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2. Increased risk of severe clinical course of COVID-19 in carriers of HLA-C*04:01

Author

Weiner, January, Suwalski, Phillip, Holtgrewe, Manuel, Rakitko, Alexander, Thibeault, Charlotte, Müller, Melina, Patriki, Dimitri, Quedenau, Claudia, Krüger, Ulrike, Ilinsky, Valery, Popov, Iaroslav, Balnis, Joseph, Jaitovich, Ariel, Helbig, Elisa T, Lippert, Lena J, Stubbemann, Paula, Real, Luis M, Macías, Juan, Pineda, Juan A, Fernandez-Fuertes, Marta, Wang, Xiaomin, Karadeniz, Zehra, Saccomanno, Jacopo, Doehn, Jan-Moritz, Hübner, Ralf-Harto, Hinzmann, Bernd, Salvo, Mauricio, Blueher, Anja, Siemann, Sandra, Jurisic, Stjepan, Beer, Juerg H, Rutishauser, Jonas, Wiggli, Benedikt, Schmid, Hansruedi, Danninger, Kathrin, Binder, Ronald, Corman, Victor M, Mühlemann, Barbara, Arkal, Rao Arjun, Fragiadakis, Gabriela K, Mick, Eran, COMET, Consortium, Calfee, Carolyn S, Erle, David J, Hendrickson, Carolyn M, Kangelaris, Kirsten N, Krummel, Matthew F, Woodruff, Prescott G, Langelier, Charles R, Venkataramani, Urmila, García, Federico, Zyla, Joanna, Drosten, Christian, Alice, Braun, Jones, Terry C, Suttorp, Norbert, Witzenrath, Martin, Hippenstiel, Stefan, Zemojtel, Tomasz, Skurk, Carsten, Poller, Wolfgang, Borodina, Tatiana, Pa-COVID, Study Group, Ripke, Stephan, Sander, Leif E, Beule, Dieter, Landmesser, Ulf, Guettouche, Toumy, Kurth, Florian, and Heidecker, Bettina

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Coronaviruses, Emerging Infectious Diseases, Human Genome, Clinical Research, Infectious Diseases, Genetics, 2.1 Biological and endogenous factors, 2.5 Research design and methodologies (aetiology), Good Health and Well Being, SARS-CoV-2, COVID-19, Human Leukocyte Antigen&nbsp, intubation, Human Leukocyte Antigen, Clinical sciences, Health services and systems, Public health
Abstract

BackgroundSince the beginning of the coronavirus disease 2019 (COVID-19) pandemic, there has been increasing urgency to identify pathophysiological characteristics leading to severe clinical course in patients infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Human leukocyte antigen alleles (HLA) have been suggested as potential genetic host factors that affect individual immune response to SARS-CoV-2. We sought to evaluate this hypothesis by conducting a multicenter study using HLA sequencing.MethodsWe analyzed the association between COVID-19 severity and HLAs in 435 individuals from Germany (n = 135), Spain (n = 133), Switzerland (n = 20) and the United States (n = 147), who had been enrolled from March 2020 to August 2020. This study included patients older than 18 years, diagnosed with COVID-19 and representing the full spectrum of the disease. Finally, we tested our results by meta-analysing data from prior genome-wide association studies (GWAS).FindingsWe describe a potential association of HLA-C*04:01 with severe clinical course of COVID-19. Carriers of HLA-C*04:01 had twice the risk of intubation when infected with SARS-CoV-2 (risk ratio 1.5 [95% CI 1.1-2.1], odds ratio 3.5 [95% CI 1.9-6.6], adjusted p-value = 0.0074). These findings are based on data from four countries and corroborated by independent results from GWAS. Our findings are biologically plausible, as HLA-C*04:01 has fewer predicted bindings sites for relevant SARS-CoV-2 peptides compared to other HLA alleles.InterpretationHLA-C*04:01 carrier state is associated with severe clinical course in SARS-CoV-2. Our findings suggest that HLA class I alleles have a relevant role in immune defense against SARS-CoV-2.FundingFunded by Roche Sequencing Solutions, Inc.

Published
2021

5. Increased risk of severe clinical course of COVID-19 in carriers of HLA-C*04:01

Author

Weiner, January, 3rd, Suwalski, Phillip, Holtgrewe, Manuel, Rakitko, Alexander, Thibeault, Charlotte, Müller, Melina, Patriki, Dimitri, Quedenau, Claudia, Krüger, Ulrike, Ilinsky, Valery, Popov, Iaroslav, Balnis, Joseph, Jaitovich, Ariel, Helbig, Elisa T, Lippert, Lena J, Stubbemann, Paula, Real, Luis M, Macías, Juan, Pineda, Juan A, Fernandez-Fuertes, Marta, Wang, Xiaomin, Karadeniz, Zehra, Saccomanno, Jacopo, Doehn, Jan-Moritz, Hübner, Ralf-Harto, Hinzmann, Bernd, Salvo, Mauricio, Blueher, Anja, Siemann, Sandra, Jurisic, Stjepan, Beer, Juerg H., Rutishauser, Jonas, Wiggli, Benedikt, Schmid, Hansruedi, Danninger, Kathrin, Binder, Ronald, Corman, Victor M, Mühlemann, Barbara, Arjun Arkal, Rao, Fragiadakis, Gabriela K., Mick, Eran, COMET, Consortium, Calfee, Carolyn S., Erle, David J., Hendrickson, Carolyn M., Kangelaris, Kirsten N., Krummel, Matthew F., Woodruff, Prescott G., Langelier, Charles R., Venkataramani, Urmila, García, Federico, Zyla, Joanna, Drosten, Christian, Alice, Braun, Jones, Terry C, Suttorp, Norbert, Witzenrath, Martin, Hippenstiel, Stefan, Zemojtel, Tomasz, Skurk, Carsten, Poller, Wolfgang, Borodina, Tatiana, Pa-COVID, Study Group, Ripke, Stephan, Sander, Leif E, Beule, Dieter, Landmesser, Ulf, Guettouche, Toumy, Kurth, Florian, and Heidecker, Bettina

Published
2021
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6. Succinate dehydrogenase-complex II regulates skeletal muscle cellular respiration and contractility but not muscle mass in genetically induced pulmonary emphysema.

Author

Balnis, Joseph, Tufts, Ankita, Jackson, Emily L., Drake, Lisa A., Singer, Diane V., Lacomis, David, Chun Geun Lee, Elias, Jack A., Doles, Jason D., Maher III, L. James, Jen, Annie, Coon, Joshua J., Jourd'heuil, David, Singer, Harold A., Vincent, Catherine E., and Jaitovich, Ariel

Subjects
*PULMONARY emphysema, *CELL respiration, *OXYGEN consumption, *MUSCLE mass, *SKELETAL muscle, *SUCCINATE dehydrogenase, *MUSCULAR atrophy
Abstract

Reduced skeletal muscle mass and oxidative capacity coexist in patients with pulmonary emphysema and are independently associated with higher mortality. If reduced cellular respiration contributes to muscle atrophy in that setting remains unknown. Using a mouse with genetically induced pulmonary emphysema that recapitulates muscle dysfunction, we found that reduced activity of succinate dehydrogenase (SDH) is a hallmark of its myopathic changes. We generated an inducible, muscle-specific SDH knockout mouse that demonstrates lower mitochondrial oxygen consumption, myofiber contractility, and exercise endurance. Respirometry analyses show that in vitro complex I respiration is unaffected by loss of SDH subunit C in muscle mitochondria, which is consistent with the pulmonary emphysema animal data. SDH knockout initially causes succinate accumulation associated with a down-regulated transcriptome but modest proteome effects. Muscle mass, myofiber type composition, and overall body mass constituents remain unaltered in the transgenic mice. Thus, while SDH regulates myofiber respiration in experimental pulmonary emphysema, it does not control muscle mass or other body constituents. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Blood DNA methylation and COVID-19 outcomes

Author

Balnis, Joseph, Madrid, Andy, Hogan, Kirk J., Drake, Lisa A., Chieng, Hau C., Tiwari, Anupama, Vincent, Catherine E., Chopra, Amit, Vincent, Peter A., Robek, Michael D., Singer, Harold A., Alisch, Reid S., and Jaitovich, Ariel

Published
2021
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8. Decreased plasma cartilage acidic protein 1 in COVID‐19

Author

Johansson, Mats W., primary, Balnis, Joseph, additional, Muehlbauer, Laura K., additional, Bukhman, Yury V., additional, Stefely, Matthew S., additional, Overmyer, Katherine A., additional, Vancavage, Rachel, additional, Tiwari, Anupama, additional, Adhikari, Anish Raj, additional, Feustel, Paul J., additional, Schwartz, Bradford S., additional, Coon, Joshua J., additional, Stewart, Ron, additional, Jaitovich, Ariel, additional, and Mosher, Deane F., additional

Published
2023
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9. Nuclear cytoglobin associates with HMGB2 and regulates DNA damage and genome-wide transcriptional output in the vasculature

Author

Mathai, Clinton, primary, Jourd'heuil, Frances, additional, Pham, Le Gia Cat, additional, Gilliard, Kurrim, additional, Howard, Dennis, additional, Balnis, Joseph, additional, Jaitovich, Ariel, additional, Chittur, Sridar, additional, Riley, Mark, additional, Peredo-Wende, Ruben, additional, Ibrahim, Ammoura, additional, Shin, Sandra, additional, Barroso, Margarida, additional, Barra, Jonathan, additional, Shishkova, Evgenia, additional, Coon, Joshua, additional, Lopez Soler, Reynold, additional, and Jourd'heuil, David, additional

Published
2023
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12. Peripheral Blood Omics and Other Multiplex-based Systems in Pulmonary and Critical Care Medicine.

Author

Balnis, Joseph, Lauria, Eitel J. M., Yucel, Recai, Singer, Harold A., Alisch, Reid S., and Jaitovich, Ariel

Subjects
CRITICAL care medicine, VALUE engineering, MACHINE learning
Abstract

Over the last years, the use of peripheral blood-derived big datasets in combination with machine learning technology has accelerated the understanding, prediction, and management of pulmonary and critical care conditions. The goal of this article is to provide readers with an introduction to the methods and applications of blood omics and other multiplex-based technologies in the pulmonary and critical care medicine setting to better appreciate the current literature in the field. To accomplish that, we provide essential concepts needed to rationalize this approach and introduce readers to the types of molecules that can be obtained from the circulating blood to generate big datasets; elaborate on the differences between bulk, sorted, and single-cell approaches; and the basic analytical pipelines required for clinical interpretation. Examples of peripheral blood-derived big datasets used in recent literature are presented, and limitations of that technology are highlighted to qualify both the current and future value of these methodologies. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Severe COVID-19 Shares a Common Neutrophil Activation Signature with Other Acute Inflammatory States

Author

Schimke, Lena F., primary, Marques, Alexandre H. C., additional, Baiocchi, Gabriela Crispim, additional, de Souza Prado, Caroline Aliane, additional, Fonseca, Dennyson Leandro M., additional, Freire, Paula Paccielli, additional, Rodrigues Plaça, Desirée, additional, Salerno Filgueiras, Igor, additional, Coelho Salgado, Ranieri, additional, Jansen-Marques, Gabriel, additional, Rocha Oliveira, Antonio Edson, additional, Peron, Jean Pierre Schatzmann, additional, Cabral-Miranda, Gustavo, additional, Barbuto, José Alexandre Marzagão, additional, Camara, Niels Olsen Saraiva, additional, Calich, Vera Lúcia Garcia, additional, Ochs, Hans D., additional, Condino-Neto, Antonio, additional, Overmyer, Katherine A., additional, Coon, Joshua J., additional, Balnis, Joseph, additional, Jaitovich, Ariel, additional, Schulte-Schrepping, Jonas, additional, Ulas, Thomas, additional, Schultze, Joachim L., additional, Nakaya, Helder I., additional, Jurisica, Igor, additional, and Cabral-Marques, Otávio, additional

Published
2022
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16. Cytoglobin promotes a reduced intracellular environment and interacts with PRXD2

Author

Mathai, Clinton-Matthew, primary, Cat Pham, Le Gia, additional, Jourd'heuil, Frances, additional, Gilliard, Kurrim, additional, Ropri, Ali, additional, Balnis, Joseph, additional, Jaitovich, Ariel, additional, Shishkova, Evgenia, additional, Overmyer, Katherine, additional, Coon, Joshua, additional, Chittur, Sridar, additional, Boivin, Ben, additional, and Jourd'heuil, David, additional

Published
2022
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19. Severe COVID-19 shares a common neutrophil activation signature with other acute inflammatory states

Author

Schimke, Lena F., primary, Marques, Alexandre H.C., additional, Baiocchi, Gabriela Crispim, additional, de Souza Prado, Caroline Aliane, additional, Fonseca, Dennyson Leandro M., additional, Freire, Paula Paccielli, additional, Plaça, Desirée Rodrigues, additional, Filgueiras, Igor Salerno, additional, Salgado, Ranieri Coelho, additional, Jansen-Marques, Gabriel, additional, Oliveira, Antonio Edson Rocha, additional, Peron, Jean Pierre Schatzmann, additional, Cabral-Miranda, Gustavo, additional, Barbuto, José Alexandre Marzagão, additional, Camara, Niels Olsen Saraiva, additional, Calich, Vera Lúcia Garcia, additional, Ochs, Hans D., additional, Condino-Neto, Antonio, additional, Overmyer, Katherine A., additional, Coon, Joshua J., additional, Balnis, Joseph, additional, Jaitovich, Ariel, additional, Schulte-Schrepping, Jonas, additional, Ulas, Thomas, additional, Schultze, Joachim L., additional, Nakaya, Helder I., additional, Jurisica, Igor, additional, and Cabral-Marques, Otávio, additional

Published
2021
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21. 50-gene risk profiles in peripheral blood predict COVID-19 outcomes: A retrospective, multicenter cohort study

Author

Juan Guardela, Brenda M., primary, Sun, Jiehuan, additional, Zhang, Tong, additional, Xu, Bing, additional, Balnis, Joseph, additional, Huang, Yong, additional, Ma, Shwu-Fan, additional, Molyneaux, Philip L., additional, Maher, Toby M., additional, Noth, Imre, additional, Michaud, Gaetane, additional, Jaitovich, Ariel, additional, and Herazo-Maya, Jose D., additional

Published
2021
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22. Additional file 2 of Blood DNA methylation and COVID-19 outcomes

Author

Balnis, Joseph, Madrid, Andy, Hogan, Kirk J., Drake, Lisa A., Chieng, Hau C., Tiwari, Anupama, Vincent, Catherine E., Chopra, Amit, Vincent, Peter A., Robek, Michael D., Singer, Harold A., Alisch, Reid S., and Jaitovich, Ariel

Abstract

Additional file 2. Comparison of chronologic age and “epigenetic clock” age between COVID-19 patients and healthy pre-pandemic controls.

Published
2021
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23. Unique inflammatory profile is associated with higher SARS-CoV-2 acute respiratory distress syndrome (ARDS) mortality

Author

Balnis, Joseph, primary, Adam, Alejandro P., additional, Chopra, Amit, additional, Chieng, Hau C., additional, Drake, Lisa A., additional, Martino, Nina, additional, Bossardi Ramos, Ramon, additional, Feustel, Paul J., additional, Overmyer, Katherine A., additional, Shishkova, Evgenia, additional, Coon, Joshua J., additional, Singer, Harold A., additional, Judson, Marc A., additional, and Jaitovich, Ariel, additional

Published
2021
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24. Higher serum levels of Chemokine CCL19 are associated with poor SARS-CoV-2 acute respiratory distress syndrome (ARDS) outcomes

Author

Balnis, Joseph, Adam, Alejandro P, Chopra, Amit, Chieng, Hau C, Feustel, Paul J, Overmyer, Katherine A, Shishkova, Evgenia, Coon, Joshua C, Singer, Harold A, Hudson, Marc A, and Jaitovich, Ariel

Abstract

COVID19 pandemic has so far caused over three hundred thousand deaths worldwide, primarily due to complications from SARS-CoV-2-associated acute respiratory distress syndrome (ARDS). While an ARDS-driven hyperinflammatory phenotype is associated with higher mortality in non-COVID patients, there is little information on how cytokines and chemokines expressions correlate with clinical outcomes in COVID19 patients. We prospectively enrolled a cohort of 41 patients with acute respiratory distress syndrome on mechanical ventilation. Patients blood was obtained at enrollment and outcome measures were liberation from mechanical ventilation and hospital-free days. We determined the expression levels of 44 circulating cytokines/chemokines and found 13 of them associated with worse outcomes. After correcting for multiple comparisons/false discovery rate, only one chemokine (CCL19) remained significantly associated with outcomes (p=0.009). Although not described in association with COVID19, this chemokine was previously found elevated in an animal model of SARS-CoV. Moreover, CCL19 seems to be relevant for bronchus-associated lymphoid tissue (BALT) maintenance and for lung immunity to influenza virus. While this finding requires corroboration, CCL19 determination could facilitate early identification COVID19-ARDS patients at higher risk of death and be novel target for immunotherapy in this setting.

Published
2020
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26. Multi-Layered Transcriptomic Holistic Analyses Reveal an Immunological Overlap between COVID-19 and Hemophagocytic Lymphohistiocytosis Associated with Disease Severity

Author

Schimke, Lena F., primary, Marques, Alexandre H.C., additional, Crispim Baiocchi, Gabriela, additional, de Souza Prado, Caroline Aliane, additional, Fonseca, Dennyson Leandro M., additional, Paccielli Freire, Paula, additional, Rodrigues Placa, Desirée, additional, Salerno Filgueiras, Igor, additional, Coelho Salgado, Ranieri, additional, Jansen-Marques, Gabriel, additional, Rocha Oliveira, Antonio Edson, additional, Peron, Jean Pierre Schatzmann, additional, Marzagão Barbuto, Jose Alexandre, additional, Camara, Niels O.S., additional, Garcia Calich, Vera Lucia, additional, Ochs, Hans D., additional, Condino-Neto, Antonio, additional, Overmyer, Katherine A., additional, Coon, Joshua J., additional, Balnis, Joseph, additional, Jaitovich, Ariel, additional, Schulte-Schrepping, Jonas, additional, Ulas, Thomas, additional, Schultze, Joachim L., additional, Nakaya, Helder, additional, Jurisica, Igor, additional, and Cabral-Marques, Otavio, additional

Published
2021
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27. Large-Scale Multi-omic Analysis of COVID-19 Severity

Author

Overmyer, Katherine A., primary, Shishkova, Evgenia, additional, Miller, Ian J., additional, Balnis, Joseph, additional, Bernstein, Matthew N., additional, Peters-Clarke, Trenton M., additional, Meyer, Jesse G., additional, Quan, Qiuwen, additional, Muehlbauer, Laura K., additional, Trujillo, Edna A., additional, He, Yuchen, additional, Chopra, Amit, additional, Chieng, Hau C., additional, Tiwari, Anupama, additional, Judson, Marc A., additional, Paulson, Brett, additional, Brademan, Dain R., additional, Zhu, Yunyun, additional, Serrano, Lia R., additional, Linke, Vanessa, additional, Drake, Lisa A., additional, Adam, Alejandro P., additional, Schwartz, Bradford S., additional, Singer, Harold A., additional, Swanson, Scott, additional, Mosher, Deane F., additional, Stewart, Ron, additional, Coon, Joshua J., additional, and Jaitovich, Ariel, additional

Published
2021
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30. Large-scale Multi-omic Analysis of COVID-19 Severity

Author

Overmyer, Katherine A., primary, Shishkova, Evgenia, additional, Miller, Ian J., additional, Balnis, Joseph, additional, Bernstein, Matthew N., additional, Peters-Clarke, Trenton M., additional, Meyer, Jesse G., additional, Quan, Qiuwen, additional, Muehlbauer, Laura K., additional, Trujillo, Edna A., additional, He, Yuchen, additional, Chopra, Amit, additional, Chieng, Hau C., additional, Tiwari, Anupama, additional, Judson, Marc A., additional, Paulson, Brett, additional, Brademan, Dain R., additional, Zhu, Yunyun, additional, Serrano, Lia R., additional, Linke, Vanessa, additional, Drake, Lisa A., additional, Adam, Alejandro P., additional, Schwartz, Bradford S., additional, Singer, Harold A., additional, Swanson, Scott, additional, Mosher, Deane F., additional, Stewart, Ron, additional, Coon, Joshua J., additional, and Jaitovich, Ariel, additional

Published
2020
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31. Unique inflammatory profile is associated with higher SARS-CoV-2 acute respiratory distress syndrome (ARDS) mortality

Author

Balnis, Joseph, primary, Adam, Alejandro P., additional, Chopra, Amit, additional, Chieng, Hau C., additional, Drake, Lisa A., additional, Martino, Nina, additional, Ramos, Ramon B., additional, Feustel, Paul J., additional, Overmyer, Katherine A., additional, Shishkova, Evgenia, additional, Coon, Joshua J., additional, Singer, Harold A., additional, Judson, Marc A., additional, and Jaitovich, Ariel, additional

Published
2020
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36. High CO2 Downregulates Skeletal Muscle Protein Anabolism via AMP-activated Protein Kinase α2--mediated Depressed Ribosomal Biogenesis.

Author

Korponay, Tanner C., Balnis, Joseph, Vincent, Catherine E., Singer, Diane V., Chopra, Amit, Adam, Alejandro P., Ginnan, Roman, Singer, Harold A., and Jaitovich, Ariel

Subjects
PROTEIN kinases, HYPERCAPNIA, LUNG diseases, SKELETAL muscle, PROTEIN synthesis
Abstract

High CO2 retention, or hypercapnia, is associated with worse outcomes in patients with chronic pulmonary diseases. Skeletal muscle wasting is also an independent predictor of poor outcomes in patients with acute and chronic pulmonary diseases. Although previous evidence indicates that high CO2 accelerates skeletal muscle catabolism via AMPK (AMP-activated protein kinase)--FoxO3a--MuRF1 (E3-ubiquitin ligase muscle RING finger protein 1), little is known about the role of high CO2 in regulating skeletal muscle anabolism. In the present study, we investigated the potential role of high CO2 in attenuating skeletal muscle protein synthesis. We found that locomotor muscles from patients with chronic CO2 retention demonstrated depressed ribosomal gene expression in comparison with locomotor muscles from non--CO2-retaining individuals, and analysis of the muscle proteome of normo- and hypercapnic mice indicates reduction of important components of ribosomal structure and function. Indeed, mice chronically kept under a high-CO2 environment show evidence of skeletal muscle downregulation of ribosomal biogenesis and decreased protein synthesis as measured by the incorporation of puromycin into skeletal muscle. Hypercapnia did not regulate the mTOR pathway, and rapamycin-induced deactivation of mTOR did not cause a decrease in ribosomal gene expression. Loss-of-function studies in cultured myotubes showed thatAMPKa2 regulates CO2-mediated reductions in ribosomal gene expression and protein synthesis. Although previous evidence has implicated TIF1A (transcription initiation factor-1a) and KDM2A (lysine-specific demethylase 2A) in AMPK-driven regulation of ribosomal gene expression, we found that these mediators were not required in the high CO2--induced depressed protein anabolism. Our research supports future studies targeting ribosomal biogenesis and protein synthesis to alleviate the effects of high CO2 on skeletal muscle turnover. [ABSTRACT FROM AUTHOR]

Published
2020
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37. A role for cytoglobin in regulating intracellular hydrogen peroxide and redox signals in the vasculature.

Author

Mathai C, Jourd'heuil F, Pham LGC, Gilliard K, Balnis J, Jen A, Overmyer KA, Coon JJ, Jaitovich A, Boivin B, and Jourd'heuil D

Abstract

The oxidant hydrogen peroxide serves as a signaling molecule that alters many aspects of cardiovascular functions. Recent studies suggest that cytoglobin - a hemoglobin expressed in the vasculature - may promote electron transfer reactions with proposed functions in hydrogen peroxide decomposition. Here, we determined the extent to which cytoglobin regulates intracellular hydrogen peroxide and established mechanisms. We found that cytoglobin decreased the hyperoxidation of peroxiredoxins and maintained the activity of peroxiredoxin 2 following challenge with exogenous hydrogen peroxide. Cytoglobin promoted a reduced intracellular environment and facilitated the reduction of the thiol-based hydrogen peroxide sensor Hyper7 after bolus addition of hydrogen peroxide. Cytoglobin also limited the inhibitory effect of hydrogen peroxide on glycolysis and reversed the oxidative inactivation of the glycolytic enzyme GAPDH. Our results indicate that cytoglobin in cells exists primarily as oxyferrous cytoglobin (CygbFe 2+ -O 2 ) with its cysteine residues in the reduced form. We found that the specific substitution of one of two cysteine residues on cytoglobin (C83A) inhibited the reductive activity of cytoglobin on Hyper7 and GAPDH. Carotid arteries from cytoglobin knockout mice were more sensitive to glycolytic inhibition by hydrogen peroxide than arteries from wildtype mice. Together, these results support a role for cytoglobin in regulating intracellular redox signals associated with hydrogen peroxide through oxidation of its cysteine residues, independent of hydrogen peroxide reaction at its heme center.

Published
2023
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38. Nuclear cytoglobin associates with HMGB2 and regulates DNA damage and genome-wide transcriptional output in the vasculature.

Author

Mathai C, Jourd'heuil F, Pham LGC, Gilliard K, Howard D, Balnis J, Jaitovich A, Chittur SV, Rilley M, Peredo-Wende R, Ammoura I, Shin SJ, Barroso M, Barra J, Shishkova E, Coon JJ, Lopez-Soler RI, and Jourd'heuil D

Abstract

Identifying novel regulators of vascular smooth muscle cell function is necessary to further understand cardiovascular diseases. We previously identified cytoglobin, a hemoglobin homolog, with myogenic and cytoprotective roles in the vasculature. The specific mechanism of action of cytoglobin is unclear but does not seem to be related to oxygen transport or storage like hemoglobin. Herein, transcriptomic profiling of injured carotid arteries in cytoglobin global knockout mice revealed that cytoglobin deletion accelerated the loss of contractile genes and increased DNA damage. Overall, we show that cytoglobin is actively translocated into the nucleus of vascular smooth muscle cells through a redox signal driven by NOX4. We demonstrate that nuclear cytoglobin heterodimerizes with the non-histone chromatin structural protein HMGB2. Our results are consistent with a previously unknown function by which a non-erythrocytic hemoglobin inhibits DNA damage and regulates gene programs in the vasculature by modulating the genome-wide binding of HMGB2.

Published
2023
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39. Unique inflammatory profile is associated with higher SARS-CoV-2 acute respiratory distress syndrome (ARDS) mortality.

Author

Balnis J, Adam AP, Chopra A, Chieng HC, Drake LA, Martino N, Bossardi Ramos R, Feustel PJ, Overmyer KA, Shishkova E, Coon JJ, Singer HA, Judson MA, and Jaitovich A

Subjects
Aged, COVID-19 mortality, Cohort Studies, Cytokines genetics, Cytokines metabolism, Female, Gene Expression Regulation, Humans, Male, Middle Aged, COVID-19 metabolism, COVID-19 pathology, Inflammation metabolism, Respiratory Distress Syndrome mortality, SARS-CoV-2
Abstract

The COVID19 pandemic has caused more than a million of deaths worldwide, primarily due to complications from COVID19-associated acute respiratory distress syndrome (ARDS). Controversy surrounds the circulating cytokine/chemokine profile of COVID19-associated ARDS, with some groups suggesting that it is similar to patients without COVID19 ARDS and others observing substantial differences. Moreover, although a hyperinflammatory phenotype associates with higher mortality in non-COVID19 ARDS, there is little information on the inflammatory landscape's association with mortality in patients with COVID19 ARDS. Even though the circulating leukocytes' transcriptomic signature has been associated with distinct phenotypes and outcomes in critical illness including ARDS, it is unclear whether the mortality-associated inflammatory mediators from patients with COVID19 are transcriptionally regulated in the leukocyte compartment. Here, we conducted a prospective cohort study of 41 mechanically ventilated patients with COVID19 infection using highly calibrated methods to define the levels of plasma cytokines/chemokines and their gene expressions in circulating leukocytes. Plasma IL1RA and IL8 were found positively associated with mortality, whereas RANTES and EGF negatively associated with that outcome. However, the leukocyte gene expression of these proteins had no statistically significant correlation with mortality. These data suggest a unique inflammatory signature associated with severe COVID19.

Published
2021
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40. Unique inflammatory profile is associated with higher SARS-CoV-2 acute respiratory distress syndrome (ARDS) mortality.

Author

Balnis J, Adam AP, Chopra A, Chieng HC, Drake LA, Martino N, Ramos RB, Feustel PJ, Overmyer KA, Shishkova E, Coon JJ, Singer HA, Judson MA, and Jaitovich A

Abstract

The COVID19 pandemic is likely to cause more than a million of deaths worldwide, primarily due to complications from COVID19-associated acute respiratory distress syndrome (ARDS). Controversy surrounds the circulating cytokine/chemokine profile of COVID19-associated ARDS, with some groups suggesting that it is similar to non-COVID19 ARDS patients and others observing substantial differences. Moreover, while a hyperinflammatory phenotype associates with higher mortality in non-COVID19 ARDS, there is little information on the inflammatory landscape's association with mortality in COVID19 ARDS patients. Even though the circulating leukocytes' transcriptomic signature has been associated with distinct phenotypes and outcomes in critical illness including ARDS, it is unclear whether the mortality-associated inflammatory mediators from COVID19 patients are transcriptionally regulated in the leukocyte compartment. Here, we conducted a prospective cohort study of 41 mechanically ventilated patients with COVID19 infection using highly calibrated methods to define the levels of plasma cytokines/chemokines and their gene expressions in circulating leukocytes. Plasma IL1RA and IL8 were found positively associated with mortality while RANTES and EGF negatively associated with that outcome. However, the leukocyte gene expression of these proteins had no statistically significant correlation with mortality. These data suggest a unique inflammatory signature associated with severe COVID19.

Published
2020
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41. Large-scale Multi-omic Analysis of COVID-19 Severity.

Author

Overmyer KA, Shishkova E, Miller IJ, Balnis J, Bernstein MN, Peters-Clarke TM, Meyer JG, Quan Q, Muehlbauer LK, Trujillo EA, He Y, Chopra A, Chieng HC, Tiwari A, Judson MA, Paulson B, Brademan DR, Zhu Y, Serrano LR, Linke V, Drake LA, Adam AP, Schwartz BS, Singer HA, Swanson S, Mosher DF, Stewart R, Coon JJ, and Jaitovich A

Abstract

We performed RNA-Seq and high-resolution mass spectrometry on 128 blood samples from COVID-19 positive and negative patients with diverse disease severities. Over 17,000 transcripts, proteins, metabolites, and lipids were quantified and associated with clinical outcomes in a curated relational database, uniquely enabling systems analysis and cross-ome correlations to molecules and patient prognoses. We mapped 219 molecular features with high significance to COVID-19 status and severity, many involved in complement activation, dysregulated lipid transport, and neutrophil activation. We identified sets of covarying molecules, e.g., protein gelsolin and metabolite citrate or plasmalogens and apolipoproteins, offering pathophysiological insights and therapeutic suggestions. The observed dysregulation of platelet function, blood coagulation, acute phase response, and endotheliopathy further illuminated the unique COVID-19 phenotype. We present a web-based tool (covid-omics.app) enabling interactive exploration of our compendium and illustrate its utility through a comparative analysis with published data and a machine learning approach for prediction of COVID-19 severity.

Published
2020
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42. AMP-Activated Protein Kinase (AMPK) at the Crossroads Between CO 2 Retention and Skeletal Muscle Dysfunction in Chronic Obstructive Pulmonary Disease (COPD).

Author

Balnis J, Korponay TC, and Jaitovich A

Subjects
Animals, Carbon Dioxide metabolism, Comorbidity, Humans, Muscular Atrophy metabolism, Ribosomes metabolism, AMP-Activated Protein Kinases metabolism, Hypercapnia metabolism, Muscle, Skeletal metabolism, Pulmonary Disease, Chronic Obstructive metabolism
Abstract

Skeletal muscle dysfunction is a major comorbidity in chronic obstructive pulmonary disease (COPD) and other pulmonary conditions. Chronic CO 2 retention, or hypercapnia, also occur in some of these patients. Both muscle dysfunction and hypercapnia associate with higher mortality in these populations. Over the last years, we have established a mechanistic link between hypercapnia and skeletal muscle dysfunction, which is regulated by AMPK and causes depressed anabolism via reduced ribosomal biogenesis and accelerated catabolism via proteasomal degradation. In this review, we discuss the main findings linking AMPK with hypercapnic pulmonary disease both in the lungs and skeletal muscles, and also outline potential avenues for future research in the area based on knowledge gaps and opportunities to expand mechanistic research with translational implications.

Published
2020
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43. High CO 2 Downregulates Skeletal Muscle Protein Anabolism via AMP-activated Protein Kinase α2-mediated Depressed Ribosomal Biogenesis.

Author

Korponay TC, Balnis J, Vincent CE, Singer DV, Chopra A, Adam AP, Ginnan R, Singer HA, and Jaitovich A

Subjects
Adolescent, Animals, F-Box Proteins metabolism, Gene Expression drug effects, Humans, Lung Diseases etiology, Lung Diseases metabolism, Male, Mice, Mice, Inbred C57BL, Muscle, Skeletal metabolism, Nuclear Proteins metabolism, Ribosomes metabolism, Signal Transduction drug effects, TOR Serine-Threonine Kinases metabolism, Transcription Factors metabolism, Ubiquitin-Protein Ligases metabolism, AMP-Activated Protein Kinases metabolism, Carbon Dioxide adverse effects, Down-Regulation drug effects, Muscle Proteins metabolism, Muscle, Skeletal drug effects, Protein Biosynthesis drug effects, Ribosomes drug effects
Abstract

High CO 2 retention, or hypercapnia, is associated with worse outcomes in patients with chronic pulmonary diseases. Skeletal muscle wasting is also an independent predictor of poor outcomes in patients with acute and chronic pulmonary diseases. Although previous evidence indicates that high CO 2 accelerates skeletal muscle catabolism via AMPK (AMP-activated protein kinase)-FoxO3a-MuRF1 (E3-ubiquitin ligase muscle RING finger protein 1), little is known about the role of high CO 2 in regulating skeletal muscle anabolism. In the present study, we investigated the potential role of high CO 2 in attenuating skeletal muscle protein synthesis. We found that locomotor muscles from patients with chronic CO 2 retention demonstrated depressed ribosomal gene expression in comparison with locomotor muscles from non-CO 2 -retaining individuals, and analysis of the muscle proteome of normo- and hypercapnic mice indicates reduction of important components of ribosomal structure and function. Indeed, mice chronically kept under a high-CO 2 environment show evidence of skeletal muscle downregulation of ribosomal biogenesis and decreased protein synthesis as measured by the incorporation of puromycin into skeletal muscle. Hypercapnia did not regulate the mTOR pathway, and rapamycin-induced deactivation of mTOR did not cause a decrease in ribosomal gene expression. Loss-of-function studies in cultured myotubes showed that AMPKα2 regulates CO 2 -mediated reductions in ribosomal gene expression and protein synthesis. Although previous evidence has implicated TIF1A (transcription initiation factor-1α) and KDM2A (lysine-specific demethylase 2A) in AMPK-driven regulation of ribosomal gene expression, we found that these mediators were not required in the high CO 2 -induced depressed protein anabolism. Our research supports future studies targeting ribosomal biogenesis and protein synthesis to alleviate the effects of high CO 2 on skeletal muscle turnover.

Published
2020
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