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1. Mitochondria regulate proliferation in adult cardiac myocytes

Author

Waypa, Gregory B., Smith, Kimberly A., Mungai, Paul T., Dudley, Vincent J., Helmin, Kathryn A., Singer, Benjamin D., Peek, Clara Bien, Bass, Joseph, Nelson, Lauren, Shah, Sanjiv J., Ofman, Gaston, Wasserstrom, J. Andrew, Muller, William A., Misharin, Alexander V., Budinger, G.R. Scott, Abdala-Valencia, Hiam, Chandel, Navdeep S., Dokic, Danijela, Bartom, Elizabeth, Zhang, Shuang, Tatekoshi, Yuki, Mahmoodzadeh, Amir, Ardehali, Hossein, Thorp, Edward B., and Schumacker, Paul T.

Subjects
Oxidative phosphorylation -- Health aspects, RNA sequencing -- Analysis, Ischemia -- Complications and side effects -- Care and treatment, Epigenetic inheritance -- Analysis, Mitochondrial DNA -- Analysis, Health care industry, Care and treatment, Analysis, Complications and side effects, Health aspects
Abstract

Newborn mammalian cardiomyocytes quickly transition from a fetal to an adult phenotype that utilizes mitochondrial oxidative phosphorylation but loses mitotic capacity. We tested whether forced reversal of adult cardiomyocytes back to a fetal glycolytic phenotype would restore proliferative capacity. We deleted Uqcrfsl (mitochondrial Rieske iron- sulfur protein, RISP) in hearts of adult mice. As RISP protein decreased, heart mitochondrial function declined, and glucose utilization increased. Simultaneously, the hearts underwent hyperplastic remodeling during which cardiomyocyte number doubled without cellular hypertrophy. Cellular energy supply was preserved, AMPK activation was absent, and mTOR activation was evident. In ischemic hearts with RISP deletion, new cardiomyocytes migrated into the infarcted region, suggesting the potential for therapeutic cardiac regeneration. RNA sequencing revealed upregulation of genes associated with cardiac development and proliferation. Metabolomic analysis revealed a decrease in a-ketoglutarate (required for TET-mediated demethylation) and an increase in 5-adenosylmethionine (required for methyltransferase activity). Analysis revealed an increase in methylated CpGs near gene transcriptional start sites. Genes that were both differentially expressed and differentially methylated were linked to upregulated cardiac developmental pathways. We conclude that decreased mitochondrial function and increased glucose utilization can restore mitotic capacity in adult cardiomyocytes, resulting in the generation of new heart cells, potentially through the modification of substrates that regulate epigenetic modification of genes required for proliferation., Introduction Mitochondria generate ATP through oxidative phosphorylation (OXPHOS), but they also participate in diverse biological functions that include redox signaling (1), metabolite signaling (2), calcium signaling (3), and the generation [...]

Published
2024
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5. Understanding Circadian Mechanisms of Sudden Cardiac Death: A Report From the National Heart, Lung, and Blood Institute Workshop, Part 1: Basic and Translational Aspects

Author

Delisle, Brian P, George, Alfred L, Nerbonne, Jeanne M, Bass, Joseph T, Ripplinger, Crystal M, Jain, Mukesh K, Hermanstyne, Tracey O, Young, Martin E, Kannankeril, Prince J, Duffy, Jeanne F, Goldhaber, Joshua I, Hall, Martica H, Somers, Virend K, Smolensky, Michael H, Garnett, Christine E, Anafi, Ron C, Scheer, Frank AJL, Shivkumar, Kalyanam, Shea, Steven A, and Balijepalli, Ravi C

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Sleep Research, Heart Disease - Coronary Heart Disease, Heart Disease, Cardiovascular, Hematology, Animals, Circadian Rhythm, Death, Sudden, Cardiac, Humans, National Heart, Lung, and Blood Institute (U.S.), United States, cardiovascular disease, circadian clocks, circadian rhythm, National Heart, Lung, and Blood Institute, sudden cardiac death, National Heart, Lung, and Blood Institute, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Medical Physiology, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences, Medical physiology
Abstract

Sudden cardiac death (SCD), the unexpected death due to acquired or genetic cardiovascular disease, follows distinct 24-hour patterns in occurrence. These 24-hour patterns likely reflect daily changes in arrhythmogenic triggers and the myocardial substrate caused by day/night rhythms in behavior, the environment, and endogenous circadian mechanisms. To better address fundamental questions regarding the circadian mechanisms, the National Heart, Lung, and Blood Institute convened a workshop, Understanding Circadian Mechanisms of Sudden Cardiac Death. We present a 2-part report of findings from this workshop. Part 1 summarizes the workshop and serves to identify research gaps and opportunities in the areas of basic and translational research. Among the gaps was the lack of standardization in animal studies for reporting environmental conditions (eg, timing of experiments relative to the light dark cycle or animal housing temperatures) that can impair rigor and reproducibility. Workshop participants also pointed to uncertainty regarding the importance of maintaining normal circadian rhythmic synchrony and the potential pathological impact of desynchrony on SCD risk. One related question raised was whether circadian mechanisms can be targeted to reduce SCD risk. Finally, the experts underscored the need for studies aimed at determining the physiological importance of circadian clocks in the many different cell types important to normal heart function and SCD. Addressing these gaps could lead to new therapeutic approaches/molecular targets that can mitigate the risk of SCD not only at certain times but over the entire 24-hour period.

Published
2021

6. Understanding Circadian Mechanisms of Sudden Cardiac Death: A Report From the National Heart, Lung, and Blood Institute Workshop, Part 2: Population and Clinical Considerations

Author

Delisle, Brian P, George, Alfred L, Nerbonne, Jeanne M, Bass, Joseph T, Ripplinger, Crystal M, Jain, Mukesh K, Hermanstyne, Tracey O, Young, Martin E, Kannankeril, Prince J, Duffy, Jeanne F, Goldhaber, Joshua I, Hall, Martica H, Somers, Virend K, Smolensky, Michael H, Garnett, Christine E, Anafi, Ron C, Scheer, Frank AJL, Shivkumar, Kalyanam, Shea, Steven A, and Balijepalli, Ravi C

Subjects
Biomedical and Clinical Sciences, Medical Physiology, Cardiovascular Medicine and Haematology, Clinical Sciences, Sleep Research, Cardiovascular, Heart Disease, Prevention, Heart Disease - Coronary Heart Disease, 2.1 Biological and endogenous factors, Aetiology, Respiratory, Good Health and Well Being, Circadian Rhythm, Death, Sudden, Cardiac, Humans, National Heart, Lung, and Blood Institute (U.S.), Population Surveillance, United States, cardiovascular diseases, circadian clock, circadian rhythm, genetics, National Heart, Lung, and Blood Institute, population, sudden cardiac death, National Heart, Lung, and Blood Institute, Cardiorespiratory Medicine and Haematology, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences, Medical physiology
Abstract

Sudden cardiac death (SCD) is the sudden, unexpected death due to abrupt loss of heart function secondary to cardiovascular disease. In certain populations living with cardiovascular disease, SCD follows a distinct 24-hour pattern in occurrence, suggesting day/night rhythms in behavior, the environment, and endogenous circadian rhythms result in daily spans of increased vulnerability. The National Heart, Lung, and Blood Institute convened a workshop, Understanding Circadian Mechanisms of Sudden Cardiac Death to identify fundamental questions regarding the role of the circadian rhythms in SCD. Part 2 summarizes research gaps and opportunities in the areas of population and clinical research identified in the workshop. Established research supports a complex interaction between circadian rhythms and physiological responses that increase the risk for SCD. Moreover, these physiological responses themselves are influenced by several biological variables, including the type of cardiovascular disease, sex, age, and genetics, as well as environmental factors. The emergence of new noninvasive biotechnological tools that continuously measure key cardiovascular variables, as well as the identification of biomarkers to assess circadian rhythms, hold promise for generating large-scale human data sets that will delineate which subsets of individuals are most vulnerable to SCD. Additionally, these data will improve our understanding of how people who suffer from circadian disruptions develop cardiovascular diseases that increase the risk for SCD. Emerging strategies to identify new biomarkers that can quantify circadian health (eg, environmental, behavioral, and internal misalignment) may lead to new interventions and therapeutic targets to prevent the progression of cardiovascular diseases that cause SCD.

Published
2021

17. NASA GeneLab RNA-seq consensus pipeline: Standardized processing of short-read RNA-seq data

Author

Overbey, Eliah G., Saravia-Butler, Amanda M., Zhang, Zhe, Rathi, Komal S., Fogle, Homer, da Silveira, Willian A., Barker, Richard J., Bass, Joseph J., Beheshti, Afshin, Berrios, Daniel C., Blaber, Elizabeth A., Cekanaviciute, Egle, Costa, Helio A., Davin, Laurence B., Fisch, Kathleen M., Gebre, Samrawit G., Geniza, Matthew, Gilbert, Rachel, Gilroy, Simon, Hardiman, Gary, Herranz, Raúl, Kidane, Yared H., Kruse, Colin P.S., Lee, Michael D., Liefeld, Ted, Lewis, Norman G., McDonald, J. Tyson, Meller, Robert, Mishra, Tejaswini, Perera, Imara Y., Ray, Shayoni, Reinsch, Sigrid S., Rosenthal, Sara Brin, Strong, Michael, Szewczyk, Nathaniel J., Tahimic, Candice G.T., Taylor, Deanne M., Vandenbrink, Joshua P., Villacampa, Alicia, Weging, Silvio, Wolverton, Chris, Wyatt, Sarah E., Zea, Luis, Costes, Sylvain V., and Galazka, Jonathan M.

Published
2021
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18. Exploring the utility of ultrasound to assess disuse atrophy in different muscles of the lower leg

Author

Hardy, Edward J, Bass, Joseph J, Inns, Thomas B, Piasecki, Mathew, Piasecki, Jessica, Sale, Craig, Morris, Robert H, Lund, Jonathan N, Smith, Ken, Wilkinson, Daniel J, Atherton, Philip J, Phillips, Bethan E, Hardy, Edward J, Bass, Joseph J, Inns, Thomas B, Piasecki, Mathew, Piasecki, Jessica, Sale, Craig, Morris, Robert H, Lund, Jonathan N, Smith, Ken, Wilkinson, Daniel J, Atherton, Philip J, and Phillips, Bethan E

Abstract

Background Skeletal muscle is a highly plastic tissue crucial for many functions associated with whole-body health across the life course. Magnetic resonance imaging (MRI) is the current gold standard for measuring skeletal muscle size. However, MRI is expensive, and access to facilities is often limited. B-mode ultrasonography (U/S) has been proposed as a potential alternative to MRI for the assessment of muscle size. However, to date, no work has explored the utility of U/S to assess disuse muscle atrophy (DMA) across muscles with different atrophy susceptibility profiles, an omission which may limit the clinical application of previous work. Methods To address this significant knowledge gap, 10 young men (22 ± years, 24.1 ± 2.3 kg/m2) underwent 15-day unilateral leg immobilization using a knee-brace and air boot. Cross-sectional area (CSA) and muscle thickness (MT) of the tibialis anterior (TA) and medial gastrocnemius (MG) were assessed via U/S before and after immobilization, with CSA and muscle volume assessed via MRI. Results With both muscles combined, there were good correlations between each U/S and MRI measure, both before (e.g., CSAMRI vs. MTU/S and CSAU/S: r = 0.88 and 0.94, respectively, both P < 0.0001) and after (e.g., VOLMRI vs. MTU/S and CSAU/S: r = 0.90 and 0.96, respectively, both P < 0.0001) immobilization. The relationship between the methods was notably stronger for MG than TA at each time-point (e.g., CSAMRI vs. MTU/S: MG, r = 0.70, P = 0.0006; TA, r = 0.37, P = 0.10). There was no relationship between the degree of DMA determined by the two methods in either muscle (e.g., TA pre- vs. post-immobilization, VOLMRI: 136 ± 6 vs. 133 ± 5, P = 0.08; CSAU/S: 6.05 ± 0.3 vs. 5.92 ± 0.4, P = 0.70; relationship between methods: r = 0.12, P = 0.75). Conclusions Both MTU/S and CSAU/S provide comparable static measures of lower leg muscle size compared with MRI, albeit with weaker agreement in TA compared to MG. Although both MTU/S and CSAU/S can discern d

Published
2024

19. Dual gut hormone receptor agonists for diabetes and obesity

Author

Bass, Joseph, Tschop, Matthias H., and Beutler, Lisa R.

Subjects
Agonists (Biochemistry) -- Usage, Obesity -- Drug therapy, Hormone receptors -- Research, Gastrointestinal hormones -- Health aspects, Hypoglycemic agents -- Research, Pharmaceutical research, Type 2 diabetes -- Drug therapy, Health care industry
Abstract

Introduction The epidemics of obesity and type 2 diabetes mellitus (T2DM) pose enormous threats to human health. Weight loss of at least 5%-10% attenuates the severity of these disorders and [...]

Published
2023
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21. Impact of Sleep and Circadian Disruption on Energy Balance and Diabetes: A Summary of Workshop Discussions

Author

Arble, Deanna M, Bass, Joseph, Behn, Cecilia Diniz, Butler, Matthew P, Challet, Etienne, Czeisler, Charles, Depner, Christopher M, Elmquist, Joel, Franken, Paul, Grandner, Michael A, Hanlon, Erin C, Keene, Alex C, Joyner, Michael J, Karatsoreos, Ilia, Kern, Philip A, Klein, Samuel, Morris, Christopher J, Pack, Allan I, Panda, Satchidananda, Ptacek, Louis J, Punjabi, Naresh M, Sassone-Corsi, Paolo, Scheer, Frank A, Saxena, Richa, Seaquest, Elizabeth R, Thimgan, Matthew S, Van Cauter, Eve, and Wright, Kenneth P

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Obesity, Nutrition, Lung, Neurosciences, Diabetes, Sleep Research, Metabolic and endocrine, Age of Onset, Animals, Circadian Rhythm, Diabetes Mellitus, Endophenotypes, Energy Metabolism, Fasting, Food Deprivation, Glucose, Homeostasis, Humans, Insulin, Metabolic Syndrome, Mice, Sleep, Sleep Apnea, Obstructive, Sleep Disorders, Circadian Rhythm, Time Factors, circadian disruption, circadian rhythm, diabetes, insulin resistance, metabolism, obesity, short sleep, sleep apnea, sleep disorders, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biological sciences, Biomedical and clinical sciences, Psychology
Abstract

A workshop was held at the National Institute for Diabetes and Digestive and Kidney Diseases with a focus on the impact of sleep and circadian disruption on energy balance and diabetes. The workshop identified a number of key principles for research in this area and a number of specific opportunities. Studies in this area would be facilitated by active collaboration between investigators in sleep/circadian research and investigators in metabolism/diabetes. There is a need to translate the elegant findings from basic research into improving the metabolic health of the American public. There is also a need for investigators studying the impact of sleep/circadian disruption in humans to move beyond measurements of insulin and glucose and conduct more in-depth phenotyping. There is also a need for the assessments of sleep and circadian rhythms as well as assessments for sleep-disordered breathing to be incorporated into all ongoing cohort studies related to diabetes risk. Studies in humans need to complement the elegant short-term laboratory-based human studies of simulated short sleep and shift work etc. with studies in subjects in the general population with these disorders. It is conceivable that chronic adaptations occur, and if so, the mechanisms by which they occur needs to be identified and understood. Particular areas of opportunity that are ready for translation are studies to address whether CPAP treatment of patients with pre-diabetes and obstructive sleep apnea (OSA) prevents or delays the onset of diabetes and whether temporal restricted feeding has the same impact on obesity rates in humans as it does in mice.

Published
2015

23. Understanding Mechanisms of Sudden Cardiac Death: A Report From the National Heart, Lung, and Blood Institute Workshop, Part 2: Population and Clinical Considerations

Author

Delisle, Brian P., George, Alfred L., Jr, Nerbonne, Jeanne M., Bass, Joseph T., Ripplinger, Crystal M., Jain, Mukesh K., Hermanstyne, Tracey O., Young, Martin E., Kannankeril, Prince J., Duffy, Jeanne F., Goldhaber, Joshua I., Hall, Martica H., Somers, Virend K., Smolensky, Michael H., Garnett, Christine E., Anafi, Ron C., Scheer, Frank A.J.L., Shivkumar, Kalyanam, Shea, Steven A., and Balijepalli, Ravi C.

Published
2021
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24. Medicine in the Fourth Dimension

Author

Cederroth, Christopher R., Albrecht, Urs, Bass, Joseph, Brown, Steven A., Dyhrfjeld-Johnsen, Jonas, Gachon, Frederic, Green, Carla B., Hastings, Michael H., Helfrich-Förster, Charlotte, Hogenesch, John B., Lévi, Francis, Loudon, Andrew, Lundkvist, Gabriella B., Meijer, Johanna H., Rosbash, Michael, Takahashi, Joseph S., Young, Michael, and Canlon, Barbara

Published
2019
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36. You are when you eat: on circadian timing and energy balance

Author

Cedernaes, Jonathan and Bass, Joseph

Subjects
Bioenergetics -- Genetic aspects, Energy metabolism -- Genetic aspects, Circadian rhythms -- Genetic aspects, Genotype -- Identification and classification, Genetic transcription -- Observations, Health care industry
Abstract

The neuronal mechanisms that establish 24-hour rhythms in feeding and metabolism remain incompletely understood. In this issue of the JCI, Adlanmerini and colleagues explored the relationship between temporal and homeostatic control of energy balance by focusing on mice that lacked the genes encoding the clock repressor elements REV-ERB[alpha] and -[beta], specifically in the tuberal hypothalamus. Notably, the clock transcription cycle mediated intraneuronal response to the adipostatic hormone leptin. These results show that REV-ERB[alpha] and -[beta] in the hypothalamus are necessary for maintaining leptin responsiveness and metabolic homeostasis and lay the foundation to explore how transcriptional changes may link energy-sensing cell types with day/night rhythms. Such information may lead to therapeutics that alleviate the adverse effects of chronic shift work., Clock genes In the early 1970s, Ron Konopka and Seymour Benzer proved that genes control behavior in Drosophila melanogaster by isolating progeny of mutagenized flies that exhibited alteration in 24-hour [...]

Published
2021
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37. Gastric bypass alters diurnal feeding behavior and reprograms hepatic clock to regulate endogenous glucose flux

Author

Ye, Yuanchao, primary, Abu El Haija, Marwa, additional, Obeid, Reine, additional, Herz, Hussein, additional, Tian, Liping, additional, Linden, Benjamin, additional, Chu, Yi, additional, Guo, Deng Fu, additional, Levine, Daniel C., additional, Cedernaes, Jonathan, additional, Rahmouni, Kamal, additional, Bass, Joseph, additional, and Mokadem, Mohamad, additional

Published
2023
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38. The Effect of Fava Bean (Vicia faba L.) Protein Ingestion on Myofibrillar Protein Synthesis at Rest and after Resistance Exercise in Healthy, Young Men and Women: A Randomised Control Trial

Author

Davies, Robert, Kozior, Marta, Lynch, Arthur, Bass, Joseph J, Atherton, Philip J, Smith, Ken, and JAKEMAN, PHILIP

Subjects
Physical sciences, amino acids, exercise, muscle mass, dietary proteins, FOS: Physical sciences, 51 Physical sciences, deuterium
Abstract

The aim of the present study was to evaluate the effect of feeding fava bean (Vicia faba L.) protein (FBP) on resting and post-exercise myofibrillar fractional synthetic rate (myoFSR). In a parallel, double-blind, randomised control trial, sixteen young, healthy recreationally active adults (age = 25 (5) years, body mass = 70 (15) kg, stature = 1.72 (0.11) m, mean (SD)) ingested 0.33 g·kg−1 FBP (n = 8) or a negative control (CON, i.e., EAA-free mixture) (n = 8), immediately after a bout of unilateral knee-extensor resistance exercise. Plasma, saliva, and m. vastus lateralis muscle samples were obtained pre-ingestion and 3 h post-ingestion. MyoFSR was calculated via deuterium labelling of myofibrillar-bound alanine, measured by gas chromatography–pyrolysis–isotope ratio mass spectrometry (GC-Pyr-IRMS). Resistance exercise increased myoFSR (p = 0.012). However, ingestion of FBP did not evoke an increase in resting (FBP 29 [−5, 63] vs. CON 12 [−25, 49]%, p = 0.409, mean % change [95% CI]) or post-exercise (FBP 78 [33, 123]% vs. CON 58 [9, 107]%, p = 0.732) myoFSR. Ingestion of 0.33 g·kg−1 of FBP does not appear to enhance resting or post-exercise myoFSR in young, healthy, recreationally active adults.

Published
2023
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40. Circadian Clocks and Metabolism

Author

Marcheva, Biliana, Ramsey, Kathryn M., Peek, Clara B., Affinati, Alison, Maury, Eleonore, Bass, Joseph, Kramer, Achim, editor, and Merrow, Martha, editor

Published
2013
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42. Clock Genes and Energy Metabolism

Author

Hong, Hee-Kyung, Huang, Wenyu, Ramsey, Kathryn Moynihan, Marcheva, Biliana, Bass, Joseph, Shiromani, Priyattam, editor, Horvath, Tamas, editor, Redline, Susan, editor, and Van Cauter, Eve, editor

Published
2012
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44. Time-restricted feeding mitigates obesity through adipocyte thermogenesis

Author

Hepler, Chelsea, primary, Weidemann, Benjamin J., additional, Waldeck, Nathan J., additional, Marcheva, Biliana, additional, Cedernaes, Jonathan, additional, Thorne, Anneke K., additional, Kobayashi, Yumiko, additional, Nozawa, Rino, additional, Newman, Marsha V., additional, Gao, Peng, additional, Shao, Mengle, additional, Ramsey, Kathryn M., additional, Gupta, Rana K., additional, and Bass, Joseph, additional

Published
2022
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45. Effects of GLP-1 Infusion Upon Whole-body Glucose Uptake and Skeletal Muscle Perfusion During Fed-state in Older Men

Author

Abdulla, Haitham, primary, Phillips, Bethan, additional, Wilkinson, Daniel, additional, Gates, Amanda, additional, Limb, Marie, additional, Jandova, Tereza, additional, Bass, Joseph, additional, Lewis, Johnathan, additional, Williams, John, additional, Smith, Kenneth, additional, Idris, Iskandar, additional, and Atherton, Philip, additional

Published
2022
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49. Mammalian and invertebrate models as complementary tools for gaining mechanistic insight on muscle responses to spaceflight

Author

University of Nottingham, Agencia Estatal de Investigación (España), NASA Astrobiology Institute (US), Cope, Henry [0000-0002-4984-0567], Bass, Joseph J. [0000-0002-8236-681X], Overbey, Eliah G. [0000-0002-2866-8294], Gilbert, Rachel [0000-0002-1380-8012], Da Silveira, William A. [0000-0001-6370-2884], Paul, Amber M. [0000-0002-1657-3618], Mishra, Tejaswini [0000-0001-9931-1260], Herranz, Raúl [0000-0002-0246-9449], Reinsch, Sigrid [0000-0002-6484-7521], Costes, Sylvain V. [0000-0002-8542-2389], Hardiman, Gary [0000-0003-4558-0400], Szewczyk, Nathaniel [0000-0003-4425-9746], Tahimic, Candice G. T. [0000-0001-5862-2652], Cahill, Thomas, Cope, Henry, Bass, Joseph J., Overbey, Eliah G., Gilbert, Rachel, Da Silveira, William A., Paul, Amber M., Mishra, Tejaswini, Herranz, Raúl, Reinsch, Sigrid, Costes, Sylvain V., Hardiman, Gary, Szewczyk, Nathaniel, Tahimic, Candice G. T., University of Nottingham, Agencia Estatal de Investigación (España), NASA Astrobiology Institute (US), Cope, Henry [0000-0002-4984-0567], Bass, Joseph J. [0000-0002-8236-681X], Overbey, Eliah G. [0000-0002-2866-8294], Gilbert, Rachel [0000-0002-1380-8012], Da Silveira, William A. [0000-0001-6370-2884], Paul, Amber M. [0000-0002-1657-3618], Mishra, Tejaswini [0000-0001-9931-1260], Herranz, Raúl [0000-0002-0246-9449], Reinsch, Sigrid [0000-0002-6484-7521], Costes, Sylvain V. [0000-0002-8542-2389], Hardiman, Gary [0000-0003-4558-0400], Szewczyk, Nathaniel [0000-0003-4425-9746], Tahimic, Candice G. T. [0000-0001-5862-2652], Cahill, Thomas, Cope, Henry, Bass, Joseph J., Overbey, Eliah G., Gilbert, Rachel, Da Silveira, William A., Paul, Amber M., Mishra, Tejaswini, Herranz, Raúl, Reinsch, Sigrid, Costes, Sylvain V., Hardiman, Gary, Szewczyk, Nathaniel, and Tahimic, Candice G. T.

Abstract

Bioinformatics approaches have proven useful in understanding biological responses to spaceflight. Spaceflight experiments remain resource intensive and rare. One outstanding issue is how to maximize scientific output from a limited number of omics datasets from traditional animal models including nematodes, fruitfly, and rodents. The utility of omics data from invertebrate models in anticipating mammalian responses to spaceflight has not been fully explored. Hence, we performed comparative analyses of transcriptomes of soleus and extensor digitorum longus (EDL) in mice that underwent 37 days of spaceflight. Results indicate shared stress responses and altered circadian rhythm. EDL showed more robust growth signals and Pde2a downregulation, possibly underlying its resistance to atrophy versus soleus. Spaceflight and hindlimb unloading mice shared differential regulation of proliferation, circadian, and neuronal signaling. Shared gene regulation in muscles of humans on bedrest and space flown rodents suggest targets for mitigating muscle atrophy in space and on Earth. Spaceflight responses of C. elegans were more similar to EDL. Discrete life stages of D. melanogaster have distinct utility in anticipating EDL and soleus responses. In summary, spaceflight leads to shared and discrete molecular responses between muscle types and invertebrate models may augment mechanistic knowledge gained from rodent spaceflight and ground-based studies.

Published
2021

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