenia on skeletal muscle in the context of remodeling. First, C57BL/6 mice were subjected to multiple dosing cycles of 5FU and skeletal muscle immune cells were assessed. Second, mice given 1 cycle of 5FU were subjected to 1.2% BaCl

Published
2022

21. Modelling thermal diffusivity of meat during freezing

Author

James K. Carson and Duy K. Hoang

Subjects
Engineering (miscellaneous), Food Science, Biotechnology
Abstract

When modelling a thermal process such as freezing, it is convenient to make use of thermal property models based on the food’s composition; however, there does not appear to be any suitable models specifically for thermal diffusivity. In the absence of such models, thermal diffusivity may be determined from models for effective thermal conductivity, specific heat capacity and density as functions of composition, as well as an appropriate ice fraction model. However, the accuracy of the predictions is strongly dependent on the choice of effective thermal property models. In particular, the effective specific heat capacity model must incorporate the effect of latent heat release as a function of temperature. For meat during freezing, it is recommended that the Dul’Nev Novikov effective thermal conductivity model, Pham’s ice fraction model and Chen’s effective heat capacity model are used.

Published
2022

22. Multi-Level Process Integration of Heat Pumps in Meat Processing

Author

Elsa Klinac, James Kenneth Carson, Duy Hoang, Qun Chen, Donald John Cleland, and Timothy Gordon Walmsley

Subjects
Control and Optimization, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Building and Construction, Electrical and Electronic Engineering, heat pump, total site analysis, energy saving, industrial heat integration, decarbonization, meat processing, Engineering (miscellaneous), Energy (miscellaneous)
Abstract

Many countries across the globe are facing the challenge of replacing coal and natural gas-derived process heat with low-emission alternatives. In countries such as New Zealand, which have access to renewably generated electricity, industrial heat pumps offer great potential to reduce sitewide industrial carbon emissions. In this paper, a new Pinch-based Total Site Heat Integration (TSHI) method is proposed and used to explore and identify multi-level heat pump integration options at a meat processing site in New Zealand. This novel method improves upon standard methods that are currently used in industry and successfully identifies heat pump opportunities that might otherwise be missed by said standard methods. The results of the novel method application suggest that a Mechanical Vapour Recompression (MVR) system in the Rendering plant and a centralized air-source heat pump around the hot water ring main could reduce site emissions by over 50%. Future research will develop these preliminary results into a dynamic emissions reduction plan for the site, the novel methods for which will be transferrable to similar industrial sites.

Published
2023
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25. The pancreatic cancer immune tumor microenvironment is negatively remodeled by gemcitabine while TGF‐β receptor plus dual checkpoint inhibition maintains antitumor immune cells

Author

Manjul Rana, Rita Kansal, Mehdi Chaib, Bin Teng, Michelle Morrrison, David Neil Hayes, Ansley G. Stanfill, David Shibata, James A. Carson, Liza Makowski, and Evan S. Glazer

Subjects
Pancreatic Neoplasms, Mice, Cancer Research, Transforming Growth Factor beta, Tumor Microenvironment, Animals, Humans, Immunotherapy, Deoxycytidine, Receptors, Transforming Growth Factor beta, Gemcitabine, Molecular Biology, Carcinoma, Pancreatic Ductal
Abstract

Pancreatic ductal adenocarcinoma (PDA) tumors have a highly immunosuppressive desmoplastic tumor microenvironment (TME) where immune checkpoint inhibition (ICI) therapy has been exceptionally ineffective. Transforming growth factor-β (TGF-β) receptor activation leads to cancer and immune cell proliferation and phenotype, and cytokine production leading to tumor progression and worse overall survival in PDA patients. We hypothesized that TGF-β receptor inhibition may alter PDA progression and antitumor immunity in the TME. Here, we used a syngeneic preclinical murine model of PDA to explore the impact of TGF-β pathway inhibitor galunisertib (GAL), dual checkpoint immunotherapy (anti-PD-L1 and CTLA-4), the chemotherapy gemcitabine (GEM), and their combinations on antitumor immune responses. Blockade of TGF-β and ICI in immune-competent mice bearing orthotopically injected murine PDA cells significantly inhibited tumor growth and was accompanied by antitumor M1 macrophage infiltration. In contrast, GEM treatment resulted in increased PDA tumor growth, decreased antitumor M1 macrophages, and decreased cytotoxic CD8+ T cell subpopulation compared to control mice. Together, these findings demonstrate the ability of TGF-β inhibition with GAL to prime antitumor immunity in the TME and the curative potential of combining GAL with dual ICI. These preclinical results indicate that targeted inhibition of TGF-β may enhance the efficacy of dual immunotherapy in PDA. Optimal manipulation of the immune TME with non-ICI therapy may enhance therapeutic efficacy.

Published
2022

26. Barriers to and facilitators of return to learning following a sport-related concussion

Author

Petra Wildgoose, Dion Diep, Alexandra Rendely, Nariko Kuwahara, and James D. Carson

Subjects
Schools, Research, Communication, Humans, Learning, Female, General Medicine, Students, Family Practice, Brain Concussion
Abstract

OBJECTIVE: To identify barriers to and facilitators of return to learning (RTL) for female secondary school students following a sport-related concussion (SRC), and to identify critical junctures on the injury-to-recovery continuum that can be targeted to enhance the RTL process. DESIGN: A grounded theory approach using in-depth qualitative interviews. SETTING: Secondary schools within the York Region District School Board in Ontario. PARTICIPANTS: Ten female secondary school students who presented to a sports medicine physician with an SRC in 2015 or 2016. Five of the students received a Green Folder intervention containing an RTL strategy, while 5 students received no RTL intervention following their SRC. METHODS: In-depth interviews were conducted in person or by telephone. All interviews were audiorecorded and transcribed. The transcriptions were analyzed, coded, and examined for common themes by 2 independent reviewers. MAIN FINDINGS: Barriers to RTL included a lack of a graduated RTL process, students’ own internal stress, poor communication of expectations, lack of concussion education, and inadequate support from teachers. Facilitators of RTL included academic accommodations and having a primary contact person within the school system. Owing to inconsistent implementation, the impact of the Green Folder intervention as a facilitator of RTL remains unknown. CONCLUSION: Results of this study support existing findings in the realm of concussion research. A novel finding includes the importance of a primary contact person as a facilitator of RTL. This person could help to overcome some of the identified barriers to RTL and improve outcomes by assisting with academic accommodations, providing reassurance regarding these accommodations, improving education among teachers and students, and enhancing communication between stakeholders.

Published
2022

27. Assessment of a collaborative concussion management strategy in a school-based sport program

Author

Pierre Frémont, Francesco Pepe Esposito, Edith Castonguay, and James D. Carson

Subjects
Cohort Studies, Male, Canada, Adolescent, Research, Athletic Injuries, Humans, Prospective Studies, General Medicine, Child, Family Practice, Brain Concussion
Abstract

OBJECTIVE: To analyze the implementation of a concussion management protocol in which a team physiotherapist is involved in the identification of concussions and return-to-play (RTP) decisions. DESIGN: A prospective injury surveillance cohort study in a school-based Canadian football program (4 teams; grades 8 to 12) over 4 years. For years 1 to 2, the team physician made all RTP decisions; over years 3 to 4, the team physiotherapist was allowed to make some RTP decisions using pre-established criteria defined in the protocol. SETTING: A high school in Québec, Que. PARTICIPANTS: Male student athletes between 11 and 17 years old. MAIN OUTCOME MEASURES: Same-season recurrence (SSR) of concussion symptoms following RTP. RESULTS: A total of 119 concussions were identified (55 during the first 2 years and 64 during the last 2 years) during 27,741 athlete-exposures in 672 athlete-years for an incidence rate of 4.3 per 1000 athlete-exposures. During years 1 to 3, no SSR was observed following RTP clearance. During year 4 there was 1 case of SSR that occurred 11 days after clearance. The overall SSR rate of concussion symptoms following RTP clearance was 0.8%. CONCLUSION: A very low rate of SSR was achieved whether the team physician made all RTP decisions or the team physiotherapist was allowed to make some of the RTP decisions through the terms of the protocol.

Published
2022

29. Proteomic Analysis of Human Lung Development

Author

Vincent G. Danna, Joseph A. Kitzmiller, Thomas J. Mariani, Harsh Bhotika, Matthew D. McGraw, Soumyaroop Bhattacharya, Jeffrey A. Whitsett, Ravi S. Misra, Heidie Huyck, Geremy Clair, James P. Carson, Song Feng, Gail H. Deutsch, Joshua N. Adkins, Gautam Bandyopadhyay, Lisa M. Bramer, Gloria S. Pryhuber, and Charles Ansong

Subjects
Pulmonary and Respiratory Medicine, medicine.anatomical_structure, business.industry, Donor tissue, Medicine, Animal studies, Computational biology, Critical Care and Intensive Care Medicine, business, Proteomics, Gene, Human lung
Abstract

Rationale: The current understanding of human lung development derives mostly from animal studies. While transcript-level studies have analyzed human donor tissue to identify genes expressed during...

Published
2022

30. Simulation of an industrial cheese chilling process

Author

Duy K. Hoang, S.J. Lovatt, James K. Carson, and Jamal R. Olatunji

Subjects
Materials science, business.industry, Mechanical Engineering, Airflow, Building and Construction, Computational fluid dynamics, Flow field, Scientific method, Heat transfer, Test chamber, Composite material, Forced-air, business, Simple correlation
Abstract

A computational fluid dynamics (CFD) simulation was developed to simulate an industrial cheese chilling process. Forced air chilling experiments were performed on blocks of agar (cheese analogue) to simulate the airflow and product arrangement in a section of an industrial cheese chilling tunnel. The flow field was solved at steady-state and decoupled from the heat transfer processes. The six blocks of agar were placed in a polystyrene test chamber that was in turn placed in an environmental testing chamber. Temperatures were measured at the surfaces and the geometric centre of the tested blocks of agar. Good agreement was observed between predicted and experimental data. Having been validated, the model was used to generate simple correlation models for predicting the volume-averaged temperature of blocks of cheddar cheese and mozzarella cheese during industrial chilling

Published
2022

32. LungMAP Portal Ecosystem: Systems-Level Exploration of the Lung

Author

Nathan, Gaddis, Joshua, Fortriede, Minzhe, Guo, Eric E, Bardes, Michal, Kouril, Scott, Tabar, Kevin, Burns, Maryanne E, Ardini-Poleske, Stephanie, Loos, Daniel, Schnell, Kang, Jin, Balaji, Iyer, Yina, Du, Bing-Xing, Huo, Anukana, Bhattacharjee, Jeff, Korte, Ruchi, Munshi, Victoria, Smith, Andrew, Herbst, Joseph A, Kitzmiller, Geremy C, Clair, James P, Carson, Joshua, Adkins, Edward E, Morrisey, Gloria S, Pryhuber, Ravi, Misra, Jeffrey A, Whitsett, Xin, Sun, Trevor, Heathorn, Benedict, Paten, V B Surya, Prasath, Yan, Xu, Tim, Tickle, Bruce J, Aronow, and Nathan, Salomonis

Subjects
Pulmonary and Respiratory Medicine, Clinical Biochemistry, Cell Biology, Molecular Biology
Abstract

An improved understanding of the human lung necessitates advanced systems models informed by an ever-increasing repertoire of molecular omics, cellular, imaging, and pathological datasets. To centralize and standardize information across broad lung research efforts we expanded the LungMAP.net website into a new gateway portal. This portal connects a broad spectrum of research networks, bulk and single-cell multi-omics data and a diverse collection of image data that span mammalian lung development, and disease. The data are standardized across species and technologies using harmonized data and metadata models that leverage recent advances including those from the Human Cell Atlas, diverse ontologies, and the LungMAP CellCards initiative. To cultivate future discoveries, we have aggregated a diverse collection of single-cell atlases for multiple species (human, rhesus, mouse), to enable consistent queries across technologies, cohorts, age, disease, and drug treatment. These atlases are provided as independent and integrated queryable datasets, with an emphasis on dynamic visualization, figure generation, re-analysis, cell-type curation, and automated reference-based classification of user-provided single-cell genomics datasets (Azimuth). As this resource grows, we intend to increase the breadth of available interactive interfaces, supported data types, data portals and datasets from LungMAP and external research efforts.

Published
2022

33. An optimized approach and inflation media for obtaining complimentary mass spectrometry-based omics data from human lung tissue

Author

Jessica K. Lukowski, Heather Olson, Marija Velickovic, Juan Wang, Jennifer E. Kyle, Young-Mo Kim, Sarah M. Williams, Ying Zhu, Heidi L. Huyck, Matthew D. McGraw, Cory Poole, Lisa Rogers, Ravi Misra, Theodore Alexandrov, Charles Ansong, Gloria S. Pryhuber, Geremy Clair, Joshua N. Adkins, James P. Carson, and Christopher R. Anderton

Subjects
Biochemistry, Genetics and Molecular Biology (miscellaneous), Molecular Biology, Biochemistry
Abstract

Human disease states are biomolecularly multifaceted and can span across phenotypic states, therefore it is important to understand diseases on all levels, across cell types, and within and across microanatomical tissue compartments. To obtain an accurate and representative view of the molecular landscape within human lungs, this fragile tissue must be inflated and embedded to maintain spatial fidelity of the location of molecules and minimize molecular degradation for molecular imaging experiments. Here, we evaluated agarose inflation and carboxymethyl cellulose embedding media and determined effective tissue preparation protocols for performing bulk and spatial mass spectrometry-based omics measurements. Mass spectrometry imaging methods were optimized to boost the number of annotatable molecules in agarose inflated lung samples. This optimized protocol permitted the observation of unique lipid distributions within several airway regions in the lung tissue block. Laser capture microdissection of these airway regions followed by high-resolution proteomic analysis allowed us to begin linking the lipidome with the proteome in a spatially resolved manner, where we observed proteins with high abundance specifically localized to the airway regions. We also compared our mass spectrometry results to lung tissue samples preserved using two other inflation/embedding media, but we identified several pitfalls with the sample preparation steps using this preservation method. Overall, we demonstrated the versatility of the inflation method, and we can start to reveal how the metabolome, lipidome, and proteome are connected spatially in human lungs and across disease states through a variety of different experiments.

Published
2022

39. Early-Onset Physical Inactivity and Metabolic Dysfunction in Tumor-bearing Mice Is Associated with Accelerated Cachexia

Author

Brittany R. Counts, Jessica L. Halle, and James A. Carson

Subjects
Male, medicine.medical_specialty, Right flank, Cachexia, Physical Therapy, Sports Therapy and Rehabilitation, Hindlimb, Article, Carcinoma, Lewis Lung, Mice, Lipid oxidation, Negatively associated, Cell Line, Tumor, Internal medicine, medicine, Animals, Orthopedics and Sports Medicine, Decreased muscle mass, Early onset, business.industry, Lewis lung carcinoma, medicine.disease, Mice, Inbred C57BL, Disease Models, Animal, Endocrinology, Sedentary Behavior, Energy Metabolism, business
Abstract

Cancer-induced skeletal muscle mass loss is a critical characteristic of cachexia. While physical inactivity and systemic metabolic dysfunction can precede cachexia development, how these early-onset disruptions are related to cachexia's eventual severity is not well understood. The well-established Lewis Lung Carcinoma (LLC) pre-clinical cachexia model exhibits a varying degree of cachexia. Therefore, we examined if the early onset of physical inactivity and metabolic dysfunction were associated with accelerated cachexia development in LLC tumor-bearing mice. Methods Male C57BL/6 J (12 wks. age) were injected with 1 x 106 LLC cells or PBS subcutaneously in the right flank, and tissue was collected 26-28 days post cell injection. Tumor volume was measured every 5 days throughout the study to calculate the tumor growth rate. Fifteen days post tumor inoculation, a subset of PBS (n = 11) and LLC (n = 16) mice were individually housed in metabolic CLAMs cages for 5 days. Results LLC mice exhibited greater body weight loss (-5.1%), decreased muscle mass (-7%), decreased fat mass (-22%), and increased plasma IL-6 (212%) compared to PBS mice. Before the onset of cachexia, total cage activity was decreased in tumor-bearing mice. Cage activity was negatively associated to tumor mass and positively associated to hindlimb muscle mass. Additionally, LLC mice had greater lipid oxidation than PBS mice. Conclusion LLC mice exhibit early-onset physical inactivity and altered systemic lipid oxidation, which are associated with the eventual development of cachexia.

Published
2021

43. Author response: Response to immune checkpoint blockade improved in pre-clinical model of breast cancer after bariatric surgery

Author

Laura M Sipe, Mehdi Chaib, Emily B Korba, Heejoon Jo, Mary Camille Lovely, Brittany R Counts, Ubaid Tanveer, Jeremiah R Holt, Jared C Clements, Neena A John, Deidre Daria, Tony N Marion, Margaret S Bohm, Radhika Sekhri, Ajeeth K Pingili, Bin Teng, James A Carson, D Neil Hayes, Matthew J Davis, Katherine L Cook, Joseph F Pierre, and Liza Makowski

Published
2022

44. Modelling Thermal Diffusivity of Heterogeneous Materials Based on Thermal Diffusivities of Components with Implications for Thermal Diffusivity and Thermal Conductivity Measurement

Author

James K. Carson

Subjects
Condensed Matter Physics
Abstract

Effective thermal diffusivity models are useful for predicting thermal diffusivities of heterogeneous materials. The literature contains models that may be broadly categorised into four different types: (1) effective thermal diffusivity for highly specific applications (e.g. empirical curve fitting of measured data); (2) effective thermal diffusivity as a weighted averages of the components’ thermal diffusivities and volume fractions; (3) effective thermal diffusivity calculated from effective thermal conductivity, effective density and effective specific heat capacity known as the ‘lumped parameter’ approach (which is the most commonly employed method); (4) comparison of times for a fixed quantity of heat to be transferred to a composite material with the heat transfer time for a material with an effective thermal diffusivity. The latter three modelling methods were tested on theoretical composite materials, and none performed consistently better than the others, suggesting there is scope for further work in this area. Of the three methods, the least accurate on average was the lumped parameter method. Given that this relationship is often used to derive thermal conductivity data from thermal diffusivity data (or vice versa), it is possible that significant error is introduced to the derived property in addition to any measurement error, which is often not acknowledged.

Published
2022

47. ‘Re-thinking a Bachelor of Arts for the 21st-Century precariat’

Author

James Taylor Carson

Subjects
Precariat, Social contract, Liberal arts education, Higher education, business.industry, media_common.quotation_subject, 05 social sciences, Media studies, 050301 education, ComputingMilieux_LEGALASPECTSOFCOMPUTING, Bachelor, The arts, GeneralLiterature_MISCELLANEOUS, Education, Work (electrical), 0502 economics and business, Sociology, Fake news, business, 0503 education, 050203 business & management, media_common
Abstract

The emergence of the neo-liberal university, rapid changes to the world of work and the unravelling of the Western social contract in an era of fake news and pandemic have created a set of circumst...

Published
2021

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