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5. Radiation induces long‐term muscle fibrosis and promotes a fibrotic phenotype in fibro‐adipogenic progenitors

Author

Nicolas Collao, Donna D'Souza, Laura Messeiller, Evan Pilon, Jessica Lloyd, Jillian Larkin, Matthew Ngu, Alexanne Cuillerier, Alexander E. Green, Keir J. Menzies, Yan Burelle, and Michael De Lisio

Subjects
Atrophy, Differentiation, Extracellular matrix, Mesenchymal progenitors, Metabolism, Myofibroblast, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Radiation‐induced muscle pathology, characterized by muscle atrophy and fibrotic tissue accumulation, is the most common debilitating late effect of therapeutic radiation exposure particularly in juvenile cancer survivors. In healthy muscle, fibro/adipogenic progenitors (FAPs) are required for muscle maintenance and regeneration, while in muscle pathology FAPs are precursors for exacerbated extracellular matrix deposition. However, the role of FAPs in radiation‐induced muscle pathology has not previously been explored. Methods Four‐week‐old Male CBA or C57Bl/6J mice received a single dose (16 Gy) of irradiation (IR) to a single hindlimb with the shielded contralateral limb (CLTR) serving as a non‐IR control. Mice were sacrificed 3, 7, 14 (acute IR response), and 56 days post‐IR (long‐term IR response). Changes in skeletal muscle morphology, myofibre composition, muscle niche cellular dynamics, DNA damage, proliferation, mitochondrial respiration, and metabolism and changes in progenitor cell fate where assessed. Results Juvenile radiation exposure resulted in smaller myofibre cross‐sectional area, particularly in type I and IIA myofibres (P

Published
2023
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6. HDAC1/2 inhibitor therapy improves multiple organ systems in aged mice

Author

Tammaro, Alessandra, Daniels, Eileen G., Hu, Iman M., ‘t Hart, Kelly C., Reid, Kim, Juni, Rio P., Butter, Loes M., Vasam, Goutham, Kamble, Rashmi, Jongejan, Aldo, Aviv, Richard I., Roelofs, Joris J.T.H., Aronica, Eleonora, Boon, Reinier A., Menzies, Keir J., Houtkooper, Riekelt H., and Janssens, Georges E.

Published
2024
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7. HDAC1/2 inhibitor therapy improves multiple organ systems in aged mice

Author

Alessandra Tammaro, Eileen G. Daniels, Iman M. Hu, Kelly C. ‘t Hart, Kim Reid, Rio P. Juni, Loes M. Butter, Goutham Vasam, Rashmi Kamble, Aldo Jongejan, Richard I. Aviv, Joris J.T.H. Roelofs, Eleonora Aronica, Reinier A. Boon, Keir J. Menzies, Riekelt H. Houtkooper, and Georges E. Janssens

Subjects
Drugs, Molecular biology, Epigenetics, Omics, Transcriptomics, Science
Abstract

Summary: Aging increases the risk of age-related diseases, imposing substantial healthcare and personal costs. Targeting fundamental aging mechanisms pharmacologically can promote healthy aging and reduce this disease susceptibility. In this work, we employed transcriptome-based drug screening to identify compounds emulating transcriptional signatures of long-lived genetic interventions. We discovered compound 60 (Cmpd60), a selective histone deacetylase 1 and 2 (HDAC1/2) inhibitor, mimicking diverse longevity interventions. In extensive molecular, phenotypic, and bioinformatic assessments using various cell and aged mouse models, we found Cmpd60 treatment to improve age-related phenotypes in multiple organs. Cmpd60 reduces renal epithelial-mesenchymal transition and fibrosis in kidney, diminishes dementia-related gene expression in brain, and enhances cardiac contractility and relaxation for the heart. In sum, our two-week HDAC1/2 inhibitor treatment in aged mice establishes a multi-tissue, healthy aging intervention in mammals, holding promise for therapeutic translation to promote healthy aging in humans.

Published
2024
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9. Acute respiratory distress syndrome, acute kidney injury, and mortality after trauma are associated with increased circulation of syndecan-1, soluble thrombomodulin, and receptor for advanced glycation end products

Author

Dixon, Alexandra, Kenny, James E., Buzzard, Lydia, Holcomb, John, Bulger, Eileen, Wade, Charles, Fabian, Timothy, Schreiber, Martin, Holcomb, John B., Wade, Charles E., del Junco, Deborah J., Fox, Erin E., Matijevic, Nena, Podbielski, Jeanette M., Beeler, Angela M., Tilley, Barbara C., Baraniuk, Sarah, DeSantis, Stacia M., Zhu, Hongjian, Nixon, Joshua, Seay, Roann, Appana, Savitri N., Yang, Hui, Gonzalez, Michael O., Baer, Lisa, Wang, Yao-Wei Willa, Hula, Brittany S., Espino, Elena, Nguyen, An, Pawelczyk, Nicholas, Arora-Nutall, Kisha D., Sharma, Rishika, Cardenas, Jessica C., Rahbar, Elaheh, Burnett, Tyrone, Jr, Clark, David, van Belle, Gerald, May, Susanne, Leroux, Brian, Hoyt, David, Powell, Judy, Sheehan, Kellie, Hubbard, Alan, Arkin, Adam P., Hess, John R., Callum, Jeannie L., Pittet, Jean-Francois, Miller, Christopher N., Cotton, Bryan A., Vincent, Laura, Welch, Timothy, Poole, Tiffany, Pivalizza, Evan G., Gumbert, Sam D., Bai, Yu, McCarthy, James J., Noland, Amy, Hobbs, Rhonda, Bulger, Eileen M., Klotz, Patricia, Cattin, Lindsay, Warner, Keir J., Wilson, Angela, Boman, David, White, Nathan, Grabinsky, Andreas, Daniel-Johnson, Jennifer A., Cohen, Mitchell Jay, Callcut, Rachael A., Nelson, Mary, Redick, Brittney, Conroy, Amanda, Steurer, Marc P., Maxim, Preston C., Fiebig, Eberhard, Moore, Joanne, Mallari, Eireen, Muskat, Peter, Johannigman, Jay A., Robinson, Bryce R. H., Branson, Richard D., Gomaa, Dina, Barczak, Christopher, Bennett, Suzanne, Carey, Patricia M., Hancock, Helen, Rodriguez, Carolina, Inaba, Kenji, Zhu, Jay G., Wong, Monica D., Menchine, Michael, Katzberg, Kelly, Henderson, Sean O., McKeever, Rodney, Shulman, Ira A., Nelson, Janice M., Tuma, Christopher W., Matsushita, Cheryl Y., Scalea, Thomas M., Stein, Deborah M., Shaffer, Cynthia K., Wade, Christine, Herrera, Anthony V., Kallam, Seeta, Wade, Sarah E., Galvagno, Samuel M., Jr, Fontaine, Magali J., Hunt, Janice M., Cooke, Rhonda K., Fabian, Timothy C., Weinberg, Jordan A., Croce, Martin A., Wilson, Suzanne, Panzer-Baggett, Stephanie, Waddle-Smith, Lynda, Flax, Sherri, Brasel, Karen J., Walsh, Pamela, Milia, David, Nelson, Allia, Kaslow, Olga, Aufderheide, Tom P., Gottschall, Jerome L., Carpenter, Erica, OʼKeeffe, Terence, Rokowski, Laurel L., Denninghoff, Kurt R., Redford, Daniel T., Novak, Deborah J., Knoll, Susan, Kerby, Jeffrey D., Bosarge, Patrick L., Pierce, Albert T., Williams, Carolyn R., Stephens, Shannon W., Wang, Henry E., Marques, Marisa B., Schreiber, Martin A., Watters, Jennifer M., Underwood, Samantha J., Groat, Tahnee, Newgard, Craig, Merkel, Matthias, Scanlan, Richard M., Miller, Beth, Rizoli, Sandro, Tien, Homer, Nascimento, Barto, Trpcic, Sandy, Sobrian-Couroux, Skeeta, Reis, Marciano, Pérez, Adic, Belo, Susan E., Merkley, Lisa, and Colavecchia, Connie

Published
2024
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10. Reducing mitochondrial ribosomal gene expression does not alter metabolic health or lifespan in mice

Author

Kim Reid, Eileen G. Daniels, Goutham Vasam, Rashmi Kamble, Georges E. Janssens, Iman M. Hu, Alexander E. Green, Riekelt H. Houtkooper, and Keir J. Menzies

Subjects
Medicine, Science
Abstract

Abstract Maintaining mitochondrial function is critical to an improved healthspan and lifespan. Introducing mild stress by inhibiting mitochondrial translation invokes the mitochondrial unfolded protein response (UPRmt) and increases lifespan in several animal models. Notably, lower mitochondrial ribosomal protein (MRP) expression also correlates with increased lifespan in a reference population of mice. In this study, we tested whether partially reducing the gene expression of a critical MRP, Mrpl54, reduced mitochondrial DNA-encoded protein content, induced the UPRmt, and affected lifespan or metabolic health using germline heterozygous Mrpl54 mice. Despite reduced Mrpl54 expression in multiple organs and a reduction in mitochondrial-encoded protein expression in myoblasts, we identified few significant differences between male or female Mrpl54 +/− and wild type mice in initial body composition, respiratory parameters, energy intake and expenditure, or ambulatory motion. We also observed no differences in glucose or insulin tolerance, treadmill endurance, cold tolerance, heart rate, or blood pressure. There were no differences in median life expectancy or maximum lifespan. Overall, we demonstrate that genetic manipulation of Mrpl54 expression reduces mitochondrial-encoded protein content but is not sufficient to improve healthspan in otherwise healthy and unstressed mice.

Published
2023
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12. A comparison of rat models that best mimic immune-driven preeclampsia in humans

Author

Fahmida Jahan, Goutham Vasam, Yusmaris Cariaco, Abolfazl Nik-Akhtar, Alex Green, Keir J. Menzies, and Shannon A. Bainbridge

Subjects
preeclampsia, disease subclasses, hypertension, immune, proinflammatory, TNF-α, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Preeclampsia (PE), a hypertensive pregnancy disorder, can originate from varied etiology. Placenta malperfusion has long been considered the primary cause of PE. However, we and others have showed that this disorder can also result from heightened inflammation at the maternal-fetal interface. To advance our understanding of this understudied PE subtype, it is important to establish validated rodent models to study the pathophysiology and test therapies. We evaluated three previously described approaches to induce inflammation-mediated PE-like features in pregnant rats: 1) Tumor necrosis factor-α (TNF-α) infusion via osmotic pump from gestational day (GD) 14-19 at 50ng/day/animal; 2) Polyinosinic:polycytidylic acid (Poly I:C) intraperitoneal (IP) injections from GD 10-18 (alternate days) at 10mg/kg/day/animal; and, 3) Lipopolysaccharide (LPS) IP injections from GD 13-18 at 20ug-70ug/kg/day per animal. Maternal blood pressure was measured by tail-cuff. Upon sacrifice, fetal and placenta weights were recorded. Placenta histomorphology was assessed using H&E sections. Placenta inflammation was determined by quantifying TNF-α levels and inflammatory gene expression. Placenta metabolic and mitochondrial health were determined by measuring mitochondrial respiration rates and placenta NAD+/NADH content. Of the three rodent models tested, we found that Poly I:C and LPS decreased both fetal weight and survival; and correlated with a reduction in region specific placenta growth. As the least effective model characterized, TNF-α treatment resulted in a subtle decrease in fetal/placenta weight and placenta mitochondrial respiration. Only the LPS model was able to induce maternal hypertension and exhibited pronounced placenta metabolic and mitochondrial dysfunction, common features of PE. Thus, the rat LPS model was most effective for recapitulating features observed in cases of human inflammatory PE. Future mechanistic and/or therapeutic intervention studies focuses on this distinct PE patient population may benefit from the employment of this rodent model of PE.

Published
2023
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13. Meta-analysis of NAD(P)(H) quantification results exhibits variability across mammalian tissues

Author

Dassine Azouaoui, Michael René Choinière, Momtafin Khan, Shahab Sayfi, Simran Jaffer, Selvia Yousef, David A. Patten, Alexander E. Green, and Keir J. Menzies

Subjects
Medicine, Science
Abstract

Abstract Nicotinamide Adenine Dinucleotide (NAD+) plays an important role in energy metabolism and signaling pathways controlling crucial cellular functions. The increased interest in NAD+ metabolism and NAD+-boosting therapies has reinforced the necessity for accurate NAD+ quantification. To examine the published NAD(P)(H) measures across mammalian tissues, we performed a meta-analysis of the existing data. An Ovid MEDLINE database search identified articles with NAD(P)(H) quantification results obtained from mammalian tissues published between 1961 and 2021. We screened 4890 records and extracted quantitative data, as well as the quantification methods, pre-analytical conditions, and subject characteristics. The extracted physiological NAD(P)(H) concentrations in various tissues from mice, rats, and humans, revealed an important inter- and intra-method variability that extended to recent publications. This highlights the relatively poor potential for cross-experimental analyses for NAD(P)(H) quantitative data and the importance of standardization for NAD(P)(H) quantification methods and pre-analytical procedures for future preclinical and clinical studies.

Published
2023
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14. Using Stable Isotope Analyses to Assess the Trophic Ecology of Scleractinian Corals

Author

Michael P. Lesser, Marc Slattery, and Keir J. Macartney

Subjects
corals, stable isotopes, mesophotic zone, productivity, heterotrophy, Oceanography, GC1-1581
Abstract

Studies on the trophic ecology of scleractinian corals often include stable isotope analyses of tissue and symbiont carbon and nitrogen. These approaches have provided critical insights into the trophic sources and sinks that are essential to understanding larger-scale carbon and nitrogen budgets on coral reefs. While stable isotopes have identified most shallow water (

Published
2022
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15. Microbiome diversity and metabolic capacity determines the trophic ecology of the holobiont in Caribbean sponges

Author

Michael P. Lesser, M. Sabrina Pankey, Marc Slattery, Keir J. Macartney, and Deborah J. Gochfeld

Subjects
Microbial ecology, QR100-130
Abstract

Abstract Sponges are increasingly recognized as an ecologically important taxon on coral reefs, representing significant biomass and biodiversity where sponges have replaced scleractinian corals. Most sponge species can be divided into two symbiotic states based on symbiont community structure and abundance (i.e., the microbiome), and are characterized as high microbial abundance (HMA) or low microbial abundance (LMA) sponges. Across the Caribbean, sponge species of the HMA or LMA symbiotic states differ in metabolic capacity, as well as their trophic ecology. A metagenetic analysis of symbiont 16 S rRNA and metagenomes showed that HMA sponge microbiomes are more functionally diverse than LMA microbiomes, offer greater metabolic functional capacity and redundancy, and encode for the biosynthesis of secondary metabolites. Stable isotope analyses showed that HMA and LMA sponges primarily consume dissolved organic matter (DOM) derived from external autotrophic sources, or live particulate organic matter (POM) in the form of bacterioplankton, respectively, resulting in a low degree of resource competition between these symbiont states. As many coral reefs have undergone phase shifts from coral- to macroalgal-dominated reefs, the role of DOM, and the potential for future declines in POM due to decreased picoplankton productivity, may result in an increased abundance of chemically defended HMA sponges on tropical coral reefs.

Published
2022
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17. Older Blood Is Associated With Increased Mortality and Adverse Events in Massively Transfused Trauma Patients: Secondary Analysis of the PROPPR Trial

Author

Jones, Allison R, Patel, Rakesh P, Marques, Marisa B, Donnelly, John P, Griffin, Russell L, Pittet, Jean-Francois, Kerby, Jeffrey D, Stephens, Shannon W, DeSantis, Stacia M, Hess, John R, Wang, Henry E, Group, PROPPR Study, Holcomb, John B, Wade, Charles E, del Junco, Deborah J, Fox, Erin E, Matijevic, Nena, Podbielski, Jeanette, Beeler, Angela M, Tilley, Barbara C, Baraniuk, Sarah, Zhu, Hongjian, Nixon, Joshua, Seay, Roann, Appana, Savitri N, Yang, Hui, Gonzalez, Michael O, Baer, Lisa, Wang, Yao-Wei W, Hula, Brittany S, Espino, Elena, Nguyen, An, Pawelczyk, Nicholas, Arora-Nutall, Kisha D, Sharma, Rishika, Cardenas, Jessica C, Rahbar, Elaheh, Burnett, Tyrone, Clark, David, van Belle, Gerald, May, Susanne, Leroux, Brian, Hoyt, David, Powell, Judy, Sheehan, Kellie, Hubbard, Alan, Arkin, Adam P, Callum, Jeanne, Cotton, Bryan A, Vincent, Laura, Welch, Timothy, Poole, Tiffany, Pivalizza, Evan G, Gumbert, Sam D, Bai, Yu, McCarthy, James J, Noland, Amy, Hobbs, Rhonda, Bulger, Eileen M, Klotz, Patricia, Cattin, Lindsay, Warner, Keir J, Wilson, Angela, Boman, David, White, Nathan, Grabinsky, Andreas, Daniel-Johnson, Jennifer A, Cohen, Mitchell J, Callcut, Rachael A, Nelson, Mary, Redick, Brittney, Conroy, Amanda, Steurer, Marc P, Maxim, Preston C, Fiebig, Eberhard, Moore, Joanne, Mallari, Eireen, Muskat, Peter, Johannigman, Jay A, Robinson, Bryce RH, Branson, Richard D, Gomaa, Dina, Barczak, Christopher, Bennett, Suzanne, Carey, Patricia M, Miller, Christopher N, Hancock, Helen, Rodriguez, Carolina, Inaba, Kenji, Zhu, Jay G, Wong, Monica D, Menchine, Michael, Katzberg, Kelly, Henderson, Sean O, McKeever, Rodney, Shulman, Ira A, Nelson, Janice M, Tuma, Christopher W, and Matsushita, Cheryl Y

Subjects
Clinical Research, Clinical Trials and Supportive Activities, Hematology, Physical Injury - Accidents and Adverse Effects, Good Health and Well Being, Adult, Blood Preservation, Blood Transfusion, Critical Illness, Female, Hospital Mortality, Humans, Male, Middle Aged, Odds Ratio, Trauma Centers, PROPPR Study Group, Clinical Sciences, Emergency & Critical Care Medicine
Abstract

Study objectiveThe transfusion of older packed RBCs may be harmful in critically ill patients. We seek to determine the association between packed RBC age and mortality among trauma patients requiring massive packed RBC transfusion.MethodsWe analyzed data from the Pragmatic, Randomized Optimal Platelet and Plasma Ratios trial. Subjects in the parent trial included critically injured adult patients admitted to 1 of 12 North American Level I trauma centers who received at least 1 unit of packed RBCs and were predicted to require massive blood transfusion. The primary exposure was volume of packed RBC units transfused during the first 24 hours of hospitalization, stratified by packed RBC age category: 0 to 7 days, 8 to 14 days, 15 to 21 days, and greater than or equal to 22 days. The primary outcome was 24-hour mortality. We evaluated the association between transfused volume of each packed RBC age category and 24-hour survival, using random-effects logistic regression, adjusting for total packed RBC volume, patient age, sex, race, mechanism of injury, Injury Severity Score, Revised Trauma Score, clinical site, and trial treatment group.ResultsThe 678 patients included in the analysis received a total of 8,830 packed RBC units. One hundred patients (14.8%) died within the first 24 hours. On multivariable analysis, the number of packed RBCs greater than or equal to 22 days old was independently associated with increased 24-hour mortality (adjusted odds ratio [OR] 1.05 per packed RBC unit; 95% confidence interval [CI] 1.01 to 1.08): OR 0.97 for 0 to 7 days old (95% CI 0.88 to 1.08), OR 1.04 for 8 to 14 days old (95% CI 0.99 to 1.09), and OR 1.02 for 15 to 21 days old (95% CI 0.98 to 1.06). Results of sensitivity analyses were similar only among patients who received greater than or equal to 10 packed RBC units.ConclusionIncreasing quantities of older packed RBCs are associated with increased likelihood of 24-hour mortality in trauma patients receiving massive packed RBC transfusion (≥10 units), but not in those who receive fewer than 10 units.

Published
2019

23. Islands in the mud: The South Texas banks provide crucial mesophotic habitat for coral communities

Author

Maria Bollinger, Keir J. Macartney, Erin E. Easton, and David W. Hicks

Subjects
antipatharia, octocoral, gorgonian, scleractinia, habitat suitability modelling, maxent, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

On the continental shelf off the coast of South Texas lie a series of natural hard-bottom structures (rocky outcrops and relic coral-algal reefs) known as the South Texas Banks (STB), which provide critical habitat for benthic organisms and pelagic fish. The depth of the banks, a persistent nepheloid layer, and strong currents have resulted in few studies that provide quantitative biodiversity data on the STB. Using a remotely operated vehicle (ROV), video surveys were conducted to quantitatively describe the mesophotic coral communities and assess habitat suitability of five STB: North Hospital, Hospital, Southern, Big Adam, and Mysterious Banks. Each of these STB have significantly different benthic communites, with coral communities composed primarily of antipatharians and octocorals. Big Adam Bank had the lowest biodiversity and the least coral cover. Mysterious Bank had abundant antipatharians, specifically Stichopathes spp., but low biodiversity overall. Hospital Bank had low coral diversity that was offset by high diversity in sponges and other invertebrate species. North Hospital and Southern Banks had abundant and diverse populations of coral species, including scleractinians, and other benthic invertebrates. These data indicate that the STB are crucial islands of biodiversity in an area with few suitable areas for coral reef species. In addition, predictive modelling of habitat suitability provided valuable estimates on the potential distribution of key benthic community members, such as scleractinians and antipatharians, throughout the entire areas of the five banks assessed.

Published
2022
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24. Pgc-1α controls epidermal stem cell fate and skin repair by sustaining NAD+ homeostasis during aging

Author

Wesley Wong, Elizabeth D. Crane, Hui Zhang, Jiahe Li, Tovah A. Day, Alex E. Green, Keir J. Menzies, and Justin D. Crane

Subjects
Aging, Epidermis, Wound healing, NAD+, Internal medicine, RC31-1245
Abstract

Objective: The epidermal barrier is renewed by the activation, proliferation, and differentiation of keratinocyte stem cells after injury and aging impedes this repair process through undefined mechanisms. We previously identified a gene signature of metabolic dysfunction in aged murine epidermis, but the precise regulators of epidermal repair and age-related growth defects are not well established. Aged mouse models as well as mice with conditional epidermal loss of the metabolic regulator peroxisome proliferator-activated receptor gamma coactivator-1 alpha (Pgc-1α) were used to explore the cellular pathways which control skin repair after injury and stress. Methods: Aged mice or those with epidermal Pgc-1α deletion (epiPgc-1α KO) and young or Pgc1afl/fl controls were subjected to wound injury, UVB exposure or the inflammatory agent TPA. In vivo and ex vivo analyses of wound closure, skin structure, cell growth and stem cell differentiation were used to understand changes in epidermal re-growth and repair resulting from aging or Pgc-1α loss. Results: Aging impairs epidermal re-growth during wound healing and results in lower expression of Pgc-1α. Mice with conditional deletion of epidermal Pgc-1α exhibit greater inflammation- and UVB-induced cell differentiation, reduced proliferation, and slower wound healing. epiPgc-1α KO mice also displayed reduced keratinocyte NAD+ levels, shorter telomeres, and greater poly ADP-ribosylation, resulting in enhanced stress-stimulated p53 and p21 signaling. When NAD+ was reduced by Pgc-1α loss or pharmacologic inhibition of NAD+ synthesis, there was reduced stress-induced proliferation, increased differentiation, and protection against DNA damage via enhanced epidermal shedding. Similarly, aged mice exhibit disrupted epidermal NAD+ homeostasis and enhanced p53 activation, resulting in p21 growth arrest after wounding. NAD+ precursor treatment restores epidermal growth from old skin to that of young. Conclusions: Our studies identify a novel role for epidermal Pgc-1α in controlling epidermal repair via its regulation of cellular NAD+ and downstream effects on p53-driven growth arrest. We also establish that parallel mechanisms are evident in aged epidermis, showing that NAD+ signaling is an important controller of physiologic skin repair and that dysfunction of this pathway contributes to age-related wound repair defects.

Published
2022
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25. The CARM1 transcriptome and arginine methylproteome mediate skeletal muscle integrative biology

Author

Tiffany L. vanLieshout, Derek W. Stouth, Nicolas G. Hartel, Goutham Vasam, Sean Y. Ng, Erin K. Webb, Irena A. Rebalka, Andrew I. Mikhail, Nicholas A. Graham, Keir J. Menzies, Thomas J. Hawke, and Vladimir Ljubicic

Subjects
AMPK, PGC-1α, Muscle plasticity, Mitochondria, Neuromuscular junction, Internal medicine, RC31-1245
Abstract

Objective: Coactivator-associated arginine methyltransferase 1 (CARM1) catalyzes the methylation of arginine residues on target proteins to regulate critical processes in health and disease. A mechanistic understanding of the role(s) of CARM1 in skeletal muscle biology is only gradually emerging. The purpose of this study was to elucidate the function of CARM1 in regulating the maintenance and plasticity of skeletal muscle. Methods: We used transcriptomic, methylproteomic, molecular, functional, and integrative physiological approaches to determine the specific impact of CARM1 in muscle homeostasis. Results: Our data defines the occurrence of arginine methylation in skeletal muscle and demonstrates that this mark occurs on par with phosphorylation and ubiquitination. CARM1 skeletal muscle-specific knockout (mKO) mice displayed altered transcriptomic and arginine methylproteomic signatures with molecular and functional outcomes confirming remodeled skeletal muscle contractile and neuromuscular junction characteristics, which presaged decreased exercise tolerance. Moreover, CARM1 regulates AMPK-PGC-1α signalling during acute conditions of activity-induced muscle plasticity. Conclusions: This study uncovers the broad impact of CARM1 in the maintenance and remodelling of skeletal muscle biology.

Published
2022
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26. Onset of Coagulation Function Recovery Is Delayed in Severely Injured Trauma Patients with Venous Thromboembolism

Author

McCully, Belinda H, Connelly, Christopher R, Fair, Kelly A, Holcomb, John B, Fox, Erin E, Wade, Charles E, Bulger, Eileen M, Schreiber, Martin A, Group, PROPPR Study, del Junco, Deborah J, Matijevic, Nena, Podbielski, Jeanette, Beeler, Angela M, Tilley, Barbara C, Baraniuk, Sarah, Nixon, Joshua, Seay, Roann, Appana, Savitri N, Yang, Hui, Gonzalez, Michael O, Baer, Lisa, Wang, Yao-Wei Willa, Hula, Brittany S, Espino, Elena, Nguyen, An, Pawelczyk, Nicholas, Arora-Nutall, Kisha D, Sharma, Rishika, Cardenas, Jessica C, Rahbar, Elaheh, Burnett, Tyrone, Clark, David, van Belle, Gerald, May, Susanne, Leroux, Brian, Hoyt, David, Powell, Judy, Sheehan, Kellie, Hubbard, Alan, Arkin, Adam P, Hess, John R, Callum, Jeanne, Cotton, Bryan A, Vincent, Laura, Welch, Timothy, Poole, Tiffany, Pivalizza, Evan G, Gumbert, Sam D, Bai, Yu, McCarthy, James J, Noland, Amy, Hobbs, Rhonda, Klotz, Patricia, Cattin, Lindsay, Warner, Keir J, Wilson, Angela, Boman, David, White, Nathan, Grabinsky, Andreas, Daniel-Johnson, Jennifer A, Cohen, Mitchell Jay, Callcut, Rachael A, Nelson, Mary, Redick, Brittney, Conroy, Amanda, Steurer, Marc P, Maxim, Preston C, Fiebig, Eberhard, Moore, Joanne, Mallari, Eireen, Muskat, Peter, Johannigman, Jay A, Robinson, Bryce RH, Branson, Richard D, Gomaa, Dina, Barczak, Christopher, Bennett, Suzanne, Carey, Patricia M, Miller, Christopher N, Hancock, Helen, Rodriguez, Carolina, Inaba, Kenji, Zhu, Jay G, Wong, Monica D, Menchine, Michael, Katzberg, Kelly, Henderson, Sean O, McKeever, Rodney, Shulman, Ira A, Nelson, Janice M, Tuma, Christopher W, Matsushita, Cheryl Y, Scalea, Thomas M, Stein, Deborah M, Shaffer, Cynthia K, and Wade, Christine

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Physical Injury - Accidents and Adverse Effects, Hematology, Clinical Research, Cardiovascular, Adult, Anticoagulants, Blood Coagulation Disorders, Blood Coagulation Tests, Female, Humans, Injury Severity Score, Male, Middle Aged, Recovery of Function, Thrombelastography, Trauma Centers, Venous Thromboembolism, Wounds and Injuries, PROPPR Study Group, Surgery, Clinical sciences
Abstract

BackgroundAltered coagulation function after trauma can contribute to development of venous thromboembolism (VTE). Severe trauma impairs coagulation function, but the trajectory for recovery is not known. We hypothesized that enhanced, early recovery of coagulation function increases VTE risk in severely injured trauma patients.Study designSecondary analysis was performed on data from the Pragmatic Randomized Optimal Platelet and Plasma Ratio (PROPPR) trial, excluding patients who died within 24 hours or were on pre-injury anticoagulants. Patient characteristics, adverse outcomes, and parameters of platelet function and coagulation (thromboelastography) were compared from admission to 72 hours between VTE (n = 83) and non-VTE (n = 475) patients. A p value < 0.05 indicates significance.ResultsDespite similar patient demographics, VTE patients exhibited hypercoagulable thromboelastography parameters and enhanced platelet function at admission (p < 0.05). Both groups exhibited hypocoagulable thromboelastography parameters, platelet dysfunction, and suppressed clot lysis (low clot lysis at 30 minutes) 2 hours after admission (p < 0.05). The VTE patients exhibited delayed coagulation recovery (a significant change compared with 2 hours) of K-value (48 vs 24 hours), α-angle (no recovery), maximum amplitude (24 vs 12 hours), and clot lysis at 30 minutes (48 vs 12 hours). Platelet function recovery mediated by arachidonic acid (72 vs 4 hours), ADP (72 vs 12 hours), and collagen (48 vs 12 hours) was delayed in VTE patients. The VTE patients had lower mortality (4% vs 13%; p < 0.05), but fewer hospital-free days (0 days [interquartile range 0 to 8 days] vs 10 days [interquartile range 0 to 20 days]; p < 0.05) and higher complication rates (p < 0.05).ConclusionsRecovery from platelet dysfunction and coagulopathy after severe trauma were delayed in VTE patients. Suppressed clot lysis and compensatory mechanisms associated with altered coagulation that can potentiate VTE formation require additional investigation.

Published
2017

28. CARM1 drives mitophagy and autophagy flux during fasting-induced skeletal muscle atrophy.

Author

Stouth, Derek W., vanLieshout, Tiffany L., Mikhail, Andrew I., Ng, Sean Y., Raziee, Rozhin, Edgett, Brittany A., Vasam, Goutham, Webb, Erin K., Gilotra, Kevin S., Markou, Matthew, Pineda, Hannah C., Bettencourt-Mora, Brianna G., Noor, Haleema, Moll, Zachary, Bittner, Megan E., Gurd, Brendon J., Menzies, Keir J., and Ljubicic, Vladimir

Subjects
UBIQUITIN ligases, TRANSCRIPTION factors, FORKHEAD transcription factors, CHROMATIN-remodeling complexes, MUSCULAR atrophy, SKELETAL muscle, TUBULINS, PROTEIN arginine methyltransferases
Abstract

CARM1 (coactivator associated arginine methyltransferase 1) has recently emerged as a powerful regulator of skeletal muscle biology. However, the molecular mechanisms by which the methyltransferase remodels muscle remain to be fully understood. In this study, carm1 skeletal muscle-specific knockout (mKO) mice exhibited lower muscle mass with dysregulated macroautophagic/autophagic and atrophic signaling, including depressed AMP-activated protein kinase (AMPK) site-specific phosphorylation of ULK1 (unc-51 like autophagy activating kinase 1; Ser555) and FOXO3 (forkhead box O3; Ser588), as well as MTOR (mechanistic target of rapamycin kinase)-induced inhibition of ULK1 (Ser757), along with AKT/protein kinase B site-specific suppression of FOXO1 (Ser256) and FOXO3 (Ser253). In addition to lower mitophagy and autophagy flux in skeletal muscle, carm1 mKO led to increased mitochondrial PRKN/parkin accumulation, which suggests that CARM1 is required for basal mitochondrial turnover and autophagic clearance. carm1 deletion also elicited PPARGC1A (PPARG coactivator 1 alpha) activity and a slower, more oxidative muscle phenotype. As such, these carm1 mKO-evoked adaptations disrupted mitophagy and autophagy induction during food deprivation and collectively served to mitigate fasting-induced muscle atrophy. Furthermore, at the threshold of muscle atrophy during food deprivation experiments in humans, skeletal muscle CARM1 activity decreased similarly to our observations in mice, and was accompanied by site-specific activation of ULK1 (Ser757), highlighting the translational impact of the methyltransferase in human skeletal muscle. Taken together, our results indicate that CARM1 governs mitophagic, autophagic, and atrophic processes fundamental to the maintenance and remodeling of muscle mass. Targeting the enzyme may provide new therapeutic approaches for mitigating skeletal muscle atrophy. Abbreviation: ADMA: asymmetric dimethylarginine; AKT/protein kinase B: AKT serine/threonine kinase; AMPK: AMP-activated protein kinase; ATG: autophagy related; BECN1: beclin 1; BNIP3: BCL2 interacting protein 3; CARM1: coactivator associated arginine methyltransferase 1; Col: colchicine; CSA: cross-sectional area; CTNS: cystinosin, lysosomal cystine transporter; EDL: extensor digitorum longus; FBXO32/MAFbx: F-box protein 32; FOXO: forkhead box O; GAST: gastrocnemius; H2O2: hydrogen peroxide; IMF: intermyofibrillar; LAMP1: lysosomal associated membrane protein 1; MAP1LC3B: microtubule associated protein 1 light chain 3 beta; mKO: skeletal muscle-specific knockout; MMA: monomethylarginine; MTOR: mechanistic target of rapamycin kinase; MYH: myosin heavy chain; NFE2L2/NRF2: NFE2 like bZIP transcription factor 2; OXPHOS: oxidative phosphorylation; PABPC1/PABP1: poly(A) binding protein cytoplasmic 1; PPARGC1A/PGC-1α: PPARG coactivator 1 alpha; PRKN/parkin: parkin RBR E3 ubiquitin protein ligase; PRMT: protein arginine methyltransferase; Sal: saline; SDMA: symmetric dimethylarginine; SIRT1: sirtuin 1; SKP2: S-phase kinase associated protein 2; SMARCC1/BAF155: SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1; SOL: soleus; SQSTM1/p62: sequestosome 1; SS: subsarcolemmal; TA: tibialis anterior; TFAM: transcription factor A, mitochondrial; TFEB: transcription factor EB; TOMM20: translocase of outer mitochondrial membrane 20; TRIM63/MuRF1: tripartite motif containing 63; ULK1: unc-51 like autophagy activating kinase 1; VPS11: VPS11 core subunit of CORVET and HOPS complexes; WT: wild-type. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Sarcopenia and Muscle Aging: A Brief Overview

Author

Tam Dao, Alexander E. Green, Yun A Kim, Sung-Jin Bae, Ki-Tae Ha, Karim Gariani, Mi-ra Lee, Keir J. Menzies, and Dongryeol Ryu

Subjects
skeletal muscle, sarcopenia, aging, mitochondria, nad+, urolithin, mitophagy, gastrointestinal microbiome, exercise, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

The world is facing the new challenges of an aging population, and understanding the process of aging has therefore become one of the most important global concerns. Sarcopenia is a condition which is defined by the gradual loss of skeletal muscle mass and function with age. In research and clinical practice, sarcopenia is recognized as a component of geriatric disease and is a current target for drug development. In this review we define this condition and provide an overview of current therapeutic approaches. We further highlight recent findings that describe key pathophysiological phenotypes of this condition, including alterations in muscle fiber types, mitochondrial function, nicotinamide adenine dinucleotide (NAD+) metabolism, myokines, and gut microbiota, in aged muscle compared to young muscle or healthy aged muscle. The last part of this review examines new therapeutic avenues for promising treatment targets. There is still no accepted therapy for sarcopenia in humans. Here we provide a brief review of the current state of research derived from various mouse models or human samples that provide novel routes for the development of effective therapeutics to maintain muscle health during aging.

Published
2020
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31. Placental Mitochondrial Function and Dysfunction in Preeclampsia

Author

Fahmida Jahan, Goutham Vasam, Alex E. Green, Shannon A. Bainbridge, and Keir J. Menzies

Subjects
placenta, mitochondria, preeclampsia, disease subclasses, pregnancy, hypertension, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The placenta is a vital organ of pregnancy, regulating adaptation to pregnancy, gestational parent/fetal exchange, and ultimately, fetal development and growth. Not surprisingly, in cases of placental dysfunction—where aspects of placental development or function become compromised—adverse pregnancy outcomes can result. One common placenta-mediated disorder of pregnancy is preeclampsia (PE), a hypertensive disorder of pregnancy with a highly heterogeneous clinical presentation. The wide array of clinical characteristics observed in pregnant individuals and neonates of a PE pregnancy are likely the result of distinct forms of placental pathology underlying the PE diagnosis, explaining why no one common intervention has proven effective in the prevention or treatment of PE. The historical paradigm of placental pathology in PE highlights an important role for utero–placental malperfusion, placental hypoxia and oxidative stress, and a critical role for placental mitochondrial dysfunction in the pathogenesis and progression of the disease. In the current review, the evidence of placental mitochondrial dysfunction in the context of PE will be summarized, highlighting how altered mitochondrial function may be a common feature across distinct PE subtypes. Further, advances in this field of study and therapeutic targeting of mitochondria as a promising intervention for PE will be discussed.

Published
2023
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32. Growth and feeding in the sponge Agelas tubulata from shallow to mesophotic depths on Grand Cayman Island

Author

Keir J. Macartney, Amelia Clayshulte Abraham, Marc Slattery, and Michael P. Lesser

Subjects
coral reefs, dissolved organic matter, mesophotic, particulate organic matter, porifera, sponges, Ecology, QH540-549.5
Abstract

Abstract On Caribbean coral reefs, sponges are important members of the benthic community and play multiple roles in ecosystem structure and function. They have an important role in benthic‐pelagic coupling, consuming particulate organic matter (POM) and dissolved organic matter (DOM) and in turn providing food in the form of sponge biomass or the release of detritus for a variety of coral reef organisms. Throughout the Caribbean, sponges show consistent increases in their abundance and growth rates as depth increases into the mesophotic zone (30–150 m). This has been hypothesized to be driven by bottom‐up forces, particularly the increased supply of nitrogen‐rich POM in mesophotic coral reef ecosystems (MCEs). Here, we tested the hypothesis that the sponge, Agelas tubulata, exhibits increased growth rates on MCEs relative to shallow reefs on Grand Cayman Island and that this is driven by bottom‐up forcing. We observed increased growth rates in mesophotic A. tubulata, compared with shallow conspecifics, despite variability in feeding on both POM and DOM. Mesophotic sponges, however, were consistently exposed to greater amounts of POM, which was seasonally variable unlike DOM. Changes in stable isotopic signatures, and higher feeding rates with increasing depth, were consistent with increasing rates of growth in sponges as depth increases. These observations support the hypothesis that mesophotic sponges have higher growth rates due to increased POM availability and consumption over time. The results of this study illustrate the crucial role that bottom‐up forcing has in the structuring of sponge communities on both shallow and mesophotic Caribbean coral reefs and the importance of POM as a source of nitrogen in sponge diets.

Published
2021
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34. Elevated Syndecan-1 after Trauma and Risk of Sepsis: A Secondary Analysis of Patients from the Pragmatic, Randomized Optimal Platelet and Plasma Ratios (PROPPR) Trial

Author

Holcomb, John B., Wade, Charles E, del Junco, Deborah J., Fox, Erin E., Matijevic, Nena, Podbielski, Jeanette, Beeler, Angela M., Tilley, Barbara C., Baraniuk, Sarah, Zhu, Hongjian, Nixon, Joshua, Seay, Roann, Appana, Savitri N., Yang, Hui, Gonzalez, Michael O., Baer, Lisa, Willa Wang, Yao-Wei, Hula, Brittany S., Espino, Elena, Nguyen, An, Pawelczyk, Nicholas, Arora-Nutall, Kisha D., Sharma, Rishika, Cardenas, Jessica C., Rahbar, Elaheh, Burnett, Tyrone, Jr., Clark, David, van Belle, Gerald, May, Susanne, Leroux, Brian, Hoyt, David, Powell, Judy, Sheehan, Kellie, Hubbard, Alan, Arkin, Adam P., Hess, John R., Callum, Jeanne, Cotton, Bryan A., Vincent, Laura, Welch, Timothy, Poole, Tiffany, Pivalizza, Evan G., Gumbert, Sam D., Bai, Yu, McCarthy, James J., Noland, Amy, Hobbs, Rhonda, Bulger, Eileen M., Klotz, Patricia, Cattin, Lindsay, Warner, Keir J., Wilson, Angela, Boman, David, White, Nathan, Grabinsky, Andreas, Daniel-Johnson, Jennifer A., Cohen, Mitchell Jay, Callcut, Rachael A., Nelson, Mary, Redick, Brittney, Conroy, Amanda, Steurer, Marc P., Maxim, Preston C, Fiebig, Eberhard, Moore, Joanne, Mallari, Eireen, Muskat, Peter, Johannigman, Jay A., Robinson, Bryce RH., Branson, Richard D., Gomaa, Dina, Barczak, Christopher, Bennett, Suzanne, Carey, Patricia M., Miller, Christopher N., Hancock, Helen, Rodriguez, Carolina, Inaba, Kenji, Zhu, Jay G., Wong, Monica D., Menchine, Michael, Katzberg, Kelly, Henderson, Sean O., McKeever, Rodney, Shulman, Ira A., Nelson, Janice M., Tuma, Christopher W., Matsushita, Cheryl Y, Scalea, Thomas M., Stein, Deborah M., Shaffer, Cynthia K., Wade, Christine, Herrera, Anthony V., Kallam, Seeta, Wade, Sarah E., Galvagno, Samuel M., Jr., Fontaine, Magali J., Hunt, Janice M., Cooke, Rhonda K., Fabian, Timothy C., Weinberg, Jordan A., Croce, Martin A., Wilson, Suzanne, Panzer-Baggett, Stephanie, Waddle-Smith, Lynda, Flax, Sherri, Brasel, Karen J., Walsh, Pamela, Milia, David, Nelson, Allia, Kaslow, Olga, Aufderheide, Tom P., Gottschall, Jerome L., Carpenter, Erica, O'Keeffe, Terence, Rokowski, Laurel L., Denninghoff, Kurt R., Redford, Daniel T., Novak, Deborah J., Knoll, Susan, Kerby, Jeffrey D., Pittet, Jean-Francois, Bosarge, Patrick L., Pierce, Albert T., Williams, Carolyn R., Stephens, Shannon W., Wang, Henry E., Marques, Marisa B., Schreiber, Martin A., Watters, Jennifer M., Underwood, Samantha J., Groat, Tahnee, Newgard, Craig, Merkel, Matthias, Scanlan, Richard M., Miller, Beth, Rizoli, Sandro, Tien, Homer, Nascimento, Barto, Trpcic, Sandy, Sobrian-Couroux, Skeeta, Reis, Marciano, Pérez, Adic, Belo, Susan E., Merkley, Lisa, Colavecchia, Connie, Wei, Shuyan, Gonzalez Rodriguez, Erika, Chang, Ronald, Kao, Lillian S., and Wade, Charles E.

Published
2018
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36. CARM1 drives mitophagy and autophagy flux during fasting-induced skeletal muscle atrophy

Author

Stouth, Derek W., primary, vanLieshout, Tiffany L., additional, Mikhail, Andrew I., additional, Ng, Sean Y., additional, Raziee, Rozhin, additional, Edgett, Brittany A., additional, Vasam, Goutham, additional, Webb, Erin K., additional, Gilotra, Kevin S., additional, Markou, Matthew, additional, Pineda, Hannah C., additional, Bettencourt-Mora, Brianna G., additional, Noor, Haleema, additional, Moll, Zachary, additional, Bittner, Megan E., additional, Gurd, Brendon J., additional, Menzies, Keir J., additional, and Ljubicic, Vladimir, additional

Published
2023
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38. Radiation induces long‐term muscle fibrosis and promotes a fibrotic phenotype in fibro‐adipogenic progenitors

Author

Collao, Nicolas, primary, D'Souza, Donna, additional, Messeiller, Laura, additional, Pilon, Evan, additional, Lloyd, Jessica, additional, Larkin, Jillian, additional, Ngu, Matthew, additional, Cuillerier, Alexanne, additional, Green, Alexander E., additional, Menzies, Keir J., additional, Burelle, Yan, additional, and De Lisio, Michael, additional

Published
2023
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39. Grx2 Regulates Skeletal Muscle Mitochondrial Structure and Autophagy

Author

Ava Liaghati, Chantal A. Pileggi, Gaganvir Parmar, David A. Patten, Nina Hadzimustafic, Alexanne Cuillerier, Keir J. Menzies, Yan Burelle, and Mary-Ellen Harper

Subjects
mitochondria, glutathione, mitochondrial dynamics, disulfide relay system, glutaredoxin 2, autophagy, Physiology, QP1-981
Abstract

Glutathione is an important antioxidant that regulates cellular redox status and is disordered in many disease states. Glutaredoxin 2 (Grx2) is a glutathione-dependent oxidoreductase that plays a pivotal role in redox control by catalyzing reversible protein deglutathionylation. As oxidized glutathione (GSSG) can stimulate mitochondrial fusion, we hypothesized that Grx2 may contribute to the maintenance of mitochondrial dynamics and ultrastructure. Here, we demonstrate that Grx2 deletion results in decreased GSH:GSSG, with a marked increase of GSSG in primary muscle cells isolated from C57BL/6 Grx2−/− mice. The altered glutathione redox was accompanied by increased mitochondrial length, consistent with a more fused mitochondrial reticulum. Electron microscopy of Grx2−/− skeletal muscle fibers revealed decreased mitochondrial surface area, profoundly disordered ultrastructure, and the appearance of multi-lamellar structures. Immunoblot analysis revealed that autophagic flux was augmented in Grx2−/− muscle as demonstrated by an increase in the ratio of LC3II/I expression. These molecular changes resulted in impaired complex I respiration and complex IV activity, a smaller diameter of tibialis anterior muscle, and decreased body weight in Grx2 deficient mice. Together, these are the first results to show that Grx2 regulates skeletal muscle mitochondrial structure, and autophagy.

Published
2021
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40. A New 'Business as Usual' Climate Scenario and the Stress Response of the Caribbean Coral Montastraea cavernosa

Author

Michael P. Lesser, Jessica K. Jarett, Cara L. Fiore, Megan M. Thompson, M. Sabrina Pankey, and Keir J. Macartney

Subjects
coral reefs, climate change, thermal stress, ocean acidification, apoptosis, coral bleaching, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

The climate change related decline of shallow (

Published
2020
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41. Treatment with a selective histone deacetylase (HDAC) 1 and 2 inhibitor in aged mice rejuvenates multiple organ systems

Author

Tammaro, Alessandra, primary, Daniels, Eileen G., additional, Hu, Iman M., additional, t Hart, Kelly C., additional, Reid, Kimberly, additional, Juni, Rio P., additional, Butter, Loes, additional, Vasam, Goutham, additional, Kamble, Rashmi S., additional, Jongejan, Aldo, additional, Aviv, Richard I., additional, Roelofs, Joris J.T.H, additional, Aronica, Eleonora, additional, Boon, Reinier A., additional, Menzies, Keir J, additional, Houtkooper, Riekelt, additional, and Janssens, Georges E, additional

Published
2023
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42. Onset of Coagulation Function Recovery Is Delayed in Severely Injured Trauma Patients with Venous Thromboembolism

Author

Holcomb, John B., Wade, Charles E., del Junco, Deborah J., Fox, Erin E., Matijevic, Nena, Podbielski, Jeanette, Beeler, Angela M., Tilley, Barbara C., Baraniuk, Sarah, Nixon, Joshua, Seay, Roann, Appana, Savitri N., Yang, Hui, Gonzalez, Michael O., Baer, Lisa, Willa Wang, Yao-Wei, Hula, Brittany S., Espino, Elena, Nguyen, An, Pawelczyk, Nicholas, Arora-Nutall, Kisha D., Sharma, Rishika, Cardenas, Jessica C., Rahbar, Elaheh, Burnett, Tyrone, Jr., Clark, David, van Belle, Gerald, May, Susanne, Leroux, Brian, Hoyt, David, Powell, Judy, Sheehan, Kellie, Hubbard, Alan, Arkin, Adam P., Hess, John R., Callum, Jeanne, Cotton, Bryan A., Vincent, Laura, Welch, Timothy, Poole, Tiffany, Pivalizza, Evan G., Gumbert, Sam D., Bai, Yu, McCarthy, James J., Noland, Amy, Hobbs, Rhonda, Bulger, Eileen M., Klotz, Patricia, Cattin, Lindsay, Warner, Keir J., Wilson, Angela, Boman, David, White, Nathan, Grabinsky, Andreas, Daniel-Johnson, Jennifer A., Cohen, Mitchell Jay, Callcut, Rachael A., Nelson, Mary, Redick, Brittney, Conroy, Amanda, Steurer, Marc P., Maxim, Preston C., Fiebig, Eberhard, Moore, Joanne, Mallari, Eireen, Muskat, Peter, Johannigman, Jay A., Robinson, Bryce RH., Branson, Richard D., Gomaa, Dina, Barczak, Christopher, Bennett, Suzanne, Carey, Patricia M., Miller, Christopher N., Hancock, Helen, Rodriguez, Carolina, Inaba, Kenji, Zhu, Jay G., Wong, Monica D., Menchine, Michael, Katzberg, Kelly, Henderson, Sean O., McKeever, Rodney, Shulman, Ira A., Nelson, Janice M., Tuma, Christopher W., Matsushita, Cheryl Y., Scalea, Thomas M., Stein, Deborah M., Shaffer, Cynthia K., Wade, Christine, Herrera, Anthony V., Kallam, Seeta, Wade, Sarah E., Galvagno, Samuel M., Jr., Fontaine, Magali J., Hunt, Janice M., Cooke, Rhonda K., Fabian, Timothy C., Weinberg, Jordan A., Croce, Martin A., Wilson, Suzanne, Panzer-Baggett, Stephanie, Waddle-Smith, Lynda, Flax, Sherri, Brasel, Karen J., Walsh, Pamela, Milia, David, Nelson, Allia, Kaslow, Olga, Aufderheide, Tom P., Gottschall, Jerome L., Carpenter, Erica, O'Keeffe, Terence, Rokowski, Laurel L., Denninghoff, Kurt R., Redford, Daniel T., Novak, Deborah J., Knoll, Susan, Kerby, Jeffrey D., Pittet, Jean-Francois, Bosarge, Patrick L., Pierce, Albert T., Williams, Carolyn R., Stephens, Shannon W., Wang, Henry E., Marques, Marisa B., Schreiber, Martin A., Watters, Jennifer M., Underwood, Samantha J., Groat, Tahnee, Newgard, Craig, Merkel, Matthias, Scanlan, Richard M., Miller, Beth, Rizoli, Sandro, Tien, Homer, Nascimento, Barto, Trpcic, Sandy, Sobrian-Couroux, Skeeta, Reis, Marciano, Pérez, Adic, Belo, Susan E., Merkley, Lisa, Colavecchia, Connie, McCully, Belinda H., Connelly, Christopher R., and Fair, Kelly A.

Published
2017
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43. Dietary Cocoa Flavanols Enhance Mitochondrial Function in Skeletal Muscle and Modify Whole-Body Metabolism in Healthy Mice

Author

Frédéric Nicolas Daussin, Alexane Cuillerier, Julianne Touron, Samir Bensaid, Bruno Melo, Ali Al Rewashdy, Goutham Vasam, Keir J. Menzies, Mary-Ellen Harper, Elsa Heyman, and Yan Burelle

Subjects
cocoa flavanols, NAD metabolism, mitochondrial mass, glucose metabolism, skeletal muscle, Nutrition. Foods and food supply, TX341-641
Abstract

Mitochondrial dysfunction is widely reported in various diseases and contributes to their pathogenesis. We assessed the effect of cocoa flavanols supplementation on mitochondrial function and whole metabolism, and we explored whether the mitochondrial deacetylase sirtuin-3 (Sirt3) is involved or not. We explored the effects of 15 days of CF supplementation in wild type and Sirt3-/- mice. Whole-body metabolism was assessed by indirect calorimetry, and an oral glucose tolerance test was performed to assess glucose metabolism. Mitochondrial respiratory function was assessed in permeabilised fibres and the pyridine nucleotides content (NAD+ and NADH) were quantified. In the wild type, CF supplementation significantly modified whole-body metabolism by promoting carbohydrate use and improved glucose tolerance. CF supplementation induced a significant increase of mitochondrial mass, while significant qualitative adaptation occurred to maintain H2O2 production and cellular oxidative stress. CF supplementation induced a significant increase in NAD+ and NADH content. All the effects mentioned above were blunted in Sirt3-/- mice. Collectively, CF supplementation boosted the NAD metabolism that stimulates sirtuins metabolism and improved mitochondrial function, which likely contributed to the observed whole-body metabolism adaptation, with a greater ability to use carbohydrates, at least partially through Sirt3.

Published
2021
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44. Contributors

Author

Averet, Nicole, primary, Bansal, Amita, additional, Begriche, Karima, additional, Bouchez, Cyrielle, additional, Boudina, Sihem, additional, Brandon, Amanda E., additional, Burelle, Yan, additional, Camougrand, Nadine, additional, Cantó, Carles, additional, Cardoso, Susana, additional, Carrière, Audrey, additional, Casas, François, additional, Casteilla, Louis, additional, Czeczor, Juliane K., additional, David, Claudine, additional, Devin, Anne, additional, Diamond-Stanic, Maggie, additional, Duvezin-Caubet, Stéphane, additional, Fromenty, Bernard, additional, Han, Xianlin, additional, Holloway, Graham P., additional, Katsuyama, Hisayuki, additional, Kroon, Albert M., additional, Leloup, Corinne, additional, Manon, Stéphen, additional, Massart, Julie, additional, Menzies, Keir J., additional, Miotto, Paula M., additional, Molinié, Thibaut, additional, Moreira, Paula I., additional, Morio, Béatrice, additional, Mourier, Arnaud, additional, Osborne, Brenna, additional, Parnis, Julia, additional, Pénicaud, Luc, additional, Rashid, Cetewayo, additional, Reid, Kimberly, additional, Rigoulet, Michel, additional, Roden, Michael, additional, Rojo, Manuel, additional, Rutter, Guy A., additional, Seiça, Raquel M., additional, Sharma, Kumar, additional, Shi, Yuguang, additional, Simmons, Rebecca A., additional, Smith, Greg C., additional, Taanman, Jan-Willem, additional, Turner, Nigel, additional, Vasam, Goutham, additional, and Yoboué, Edgar Djaha, additional

Published
2019
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