Author: "Pietka, Terri A." - Searchworks@Jio Institute Digital Library Search Results

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186 results on '"Pietka, Terri A."'

1. Microvascular insulin resistance with enhanced muscle glucose disposal in CD36 deficiency

Author: Shibao, Cyndya A., Peche, Vivek S., Pietka, Terri A., Samovski, Dmitri, Williams, Ian M., Abumrad, Naji N., Gamazon, Eric R., Goldberg, Ira J., Wasserman, David H., and Abumrad, Nada A.
Published: 2024
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2. Hierarchical tricarboxylic acid cycle regulation by hepatocyte arginase 2 links the urea cycle to oxidative metabolism

Author: Zhang, Yiming, Higgins, Cassandra B., Tica, Stefani, Adams, Joshua A., Sun, Jiameng, Kelly, Shannon C., Zong, Xiaoyu, Dietzen, Dennis J., Pietka, Terri, Ballentine, Samuel J., Shriver, Leah P., Patti, Gary J., Cao, Yin, and DeBosch, Brian J.
Published: 2024
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3. MANF stimulates autophagy and restores mitochondrial homeostasis to treat autosomal dominant tubulointerstitial kidney disease in mice

Author: Kim, Yeawon, Li, Chuang, Gu, Chenjian, Fang, Yili, Tycksen, Eric, Puri, Anuradhika, Pietka, Terri A., Sivapackiam, Jothilingam, Kidd, Kendrah, Park, Sun-Ji, Johnson, Bryce G., Kmoch, Stanislav, Duffield, Jeremy S., Bleyer, Anthony J., Jackrel, Meredith E., Urano, Fumihiko, Sharma, Vijay, Lindahl, Maria, and Chen, Ying Maggie
Published: 2023
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4. Determination of Adipocyte Size and Number

Author: Pietka, Terri A., primary and Abumrad, Nada A., additional
Published: 2023
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5. Dietary lipids inhibit mitochondria transfer to macrophages to divert adipocyte-derived mitochondria into the blood

Author: Borcherding, Nicholas, Jia, Wentong, Giwa, Rocky, Field, Rachael L., Moley, John R., Kopecky, Benjamin J., Chan, Mandy M., Yang, Bin Q., Sabio, Jessica M., Walker, Emma C., Osorio, Omar, Bredemeyer, Andrea L., Pietka, Terri, Alexander-Brett, Jennifer, Morley, Sharon Celeste, Artyomov, Maxim N., Abumrad, Nada A., Schilling, Joel, Lavine, Kory, Crewe, Clair, and Brestoff, Jonathan R.
Published: 2022
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6. Associations Among Adipose Tissue Immunology, Inflammation, Exosomes and Insulin Sensitivity in People With Obesity and Nonalcoholic Fatty Liver Disease

Author: Fuchs, Anja, Samovski, Dmitri, Smith, Gordon I., Cifarelli, Vincenza, Farabi, Sarah S., Yoshino, Jun, Pietka, Terri, Chang, Shin-Wen, Ghosh, Sarbani, Myckatyn, Terence M., and Klein, Samuel
Published: 2021
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7. Microvascular insulin resistance associates with enhanced muscle glucose disposal in CD36 deficiency.

Author: Shibao, Cyndya A, primary, Peche, Vivek S., additional, Williams, Ian M., additional, Samovski, Dmitri, additional, Pietka, Terri A., additional, Abumrad, Naji N., additional, Gamazon, Eric, additional, Goldberg, Ira, additional, Wasserman, David, additional, and Abumrad, Nada A., additional
Published: 2024
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8. Myeloid-specific Asxl2 deletion limits diet-induced obesity by regulating energy expenditure

Author: Zou, Wei, Rohatgi, Nidhi, Brestoff, Jonathan R., Moley, John R., Li, Yongjia, Williams, Jesse W., Alippe, Yael, Pan, Hua, Pietka, Terri A., Mbalaviele, Gabriel, Newberry, Elizabeth P., Davidson, Nicholas O., Dey, Anwesha, Shoghi, Kooresh I., Head, Richard D., Wickline, Samuel A., Randolph, Gwendalyn J., Abumrad, Nada A., and Teitelbaum, Steven L.
Subjects: Obesity -- Prevention, Macrophages -- Physiological aspects, Cytokines -- Physiological aspects, Adipose tissue -- Physiological aspects, Gene expression -- Physiological aspects, Diet -- Physiological aspects, Biochemistry, Genes, Catecholamines, Homeostasis, Health care industry, Washington University. School of Medicine
Abstract: We previously established that global deletion of the enhancer of trithorax and polycomb (ETP) gene, Asxl2, prevents weight gain. Because proinflammatory macrophages recruited to adipose tissue are central to the metabolic complications of obesity, we explored the role of ASXL2 in myeloid lineage cells. Unexpectedly, mice without Asxl2 only in myeloid cells ([Asxl2.sup.[DELTA]LysM]) were completely resistant to diet-induced weight gain and metabolically normal despite increased food intake, comparable activity, and equivalent fecal fat. [Asxl2.sup.[DELTA]LysM] mice resisted HFD-induced adipose tissue macrophage infiltration and inflammatory cytokine gene expression. Energy expenditure and brown adipose tissue metabolism in [Asxl2.sup.[DELTA]LysM] mice were protected from the suppressive effects of HFD, a phenomenon associated with relatively increased catecholamines likely due to their suppressed degradation by macrophages. White adipose tissue of HFD-fed [Asxl2.sup.[DELTA]LysM] mice also exhibited none of the pathological remodeling extant in their control counterparts. Suppression of macrophage Asxl2 expression, via nanoparticle-based siRNA delivery, prevented HFD-induced obesity. Thus, ASXL2 controlled the response of macrophages to dietary factors to regulate metabolic homeostasis, suggesting modulation of the cells' inflammatory phenotype may impact obesity and its complications., Introduction Obesity is characterized by chronic low-grade inflammation and macrophage accumulation in white adipose tissue (WAT). These cells regulate metabolism by producing proinflammatory cytokines, such as TNF-[alpha], that compromise glucose [...]
Published: 2020
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9. CD36 maintains the gastric mucosa and associates with gastric disease

Author: Jacome-Sosa, Miriam, Miao, Zhi-Feng, Peche, Vivek S., Morris, Edward F., Narendran, Ramkumar, Pietka, Kathryn M., Samovski, Dmitri, Lo, Hei-Yong G., Pietka, Terri, Varro, Andrea, Love-Gregory, Latisha, Goldenring, James R., Kuda, Ondrej, Gamazon, Eric R., Mills, Jason C., and Abumrad, Nada A.
Published: 2021
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10. Metabolic importance of adipose tissue monoacylglycerol acyltransferase 1 in mice and humans

Author: Liss, Kim H.H., Lutkewitte, Andrew J., Pietka, Terri, Finck, Brian N., Franczyk, Michael, Yoshino, Jun, Klein, Samuel, and Hall, Angela M.
Published: 2018
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11. Peroxisome-derived lipids regulate adipose thermogenesis by mediating cold-induced mitochondrial fission

Author: Park, Hongsuk, He, Anyuan, Tan, Min, Johnson, Jordan M., Dean, John M., Pietka, Terri A., Chen, Yali, Zhang, Xiangyu, Hsu, Fong-Fu, Razani, Babak, Funai, Katsuhiko, and Lodhi, Irfan J.
Subjects: Adipose tissue -- Research, Cardiovascular diseases -- Risk factors, Obesity -- Complications and side effects, Type 2 diabetes -- Risk factors, Enzymes, Oxidases, Oxidation-reduction reactions, Biosynthesis, Fatty acids, Lipids, Dietary supplements, Health care industry
Abstract: Peroxisomes perform essential functions in lipid metabolism, including fatty acid oxidation and plasmalogen synthesis. Here, we describe a role for peroxisomal lipid metabolism in mitochondrial dynamics in brown and beige adipocytes. Adipose tissue peroxisomal biogenesis was induced in response to cold exposure through activation of the thermogenic coregulator PRDM16. Adipose-specific knockout of the peroxisomal biogenesis factor Pex16 (Pex16-AKO) in mice impaired cold tolerance, decreased energy expenditure, and increased diet-induced obesity. Pex16 deficiency blocked cold-induced mitochondrial fission, decreased mitochondrial copy number, and caused mitochondrial dysfunction. Adipose-specific knockout of the peroxisomal [beta]-oxidation enzyme acyl-CoA oxidase 1 (Acox1-AKO) was not sufficient to affect adiposity, thermogenesis, or mitochondrial copy number, but knockdown of the plasmalogen synthetic enzyme glyceronephosphate O-acyltransferase (GNPAT) recapitulated the effects of Pex16 inactivation on mitochondrial morphology and function. Plasmalogens are present in mitochondria and decreased with Pex16 inactivation. Dietary supplementation with plasmalogens increased mitochondrial copy number, improved mitochondrial function, and rescued thermogenesis in Pex16-AKO mice. These findings support a surprising interaction between peroxisomes and mitochondria regulating mitochondrial dynamics and thermogenesis., Introduction Obesity remains a serious global health problem that increases the risk for type 2 diabetes and other diseases, including cardiovascular disease and several forms of cancer. Current pharmacological approaches [...]
Published: 2019
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12. Cd36 knockout mice are protected against lithogenic diet-induced gallstones

Author: Xie, Yan, Cifarelli, Vincenza, Pietka, Terri, Newberry, Elizabeth P., Kennedy, Susan M., Khalifeh-Soltani, Amin, Clugston, Robin, Atabai, Kamran, Abumrad, Nada A., and Davidson, Nicholas O.
Published: 2017
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13. CD36 Deficiency Impairs the Small Intestinal Barrier and Induces Subclinical Inflammation in Mice

Author: Cifarelli, Vincenza, Ivanov, Stoyan, Xie, Yan, Son, Ni-Huiping, Saunders, Brian T., Pietka, Terri A., Shew, Trevor M., Yoshino, Jun, Sundaresan, Sinju, Davidson, Nicholas O., Goldberg, Ira J., Gelman, Andrew E., Zinselmeyer, Bernd H., Randolph, Gwendalyn J., and Abumrad, Nada A.
Published: 2017
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14. Endothelial cell CD36 optimizes tissue fatty acid uptake

Author: Son, Ni-Huiping, Basu, Debapriya, Samovski, Dmitri, Pietka, Terri A., Peche, Vivek S., Willecke, Florian, Fang, Xiang, Yu, Shui-Qing, Scerbo, Diego, Chang, Hye Rim, Sun, Fei, Bagdasarov, Svetlana, Drosatos, Konstantinos, Yeh, Steve T., Mullick, Adam E., Shoghi, Kooresh I., Gumaste, Namrata, Kim, KyeongJin, Huggins, Lesley-Ann, Lhakhang, Tenzin, Abumrad, Nada A., and Goldberg, Ira J.
Subjects: Fatty acids -- Health aspects, Cell regulation -- Genetic aspects -- Health aspects, Cellular proteins -- Health aspects, Health care industry
Abstract: Movement of circulating fatty acids (FAs) to parenchymal cells requires their transfer across the endothelial cell (EC) barrier. The multiligand receptor cluster of differentiation 36 (CD36) facilitates tissue FA uptake and is expressed in ECs and parenchymal cells such as myocytes and adipocytes. Whether tissue uptake of FAs is dependent on EC or parenchymal cell CD36, or both, is unknown. Using a cell-specific deletion approach, we show that EC, but not parenchymal cell, CD36 deletion increased fasting plasma FAs and postprandial triglycerides. EC-Cd36-KO mice had reduced uptake of radiolabeled long- chain FAs into heart, skeletal muscle, and brown adipose tissue; these uptake studies were replicated using [[sup.11]C]palmitate PET scans. High-fat diet-fed EC-CD36-deficient mice had improved glucose tolerance and insulin sensitivity. Both EC and cardiomyocyte (CM) deletion of CD36 reduced heart lipid droplet accumulation after fasting, but CM deletion did not affect heart glucose or FA uptake. Expression in the heart of several genes modulating glucose metabolism and insulin action increased with EC-CD36 deletion but decreased with CM deletion. In conclusion, EC CD36 acts as a gatekeeper for parenchymal cell FA uptake, with important downstream effects on glucose utilization and insulin action., Introduction Long-chain fatty acids (LCFAs) provide cellular energy and are precursors for membrane components and intracellular lipid stores. Their bioactive derivatives influence gene expression and signal transduction pathways. Distribution of [...]
Published: 2018
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15. Decreased Consumption of Branched-Chain Amino Acids Improves Metabolic Health

Author: Fontana, Luigi, Cummings, Nicole E., Arriola Apelo, Sebastian I., Neuman, Joshua C., Kasza, Ildiko, Schmidt, Brian A., Cava, Edda, Spelta, Francesco, Tosti, Valeria, Syed, Faizan A., Baar, Emma L., Veronese, Nicola, Cottrell, Sara E., Fenske, Rachel J., Bertozzi, Beatrice, Brar, Harpreet K., Pietka, Terri, Bullock, Arnold D., Figenshau, Robert S., Andriole, Gerald L., Merrins, Matthew J., Alexander, Caroline M., Kimple, Michelle E., and Lamming, Dudley W.
Published: 2016
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16. Site-1 protease inhibits mitochondrial respiration by controlling the TGF-β target gene Mss51

Author: Mousa, Muhammad G., primary, Vuppaladhadiam, Lahari, additional, Kelly, Meredith O., additional, Pietka, Terri, additional, Ek, Shelby, additional, Shen, Karen C., additional, Meyer, Gretchen A., additional, Finck, Brian N., additional, and Brookheart, Rita T., additional
Published: 2023
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17. MANF stimulates autophagy and restores mitochondrial homeostasis to treat toxic proteinopathy

Author: Kim, Yeawon, Li, Chuang, Gu, Chenjian, Tycksen, Eric, Puri, Anuradhika, Pietka, Terri A., Sivapackiam, Jothilingam, Fang, Yili, Kidd, Kendrah, Park, Sun-Ji, Johnson, Bryce G., Kmoch, Stanislav, Duffield, Jeremy S., Bleyer, Anthony J., Jackrel, Meredith E., Urano, Fumihiko, Sharma, Vijay, Lindahl, Maria, and Chen, Ying Maggie
Subjects: Article
Abstract: Misfolded protein aggregates may cause toxic proteinopathy, including autosomal dominant tubulointerstitial kidney disease due to uromodulin mutations (ADTKD-UMOD), one of the leading hereditary kidney diseases, and Alzheimer’s disease etc. There are no targeted therapies. ADTKD is also a genetic form of renal fibrosis and chronic kidney disease, which affects 500 million people worldwide. For the first time, in our newly generated mouse model recapitulating human ADTKD-UMODcarrying a leadingUMODdeletion mutation, we show that autophagy/mitophagy and mitochondrial biogenesis are severely impaired, leading to cGAS- STING activation and tubular injury. Mesencephalic astrocyte-derived neurotrophic factor (MANF) is a novel endoplasmic reticulum stress-regulated secreted protein. We provide the first study that inducible tubular overexpression of MANF after the onset of disease stimulates autophagy/mitophagy and clearance of the misfolded UMOD, and promotes mitochondrial biogenesis through p-AMPK enhancement, resulting in protection of kidney function. Conversely, genetic ablation of endogenous MANF upregulated in the mutant mouse and human tubular cells worsens autophagy suppression and kidney fibrosis. Together, we discover MANF as a novel biotherapeutic protein and elucidate previously unknown mechanisms of MANF in regulating organelle homeostasis to treat ADTKD, which may have broad therapeutic application to treat various proteinopathies.
Published: 2023
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18. MANF stimulates autophagy and restores mitochondrial homeostasis to treat toxic proteinopathy

Author: Kim, Yeawon, primary, Li, Chuang, additional, Gu, Chenjian, additional, Tycksen, Eric, additional, Puri, Anuradhika, additional, Pietka, Terri A., additional, Sivapackiam, Jothilingam, additional, Fang, Yili, additional, Kidd, Kendrah, additional, Park, Sun-Ji, additional, Johnson, Bryce G., additional, Kmoch, Stanislav, additional, Duffield, Jeremy S., additional, Bleyer, Anthony J., additional, Jackrel, Meredith E., additional, Urano, Fumihiko, additional, Sharma, Vijay, additional, Lindahl, Maria, additional, and Chen, Ying Maggie, additional
Published: 2023
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19. Monoacylglycerol O‐acyltransferase 1 lowers adipocyte differentiation capacity in vitro but does not affect adiposity in mice

Author: Singer, Jason M., primary, Shew, Trevor M., additional, Ferguson, Daniel, additional, Renkemeyer, M. Katie, additional, Pietka, Terri A., additional, Hall, Angela M., additional, Finck, Brian N., additional, and Lutkewitte, Andrew J., additional
Published: 2022
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20. Site-1 Protease inhibits mitochondrial metabolism by controlling the TGF-β target gene MSS51

Author: Mousa, Muhammad G., primary, Vuppaladhadiam, Lahari, additional, Kelly, Meredith O., additional, Pietka, Terri, additional, Ek, Shelby, additional, Shen, Karen C., additional, Meyer, Gretchen A., additional, Finck, Brian N., additional, and Brookheart, Rita T., additional
Published: 2022
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21. Cardiac immune cell infiltration associates with abnormal lipid metabolism

Author: Cifarelli, Vincenza, primary, Kuda, Ondrej, additional, Yang, Kui, additional, Liu, Xinping, additional, Gross, Richard W., additional, Pietka, Terri A., additional, Heo, Gyu Seong, additional, Sultan, Deborah, additional, Luehmann, Hannah, additional, Lesser, Josie, additional, Ross, Morgan, additional, Goldberg, Ira J., additional, Gropler, Robert J., additional, Liu, Yongjian, additional, and Abumrad, Nada A., additional
Published: 2022
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22. Association Between Specific Adipose Tissue CD4+ T-Cell Populations and Insulin Resistance in Obese Individuals

Author: Fabbrini, Elisa, Cella, Marina, Mccartney, Steve A., Fuchs, Anja, Abumrad, Nada A., Pietka, Terri A., Chen, Zhouji, Finck, Brian N., Han, Dong Ho, Magkos, Faidon, Conte, Caterina, Bradley, David, Fraterrigo, Gemma, Eagon, J. Christopher, Patterson, Bruce W., Colonna, Marco, and Klein, Samuel
Published: 2013
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23. Sulfo-N-succinimidyl Oleate (SSO) Inhibits Fatty Acid Uptake and Signaling for Intracellular Calcium via Binding CD36 Lysine 164: SSO ALSO INHIBITS OXIDIZED LOW DENSITY LIPOPROTEIN UPTAKE BY MACROPHAGES

Author: Kuda, Ondrej, Pietka, Terri A., Demianova, Zuzana, Kudova, Eva, Cvacka, Josef, Kopecky, Jan, and Abumrad, Nada A.
Published: 2013
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24. CD36 Protein Influences Myocardial Ca2+ Homeostasis and Phospholipid Metabolism: CONDUCTION ANOMALIES IN CD36-DEFICIENT MICE DURING FASTING

Author: Pietka, Terri A., Sulkin, Matthew S., Kuda, Ondrej, Wang, Wei, Zhou, Dequan, Yamada, Kathryn A., Yang, Kui, Su, Xiong, Gross, Richard W., Nerbonne, Jeanne M., Efimov, Igor R., and Abumrad, Nada A.
Published: 2012
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25. Evidence for regulated monoacylglycerol acyltransferase expression and activity in human liver

Author: Hall, Angela M., Kou, Kou, Chen, Zhouji, Pietka, Terri A., Kumar, Mrudula, Korenblat, Kevin M., Lee, Kyuha, Ahn, Kay, Fabbrini, Elisa, Klein, Samuel, Goodwin, Bryan, and Finck, Brian N.
Published: 2012
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26. Intrahepatic Fat, Not Visceral Fat, Is Linked with Metabolic Complications of Obesity

Author: Fabbrini, Elisa, Magkos, Faidon, Mohammed, B. Selma, Pietka, Terri, Abumrad, Nada A., Patterson, Bruce W., Okunade, Adewole, Klein, Samuel, and Gordon, Jeffrey I.
Published: 2009
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27. Monoacylglycerol O-acyltransferase 1 is required for adipocyte differentiation in vitro but does not affect adiposity in mice

Author: Singer, Jason M., primary, Shew, Trevor M., additional, Ferguson, Daniel, additional, Renkemeyer, M. Katie, additional, Pietka, Terri A., additional, Hall, Angela M., additional, Finck, Brian N., additional, and Lutkewitte, Andrew J., additional
Published: 2022
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28. Genetic Ablation of Calcium-independent Phospholipase A2γ Prevents Obesity and Insulin Resistance during High Fat Feeding by Mitochondrial Uncoupling and Increased Adipocyte Fatty Acid Oxidation

Author: Mancuso, David J., Sims, Harold F., Yang, Kui, Kiebish, Michael A., Su, Xiong, Jenkins, Christopher M., Guan, Shaoping, Moon, Sung Ho, Pietka, Terri, Nassir, Fatiha, Schappe, Timothy, Moore, Kristin, Han, Xianlin, Abumrad, Nada A., and Gross, Richard W.
Published: 2010
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29. Perilipin 5–Driven Lipid Droplet Accumulation in Skeletal Muscle Stimulates the Expression of Fibroblast Growth Factor 21

Author: Harris, Lydia-Ann L.S., Skinner, James R., Shew, Trevor M., Pietka, Terri A., Abumrad, Nada A., and Wolins, Nathan E.
Published: 2015
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30. Regulation of AMPK Activation by CD36 Links Fatty Acid Uptake to β-Oxidation

Author: Samovski, Dmitri, Sun, Jingyu, Pietka, Terri, Gross, Richard W., Eckel, Robert H., Su, Xiong, Stahl, Philip D., and Abumrad, Nada A.
Published: 2015
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31. CD36-dependent Regulation of Muscle FoxO1 and PDK4 in the PPARδ/β-mediated Adaptation to Metabolic Stress

Author: Nahlé, Zaher, Hsieh, Michael, Pietka, Terri, Coburn, Chris T., Grimaldi, Paul A., Zhang, Michael Q., Das, Debopriya, and Abumrad, Nada A.
Published: 2008
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32. Mitochondrial physiology: Gnaiger Erich et al ― MitoEAGLE Task Group

Author: Gnaiger, Erich, Aasander Frostner, Eleonor, Abdul Karim, Norwahidah, Abdel-Rahman, Engy Ali, Abumrad, Nada A, Acuna-Castroviejo, Dario, Adiele, Reginald C, Ahn, Bumsoo, Alencar, MB, Ali, Sameh S, Almeida, Angeles, Alton, Lesley, Alves, Marco G, Amati, Francesca, Amoedo, Nivea Dias, Amorim, Ricardo, Anderson, Ethan J, Andreadou, Ioanna, Antunes, Diana, Arago, Marc, Aral, Cenk, Arandarcikaite, Odeta, Arias-Reyes, Christian, Armand, Anne-Sophie, Arnould, Thierry, Avram, Vlad Florian, Axelrod, Christopher L, Bairam, Aida, Bailey, Damian M, Bajpeyi, Sudip, Bajzikova, Martina, Bakker, Barbara M, Barlow, Jonathan, Bardal, Tora, Banni, A, Bastos Sant'Anna Silva, Ana Carolina, Batterson, Philip, Battino, Maurizio, Bazil, Jason, Beard, Daniel A, Beleza, Jorge, Bednarczyk, Piotr, Bello, Fiona, Ben-Shachar, Dorit, Bento Guida, Jose Freitas, Bergdahl, Andreas, Berge, Rolf K, Bergmeister, Lisa, Bernardi, Paolo, Berridge, Michael V, Bettinazzi, Stefano, Bishop, David, Blier, Pierre U, Blindheim, Dan Filip, Boardman, Neoma T, Boetker, Hans Erik, Borchard, Sabine, Boros, Mihaly, Borsheim, Elisabet, Borras, Consuelo, Borutaite, Vilma, Botella, Javier, Bouillaud, Frederic, Bouitbir, Jamal, Boushel, Robert C, Bovard, Josh, Bravo-Sagua, Roberto, Breton, Sophie, Brown, David A, Brown, Guy C, Brown, Robert A, Brozinick, Joseph T, Buettner, Garry R, Burtscher, Johannes, Bustos, Matilde, Calabria, Elisa, Calbet, Jose A, Calzia, Enrico, Cannon, Daniel T, Cano Sanchez, Maria, Canto Alvarez, Carles, Cardinale, D, Cardoso, Luiza Helena Daltro, Carvalho, Eugenia, Casado Pinna, Marta, Cassar, Samantha, Castelo, Maria P, Castilho, Roger F, Cavalcanti-de-Albuquerque, Joao Paulo, Cecatto, Cristiane, Celen, Murat C, Cervinkova, Zuzana, Chabi, Beatrice, Chakrabarti, Lisa, Chakrabarti, Sasanka, Chaurasia, Bhagirath, Chen, Quan, Chicco, Adam J, Chinopoulos, Christos, Chowdhury, Subir K, Cizmarova, Beata, Clementi, Emilio, Coen, Paul M, Cohen, Bruce H, Coker, Robert H, Collin-Chenot, Anne, Coughlan, Melinda T, Coxito, Petro, Crisostomo, Luis, Crispim, Marcell, Crossland, Hannah, Dahdah, Norma, Dalgaard, Louise T, Dambrova, Maija, Danhelovska, Tereza, Darveau, Charles A, Darwin, Paula M, Das, Anibh M, Dash, Ranjan K, Davidova, Eliska, Davis, Michael S, Dayanidhi, Sudarshan, De Bem, Andreza Fabro, De Goede, Paul, De Palma, Clara, De Pinto, Vito, Dela, F, Dembinska-Kiec, Aldona, Detraux, Damien, Devaux, Yvan, Di Marcello, Marco, Di Paola, Floriana Jessica, Dias, Candida, Dias, Tania R, Diederich, Marc, Distefano, Giovanna, Djafarzadeh, Siamak, Doermann, Niklas, Doerrier, Carolina, Dong, Lan-Feng, Donnelly, Chris, Drahota, Zdenek, Duarte, Filipe Valente, Dubouchaud, Herve, Duchen, Michael R, Dumas, Jean-Francois, Durham, William J, Dymkowska, Dorota, Dyrstad, Sissel E, Dyson, Alex, Dzialowski, Edward M, Eaton, Simon, Ehinger, Johannes, Elmer, Eskil, Endlicher, Rene, Engin, Ayse B, Escames, Germaine, Evinova, Andrea, Ezrova, Zuzana, Falk, Marni Joy, Fell, David A, Ferdinandy, Peter, Ferko, Miroslav, Fernandez-Ortiz, Marisol, Erika, Fernandez-Vizarra, Ferreira, Julio Cesar Batista, Ferreira, Rita, Ferri, Alessandra, Festuccia, WT, Fessel, Joshua P, Filipovska, Aleksandra, Fisar, Zdenek, Fischer, Christine, Fischer, Michael, Fisher, Gordon, Fisher, Joshua J, Fontanesi, Flavia, Forbes-Hernandez, Tamara Y, Ford, Ellen, Fornaro, Mara, Fuertes Agudo, Marina, Fulton, Montana, Galina, Antonio, Galkin, Alexander, Gallee, Leon, Galli, Gina L, Gama Perez, Pau, Gan, Zhenji, Ganetzky, Rebecca, Gao, Yun, Garcia, Geovana S, Garcia-Rivas, Gerardo, Garcia-Roves, Pablo Miguel, Garcia-Souza, Luiz Felipe, Garlid, Keith D, Garrabou, Gloria, Garten, Antje, Gastaldelli, Amalia, Gayen, Jiaur, Genders, Amanda J, Genova, Maria Luisa, Giampieri, Francesca, Glatz, Jan FC, Giovarelli, Matteo, Goikoetxea Usandizaga, Naroa, Goncalo Teixeira da Silva, Rui, Goncalves, Debora Farina, Gonzalez-Armenta, Jenny L, Gonzalez-Francesqua, A, Gonzalez-Freire, Marta, Gonzalo, Hugo, Goodpaster, Bret H, Gorr, Thomas A, Gourlay, Campbell W, Grams, Bente, Granata, Cesare, Grefte, Sander, Grilo, Luis, Guarch, Meritxell Espino, Gueguen, Naig, Gumeni, Sentiljana, Haas, Clarissa B, Haavik, Jan, Hachmo, Yafit, Haendeler, Judith, Haider, Markus, Hajrulahovic, Anesa, Hamann, Andrea, Han, Jin, Han, Woo Hyun, Hancock, Chad R, Hand, Steven C, Handl, Jiri, Hansikova, Hana, Hardee, Justin P, Hargreaves, Ian P, Harper, Mary Ellen, Harrison, David K, Hassan, Hazirah, Hatakova, Zuzana, Hausenloy, Derek J, Heales, Simon JR, Heiestad, Christina, Hellgren, Kim T, Henrique, Alexandrino, Hepple, Russell T, Hernansanz-Agustin, Pablo, Hewakapuge, Sudinna, Hickey, Anthony J, Ho, Dieu Hien, Hoehn, Kyle L, Hoel, Frederik, Holland, Olivia J, Holloway, Graham P, Holzner, Lorenz, Hoppel, Charles L, Hoppeler, H, Hoppel, Florian, Houstek, Josef, Huete-Ortega, Maria, Hyrossova, Petra, Iglesias-Gonzalez, Javier, Indiveri, Cesare, Irving, Brian A, Isola, Raffaella, Iyer, Shilpa, Jackson, Christophe B, Jadiya, Pooja, Jana, Prado Fabian, Jandeleit-Dahm, K, Jang, David H, Jang, Young C, Janowska, Joanna, Jansen, Kirsten, Jansen-Duerr, Pidder, Jansone, Baiba, Jarmuszkiewicz, Wieslawa, Jaskiewicz, Anna, Jaspers, Richard T, Jedlicka, Jan, Jerome, Estaquier, Jespersen, Nichlas R, Jha, Rajan K, Joseph, Vincent, Juhasz, Laszlo, Jurczak, Michael J, Jurk, Diana, Kaambre, Tuuli, Kaczor, Jan J, Kainulainen, Heikki, Kampa, Rafal Pawel, Kandel, Sunil M, Kane, Daniel A, Kapferer, Werner, Kapnick, Senta, Kappler, Lisa, Karabatsiakis, Alexander, Karavaeva, Iuliia, Karkucinska-Wieckowska, Agnieszka, Kaur, Sarbjot, Keijer, Jaap, Keller, Markus A, Keppner, Gloria, Khamoui, Andy V, Kidere, Dita, Kilbaugh, Todd, Kim, Hyoung Kyu, Kim, Julian KS, Kimoloi, Sammy, Klepinin, Aleksandr, Klepinina, Lyudmila, Klingenspor, Martin, Klocker, Helmut, Komlódi, Timea, Kolasa, Iris, Koopman, Werner JH, Kopitar-Jerala, Natasa, Kowaltowski, Alicia J, Kozlov, Andrey V, Krajcova, Adela, Krako Jakovljevic, Nina, Kristal, Bruce S, Krycer, 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John P, Tomar Dhanendra, Ton Riccardo, Torp May-Kristin, Torres-Quesada Omar, Towheed Atif, Treberg Jason R, Tretter Laszlo, Trewin Adam J, Trifunovic Aleksandra, Trivigno Catherine, Tronstad Karl Johan, Trougakos Ioannis P, Truu Laura, Tuncay Erkan, Turan Belma, Tyrrell Daniel J, Urban Tomas, Urner Sofia, Valentine Joseph Marco, Van Bergen Nicole J, Van der Ende Miranda, Varricchio Frederick, Vaupel Peter, Vella Joanna, Vendelin Marko, Vercesi Anibal E, Verdaguer Ignasi Bofill, Vernerova Andrea, Victor Victor Manuel, Vieira Ligo Teixeira Camila, Vidimce Josif, Viel Christian, Vieyra Adalberto, Vilks Karlis, Villena Josep A, Vincent Vinnyfred, Vinogradov Andrey D, Viscomi Carlo, Vitorino Rui Miguel Pinheiro, Vlachaki Walker Julia, Vogt Sebastian, Volani Chiara, Volska Kristine, Votion Dominique-Marie, Vujacic-Mirski Ksenija, Wagner Brett A, Ward Marie Louise, Warnsmann Verena, Wasserman David H, Watala Cezary, Wei Yau-Huei, Weinberger Klaus M, Weissig Volkmar, White Sarah Haverty, Whitfield Jamie, Wickert Anika, Wieckowski Mariusz R, Wiesner Rudolf J, Williams Caroline M, Winwood-Smith Hugh, Wohlgemuth Stephanie E, Wohlwend Martin, Wolff Jonci Nikolai, Wrutniak-Cabello Chantal, Wuest Rob CI, Yokota Takashi, Zablocki Krzysztof, Zanon Alessandra, Zanou Nadege, Zaugg Kathrin, Zaugg Michael, Zdrazilova Lucie, Zhang Yong, Zhang Yizhu, Zikova Alena, Zischka Hans, Zorzano Antonio, Zujovic Tijana, Zurmanova Jitka, Zvejniece Liga
Subjects: uncoupling, MitoPedia: Respiratory states, SI - The International System of Units, IUPAC, Coupling control, Mitochondrial preparations, Protonmotive force, Uncoupling, Oxidative phosphorylation, Phosphorylation efficiency, Electron transfer-pathway, LEAK-respiration, Residual oxygen consumption, Normalization of rate, Flow, Flux, Flux control ratio, Mitochondrial marker, Cell count, Oxygen, [SDV]Life Sciences [q-bio], coupling control, protonmotive force, oxidative phosphorylation, mitochondrial respiratory control, State 4, electron transfer, State 2, State 3, Mitochondrial physiology, residual oxygen consumption, flux, normalization, ion leak and slip compensatory state, efficiency, electron transfer system, flow, mitochondrial physiology, oxygen, mitochondrial preparations, proton leak
Abstract: As the knowledge base and importance of mitochondrial physiology to evolution, health and diseaseexpands, the necessity for harmonizing the terminologyconcerning mitochondrial respiratory states and rates has become increasingly apparent. Thechemiosmotic theoryestablishes the mechanism of energy transformationandcoupling in oxidative phosphorylation. Theunifying concept of the protonmotive force providestheframeworkfordeveloping a consistent theoretical foundation ofmitochondrial physiology and bioenergetics.We followthe latest SI guidelines and those of the International Union of Pure and Applied Chemistry(IUPAC)onterminology inphysical chemistry, extended by considerationsofopen systems and thermodynamicsof irreversible processes.Theconcept-driven constructive terminology incorporates the meaning of each quantity and alignsconcepts and symbols withthe nomenclature of classicalbioenergetics. We endeavour to provide a balanced view ofmitochondrial respiratory control and a critical discussion on reporting data of mitochondrial respiration in terms of metabolic flows and fluxes.Uniform standards for evaluation of respiratory states and rates will ultimatelycontribute BEC 2020.1 doi:10.26124/bec:2020-0001.v1www.bioenergetics-communications.org3of 44to reproducibility between laboratories and thussupport the development of datarepositoriesof mitochondrial respiratory function in species, tissues, and cells.Clarity of concept and consistency of nomenclature facilitate effective transdisciplinary communication, education, and ultimately further discovery.
Published: 2020
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33. Adipose and Muscle Tissue Profile of CD36 Transcripts in Obese Subjects Highlights the Role of CD36 in Fatty Acid Homeostasis and Insulin Resistance

Author: Pietka, Terri A., Schappe, Timothy, Conte, Caterina, Fabbrini, Elisa, Patterson, Bruce W., Klein, Samuel, Abumrad, Nada A., and Love-Gregory, Latisha
Published: 2014
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34. The Extracellular Matrix Protein MAGP1 Supports Thermogenesis and Protects Against Obesity and Diabetes Through Regulation of TGF-β

Author: Craft, Clarissa S., Pietka, Terri A., Schappe, Timothy, Coleman, Trey, Combs, Michelle D., Klein, Samuel, Abumrad, Nada A., and Mecham, Robert P.
Published: 2014
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35. Subcutaneous Adipose Tissue Metabolic Function and Insulin Sensitivity in People with Obesity

Author: Koh, Han-Chow E., primary, Vliet, Stephan van, primary, Pietka, Terri A., primary, Meyer, Gretchen A., primary, Razani, Babak, primary, Laforest, Richard, primary, Gropler, Robert J, primary, and Mittendorfer, Bettina, primary
Published: 2021
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36. Nicotinamide mononucleotide increases muscle insulin sensitivity in prediabetic women

Author: Yoshino, Mihoko, primary, Yoshino, Jun, additional, Kayser, Brandon D., additional, Patti, Gary J., additional, Franczyk, Michael P., additional, Mills, Kathryn F., additional, Sindelar, Miriam, additional, Pietka, Terri, additional, Patterson, Bruce W., additional, Imai, Shin-Ichiro, additional, and Klein, Samuel, additional
Published: 2021
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37. Metabolically-Unhealthy Obesity Is Associated With Increased Adipose Tissue Inflammatory Gene Expression and 24-Hour Plasma Concentrations of PAI-1, but Not Other Inflammatory Cytokines

Author: Petersen, Max C, primary, Smith, Gordon I, additional, Yoshino, Mihoko, additional, Cifarelli, Vincenza, additional, Yoshino, Jun, additional, Pietka, Terri, additional, and Klein, Samuel, additional
Published: 2021
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38. Genetic Ablation of Calcium-independent Phospholipase A2γ Leads to Alterations in Mitochondrial Lipid Metabolism and Function Resulting in a Deficient Mitochondrial Bioenergetic Phenotype

Author: Mancuso, David J., Sims, Harold F., Han, Xianlin, Jenkins, Christopher M., Guan, Shao Ping, Yang, Kui, Moon, Sung Ho, Pietka, Terri, Abumrad, Nada A., Schlesinger, Paul H., and Gross, Richard W.
Published: 2007
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39. Endothelial Cell Receptors in Tissue Lipid Uptake and Metabolism

Author: Abumrad, Nada A., primary, Cabodevilla, Ainara G., additional, Samovski, Dmitri, additional, Pietka, Terri, additional, Basu, Debapriya, additional, and Goldberg, Ira J., additional
Published: 2021
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40. Deficits in the Skeletal Muscle Transcriptome and Mitochondrial Coupling in Progressive Diabetes-Induced CKD Relate to Functional Decline

Author: Bittel, Daniel C., primary, Bittel, Adam J., additional, Varadhachary, Arun S., additional, Pietka, Terri, additional, and Sinacore, David R., additional
Published: 2021
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41. Monoacylglycerol Acyltransferase 1 Knockdown Exacerbates Hepatic Ischemia/Reperfusion Injury in Mice With Hepatic Steatosis

Author: Liss, Kim H. H., primary, Ek, Shelby E., additional, Lutkewitte, Andrew J., additional, Pietka, Terri A., additional, He, Mai, additional, Skaria, Priya, additional, Tycksen, Eric, additional, Ferguson, Daniel, additional, Blanc, Valerie, additional, Graham, Mark J., additional, Hall, Angela M., additional, McGill, Mitchell R., additional, McCommis, Kyle S., additional, and Finck, Brian N., additional
Published: 2020
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42. Tauroursodeoxycholic Acid May Improve Liver and Muscle but Not Adipose Tissue Insulin Sensitivity in Obese Men and Women

Author: Kars, Marleen, Yang, Ling, Gregor, Margaret F., Mohammed, B. Selma, Pietka, Terri A., Finck, Brian N., Patterson, Bruce W., Horton, Jay D., Mittendorfer, Bettina, Hotamisligil, Gökhan S., and Klein, Samuel
Published: 2010
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43. CD36-Facilitated Fatty Acid Uptake Inhibits Leptin Production and Signaling in Adipose Tissue

Author: Hajri, Tahar, Hall, Angela M., Jensen, Dalan R., Pietka, Terri A., Drover, Victor A., Tao, Huan, Eckel, Robert, and Abumrad, Nada A.
Published: 2007

44. Covalent Cross-linking of the NC1 Domain of Collagen Type IX to Collagen Type II in Cartilage

Author: Eyre, David R., Pietka, Terri, Weis, Mary Ann, and Wu, Jiann-Jiu
Published: 2004
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45. The release of crosslinked peptides from type II collagen Into Human Synovial Fluid Is Increased Soon After Joint Injury and in Osteoarthritis

Author: Lohmander, L. Stefan, Atley, Lynne M., Pietka, Terri A., and Eyre, David R.
Published: 2003

46. Matrix deposition of tryptophan-containing allelic variants of type IX collagen in developing human cartilage

Author: Matsui, Yoshito, Wu, Jiann-Jiu, Ann Weis, Mary, Pietka, Terri, and Eyre, David R.
Published: 2003
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47. Subcutaneous Adipose Tissue Metabolic Function and Insulin Sensitivity in People With Obesity.

Author: Koh, Han-Chow E., van Vliet, Stephan, Pietka, Terri A., Meyer, Gretchen A., Razani, Babak, Laforest, Richard, Gropler, Robert J., and Mittendorfer, Bettina
Subjects: INSULIN sensitivity, ADIPOSE tissues, INSULIN resistance, POSITRON emission tomography, FAT cells
Abstract: We used stable isotope-labeled glucose and palmitate tracer infusions, a hyperinsulinemic-euglycemic clamp, positron emission tomography of muscles and adipose tissue after [18F]fluorodeoxyglucose and [15O]water injections, and subcutaneous adipose tissue (SAT) biopsy to test the hypotheses that 1) increased glucose uptake in SAT is responsible for high insulin-stimulated whole-body glucose uptake in people with obesity who are insulin sensitive and 2) putative SAT factors thought to cause insulin resistance are present in people with obesity who are insulin resistant but not in those who are insulin sensitive. We found that high insulin-stimulated whole-body glucose uptake in insulin-sensitive participants with obesity was not due to channeling of glucose into SAT but, rather, was due to high insulin-stimulated muscle glucose uptake. Furthermore, insulin-stimulated muscle glucose uptake was not different between insulin-sensitive obese and lean participants even though adipocytes were larger, SAT perfusion and oxygenation were lower, and markers of SAT inflammation, fatty acid appearance in plasma in relation to fat-free mass, and plasma fatty acid concentration were higher in the insulin-sensitive obese than in lean participants. In addition, we observed only marginal or no differences in adipocyte size, SAT perfusion and oxygenation, and markers of SAT inflammation between insulin-resistant and insulin-sensitive obese participants. Plasma fatty acid concentration was also not different between insulin-sensitive and insulin-resistant obese participants, even though SAT was resistant to the inhibitory effect of insulin on lipolysis in the insulin-resistant obese group. These data suggest that several putative SAT factors commonly implicated in causing insulin resistance are normal consequences of SAT expansion unrelated to insulin resistance. [ABSTRACT FROM AUTHOR]
Published: 2021
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48. Mitochondrial respiratory states and rates

Author: Gnaiger, Erich, Aasander Frostner, Eleonor, Abdul Karim, Norwahidah, Abumrad, Nada A, Acuna-Castroviejo, Dario, Adiele, Reginald C, Ahn, Bumsoo, Ali, Sameh S, Alton, Lesley, Alves, Marco G, Amati, Francesca, Amoedo, Nivea Dias, Andreadou, Ioanna, Arago, Marc, Aral, Cenk, Arandarcikaite, Odeta, Armand, Anne-Sophie, Arnould, Thierry, Avram, Vlad Florian, Bailey, Damian M, Bajpeyi, Sudip, Bajzikova, Martina, Bakker, Barbara M, Barlow, Jonathan, Bastos Sant'Anna Silva, Ana Carolina, Batterson, Philip, Battino, Maurizio, Bazil, Jason, Beard, Daniel A, Bednarczyk, Piotr, Bello, Fiona, Ben-Shachar, Dorit, Bergdahl, Andreas, Berge, Rolf K, Bergmeister, Lisa, Bernardi, Paolo, Berridge, Michael V, Bettinazzi, Stefano, Bishop, David, Blier, Pierre U, Blindheim, Dan Filip, Boardman, Neoma T, Boetker, Hans Erik, Borchard, Sabine, Boros, Mihaly, Borsheim, Elisabet, Borutaite, Vilma, Botella, Javier, Bouillaud, Frederic, Bouitbir, Jamal, Boushel, Robert C, Bovard, Josh, Breton, Sophie, Brown, David A, Brown, Guy C, Brown, Robert A, Brozinick, Joseph T, Buettner, Garry R, Burtscher, Johannes, Calabria, Elisa, Calbet, Jose A, Calzia, Enrico, Cannon, Daniel T, Cano Sanchez, Maria, Canto Alvarez, Carlos, Cardoso, Luiza Helena Daltro, Carvalho, Eugenia, Casado Pinna, Marta, Cassar, Samantha, Cassina, Adriana M, Castelo, Maria P, Gonzalez-Franquesa, A, Cavalcanti-de-Albuquerque, Joao Paulo, Cervinkova, Zuzana, Chabi, Beatrice, Chakrabarti, Lisa, Chakrabarti, Sasanka, Chaurasia, Bhagirath, Chen, Qi, Chicco, Adam J, Chinopoulos, Christos, Chowdhury, Subir K, Cizmarova, Beata, Clementi, Emilio, Coen, Paul M, Cohen, Bruce H, Coker, Robert H, Collin, Anne, Crisostomo, Luis, Dahdah, Norma, Dalgaard, Louise T, Dambrova, Maija, Danhelovska, Tereza, Darveau, Charles A, Das, Anibh M, Dash, Ranjan K, Davidova, Eliska, Davis, Michael S, De Goede, Paul, De Palma, Clara, Dembinska-Kiec, Aldona, Detraux, Damien, Devaux, Yvan, Di Marcello, Marco, Dias, Tania R, Distefano, Giovanna, Doermann, Niklas, Doerrier, Carolina, Dong, Lan-Feng, Donnelly, Chris, Drahota, Zdenek, Duarte, Filipe Valente, Dubouchaud, Herve, Duchen, Michael R, Dumas, Jean-Francois, Durham, William J, Dymkowska, Dorota, Dyrstad, Sissel E, Dyson, Alex, Dzialowski, Edward M, Eaton, Simon, Ehinger, Johannes, Elmer, Eskil, Endlicher, Rene, Engin, Ayse B, Escames, Germaine, Ezrova, Zuzana, Falk, Marni Joy, Fell, David A, Ferdinandy, Peter, Ferko, Miroslav, Ferreira, Julio Cesar Batista, Ferreira, Rita, Ferri, Alessandra, Fessel, Joshua P, Filipovska, Aleksandra, Fisar, Zdenek, Fischer, Christine, Fischer, Michael, Fisher, Gordon, Fisher, Joshua J, Ford, Ellen, Fornaro, Mara, Galina, Antonio, Galkin, Alexander, Gallee, Leon, Galli, Gina L, Gama Perez, Pau, Gan, Zhenji, Ganetzky, Rebecca, Garcia-Rivas, Gerardo, Garcia-Roves, Pablo Miguel, Garcia-Souza, Luiz Felipe, Garipi, Enis, Garlid, Keith D, Garrabou, Gloria, Garten, Antje, Gastaldelli, Amalia, Gayen, Jiaur, Genders, Amanda J, Genova, Maria Luisa, Giovarelli, Matteo, Goncalo Teixeira da Silva, Rui, Goncalves, Debora Farina, Gonzalez-Armenta, Jenny L, Gonzalez-Freire, Marta, Gonzalo, Hugo, Goodpaster, Bret H, Gorr, Thomas A, Gourlay, Campbell W, Granata, Cesare, Grefte, Sander, Guarch, Meritxell Espino, Gueguen, Naig, Gumeni, Sentiljana, Haas, Clarissa B, Haavik, Jan, Haendeler, Judith, Haider, Markus, Hamann, Andrea, Han, Jin, Han, Woo Hyun, Hancock, Chad R, Hand, Steven C, Handl, Jiri, Hargreaves, Ian P, Harper, Mary Ellen, Harrison, David K, Hassan, Hazirah, Hausenloy, Derek J, Heales, Simon JR, Heiestad, Christina, Hellgren, Kim T, Hepple, Russell T, Hernansanz-Agustin, Pablo, Hewakapuge, Sudinna, Hickey, Anthony J, Ho, Dieu Hien, Hoehn, Kyle L, Hoel, Frederik, Holland, Olivia J, Holloway, Graham P, Hoppel, Charles L, Hoppel, Florian, Houstek, Josef, Huete-Ortega, Maria, Hyrossova, Petra, Iglesias-Gonzalez, Javier, Irving, Brian A, Isola, Raffaella, Iyer, Shilpa, Jackson, Christophe B, Jadiya, Pooja, Jana, Prado Fabian, Jang, David H, Jang, Young C, Janowska, Joanna, Jansen, Kirsten, Jansen-Duerr, Pidder, Jansone, Baiba, Jarmuszkiewicz, Wieslawa, Jaskiewicz, Anna, Jedlicka, Jan, Jespersen, Nichlas R, Jha, Rajan K, Jurczak, Michael J, Jurk, Diana, Kaambre, Tuuli, Kaczor, Jan J, Kainulainen, Heikki, Kampa, Rafal Pawel, Kandel, Sunil M, Kane, Daniel A, Kapferer, Werner, Kappler, Lisa, Karabatsiakis, Alexander, Karkucinska-Wieckowska, Agnieszka, Kaur, Sarbjot, Keijer, Jaap, Keller, Markus A, Keppner, Gloria, Khamoui, Andy V, Kidere, Dita, Kilbaugh, Todd, Kim, Hyoung Kyu, Kim, Julian KS, Klepinin, Aleksandr, Klepinina, Lyudmila, Klingenspor, Martin, Klocker, Helmut, Komlódi, Timea, Koopman, Werner JH, Kopitar-Jerala, Natasa, Kowaltowski, Alicia J, Kozlov, Andrey V, Krajcova, Adela, Krako Jakovljevic, Nina, Kristal, Bruce S, Krycer, Jamer R, Kuang, Jujiao, Kucera, Otto, Kuka, Janis, Kwak, Hyo Bum, Kwast, Kurt, Laasmaa, Martin, Labieniec-Watala, Magdalena, Lai, Nicola, Land, John M, Lane, Nick, Laner, Verena, Lanza, Ian R, Larsen, Terje S, Lavery, Gareth G, Lazou, Antigone, Lee, Hong Kyu, Leeuwenburgh, Christiaan, Lehti, Maarit, Lemieux, Helene, Lenaz, Giorgio, Lerfall, Jorgen, Li, Pingan A, Li Puma, Lance, Liepins, Edgars, Lionett, Sofie, Liu, Jiankang, Lopez, Luis C, Lucchinetti, Eliana, Ma, Tao, Macedo, Maria P, Maciej, Sarah, MacMillan-Crow, Lee Ann, Majtnerova, Pavlina, Makarova, Elina, Makrecka-Kuka, Marina, Malik, Afshan N, Markova, Michaela, Martin, Daniel S, Martins, Ana Dias, Martins, Joao D, Maseko, Tumisang Edward, Maull, Felicia, Mazat, Jean Pierre, McKenna, Helen T, McKenzie, Matthew, Menze, Michael A, Merz, Tamara, Meszaros, Andras T, Methner, Axel, Michalak, Slawomir, Moellering, Douglas R, Moisoi, Nicoleta, Molina, Anthony JA, Montaigne, David, Moore, Anthony L, Moreau, Kerrie, Moreira, Bruno P, Moreno-Sanchez, Rafael, Mracek, Tomas, Muccini, Anna Maria, Muntane, Jordi, Muntean, Danina M, Murray, Andrew J, Musiol, Eva, Nabben, Miranda, Nair, K Sreekumaran, Nehlin, Jan O, Nemec, Michal, Neufer, P Darrell, Neuzil, Jiri, Neviere, Remi, Newsom, Sean A., Nozickova, Katerina, O'Brien, Katie A, O'Gorman, Donal, Olgar, Yusuf, Oliveira, Ben, Oliveira, Marcus F, Oliveira, Marcos Tulio, Oliveira, Pedro F, Oliveira, Paulo J, Orynbayeva, Zulfiya, Osiewacz, Heinz D, Pak, Youngmi K, Pallotta, Maria L, Palmeira, Carlos M, Parajuli, Nirmala, Passos, Joao F, Passrugger, Manuela, Patel, Hemal H, Pavlova, Nadia, Pecina, Petr, Pedersen, Tina M, Pereira da Silva Grilo da Silva, Filomena, Perez Valencia, Juan A, Perks, Kara L, Pesta, Dominik, Petit, Patrice X, Pettersen, Ina Katrine Nitschke, Pichaud, Nicolas, Pichler, Irene, Piel, Sarah, Pietka, Terri A, Pino, Maria F, Pirkmajer, Sergej, Plangger, Mario, Porter, Craig, Porter, Richard K, Procaccio, Vincent, Prochownik, Edward V, Prola, Alexandre, Pulinilkunnil, Thomas, Puskarich, Michael A, Puurand, Marju, Radenkovic, Filip, Ramzan, Rabia, Rattan, Suresh IS, Reboredo, Patricia, Renner-Sattler, Kathrin, Rial, Eduardo, Robinson, Matthew M, Roden, Michael, Rodriguez, Enrique, Rodriguez-Enriquez, Sara, Roesland, Gro Vatne, Rohlena, Jakub, Rolo, Anabela Pinto, Ropelle, Eduardo R, Rossignol, Rodrigue, Rossiter, Harry B, Rubelj, Ivica, Rybacka-Mossakowska, Joanna, Saada, Ann, Safaei, Zahra, Sarlak, S, Salin, Karine, Salvadego, Desy, Sandi, Carmen, Saner, Nicholas, Sanz, Alberto, Sazanov, Leonid A, Scatena, Roberto, Schartner, Melanie, Scheibye-Knudsen, Morten, Schilling, Jan M, Schlattner, Uwe, Schoenfeld, Peter, Schots, Pauke C, Schulz, Rainer, Schwarzer, Christoph, Scott, Graham R, Selman, Colin, Shabalina, Irina G, Sharma, Pushpa, Sharma, Vipin, Shevchuk, Igor, Shirazi, Reza, Shiroma, Jonathan G, Siewiera, Karolina, Silber, Ariel M, Silva, Ana Maria, Sims, Carrie A, Singer, Dominique, Singh, Brijesh Kumar, Skolik, Robert A, Smenes, Benedikte Therese, Smith, James, Soares, Félix Alexandre Antunes, Sobotka, Ondrej, Sokolova, Inna, Sonkar, Vijay K, Sowton, Alice P, Sparagna, Genevieve C, Sparks, Lauren M, Spinazzi, Marco, Stankova, Pavla, Starr, Jonathan, Stary, Creed, Stelfa, Gundega, Stepto, Nigel K, Stiban, Johnny, Stier, Antoine, Stocker, Roland, Storder, Julie, Sumbalova, Zuzana, Suomalainen, Wartiovaara Anu, Suravajhala, Prashanth, Svalbe, Baiba, Swerdlow, Russel H, Swiniuch, Daria, Szabo, Ildiko, Szewczyk, Adam, Szibor, Marten, Tanaka, Masashi, Tandler, Bernard, Tarnopolsky, Mark A, Tausan, Daniel, Tavernarakis, Nektarios, Tepp, Kersti, Thakkar, Himani, Thapa, Maheshwo, Thyfault, John P, Tomar, Dhanendra, Ton, Riccardo, Torp, May-Kristin, Towheed, Atif, Tretter, Laszlo, Trewin, Adam J, Trifunovic, Aleksandra, Trivigno, Catherine, Tronstad, Karl Johan, Trougakos, Ioannis P, Truu, Laura, Tuncay, Erkan, Turan, Belma, Tyrrell, Daniel J, Urban, Tomas, Valentine, Joseph Marco, Van Bergen, Nicole J, Van Hove, Johan, Varricchio, Frederick, Vella, Joanna, Vendelin, Marko, Vercesi, Anibal E, Victor, Victor Manuel, Vieira Ligo Teixeira, Camila, Vidimce, Josif, Viel, Christian, Vieyra, Adalberto, Vilks, Karlis, Villena, Joseph A, Vincent, Vinnyfred, Vinogradov, Andrey D, Viscomi, Carlo, Vitorino, Rui Miguel Pinheiro, Vogt, Sebastian, Volani, Chiara, Volska, Kristine, Votion, Dominique-Marie, Vujacic-Mirski, Ksenija, Wagner, Brett A, Ward, Marie Louise, Warnsmann, Verena, Wasserman, David H, Watala, Cezary, Wei, Yau-Huei, Whitfield, Jamie, Wickert, Anika, Wieckowski, Mariusz R, Wiesner, Rudolf J, Williams, Caroline M, Winwood-Smith, Hugh, Wohlgemuth, Stephanie E, Wohlwend, Martin, Wolff, Jonci Nikolai, Wrutniak-Cabello, Chantal, Wuest, Rob C I, Yokota, Takashi, Zablocki, Krzysztof, Zanon, Alessandra, Zanou, Nadege, Zaugg, Kathrin, Zaugg, Michael, Zdrazilova, Lucie, Zhang, Yong, Zhang, Yi Zhu, Zikova, Alena, Zischka, Hans, Zorzano, Antonio, Zvejniece, Liga, Lagarrigue, Sylviane, Munro, Daniel, Pereira, Susana, Laranjinha, Joäo, Almeida, Angeles, Diederich, M, Hecker, M, Jusic, A, Prigione, A, Sommer, N, Weissig, V, Abdel-Rahman, EA, Sova, M, Amorim, R, Beleza, J, Bravo-Sagua, R, Celen, MC, Coxito, P, Crispim, M, Dias, C, Evinova, A, Fuertes Agudo, M, Gao, Y, Garcia, G, Goikoetxea Usandizaga, N, Grilo, L, Minuzzi, LM, Hachmo, Y, Hajrulahovic, A, Hatokova, Z, Henrique, A, Holzner, L, Kimoloi, S, Ledo, AM, Machado, IF, Magalhaes, J, Magri, A, Nunes, S, Oliveira, J, Pinho, SA, Preguica, I, Reano, S, Rodrigues, AS, Santos, D, Sardao, V, Stevanovic, J, Teodoro, J, Van der Ende, M, Zujovic, T, Djafarzadeh, S, Schneider Gasser, EM, Jaspers, RT, Arias-Reyes, C, Bairam, A, Laouafa, S, Marcouiller, F, Soliz, J, Glatz, J, Antunes, D, Bach de Courtade, SM, Bardal, T, Di Paola, FJ, Fulton, M, Grams, B, Joseph, V, Kwon, OS, Liang, L, Mila Guasch, M, Moore, C, Norman, J, O'Brien, K, Olsen, RE, Paez, H, Rees, BB, Roshanravan, B, Scaife, P, Sendon, PM, Vlachaki Walker, J, Crossland, H, Jones, JG, Bento, G, Perales, JC, and Aragones Lopez, J
Subjects: uncoupling, Mitochondrial respiratory control, coupling control, protonmotive force, oxidative phosphorylation, mitochondrial respiratory control, NARILIS, ET [electron transfer], electron transfer, residual oxygen consumption, flux, normalization, efficiency, flow, oxygen, mitochondrial preparations, proton leak
Abstract: As the knowledge base and importance of mitochondrial physiology to human health expands, the necessity for harmonizing the terminology concerning mitochondrial respiratory states and rates has become increasingly apparent. The chemiosmotic theory establishes the mechanism of energy transformation and coupling in oxidative phosphorylation. The unifying concept of the protonmotive force provides the framework for developing a consistent theoretical foundation of mitochondrial physiology and bioenergetics. We follow guidelines of the International Union of Pure and Applied Chemistry (IUPAC) on terminology in physical chemistry, extended by considerations of open systems and thermodynamics of irreversible processes. The concept-driven constructive terminology incorporates the meaning of each quantity and aligns concepts and symbols with the nomenclature of classical bioenergetics. We endeavour to provide a balanced view of mitochondrial respiratory control and a critical discussion on reporting data of mitochondrial respiration in terms of metabolic flows and fluxes. Uniform standards for evaluation of respiratory states and rates will ultimately contribute to reproducibility between laboratories and thus support the development of databases of mitochondrial respiratory function in species, tissues, and cells. Clarity of concept and consistency of nomenclature facilitate effective transdisciplinary communication, education, and ultimately further discovery.
Published: 2019
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49. Role of Mineralocorticoid Receptor in Adipogenesis and Obesity in Male Mice

Author: Ferguson, Daniel, primary, Hutson, Irina, additional, Tycksen, Eric, additional, Pietka, Terri A, additional, Bauerle, Kevin, additional, and Harris, Charles A, additional
Published: 2019
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50. A maternal high-fat, high-sucrose diet induces transgenerational cardiac mitochondrial dysfunction independently of maternal mitochondrial inheritance

Author: Ferey, Jeremie L. A., primary, Boudoures, Anna L., additional, Reid, Michaela, additional, Drury, Andrea, additional, Scheaffer, Suzanne, additional, Modi, Zeel, additional, Kovacs, Attila, additional, Pietka, Terri, additional, DeBosch, Brian J., additional, Thompson, Michael D., additional, Diwan, Abhinav, additional, and Moley, Kelle H., additional
Published: 2019
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