Your search keyword '"McHugh, Emily A."' showing total 36 results

1. Nondestructive flash cathode recycling

Author

Chen, Weiyin, Cheng, Yi, Chen, Jinhang, Bets, Ksenia V., Salvatierra, Rodrigo V., Ge, Chang, Li, John Tianci, Luong, Duy Xuan, Kittrell, Carter, Wang, Zicheng, McHugh, Emily A., Gao, Guanhui, Deng, Bing, Han, Yimo, Yakobson, Boris I., and Tour, James M.

Published

2024

2. Pleozymes: Pleiotropic Oxidized Carbon Nanozymes Enhance Cellular Metabolic Flexibility.

Author

Vo, Anh T. T., Mouli, Karthik, Liopo, Anton V., Lorenzi, Philip, Tan, Lin, Wei, Bo, Martinez, Sara A., McHugh, Emily A., Tour, James M., Khan, Uffaf, Derry, Paul J., and Kent, Thomas A.

Subjects

METABOLIC flux analysis, FATTY acid analysis, NITRIC acid, FATTY acid oxidation, BRAIN metabolism

Abstract

Our group has synthesized a pleiotropic synthetic nanozyme redox mediator we term a "pleozyme" that displays multiple enzymatic characteristics, including acting as a superoxide dismutase mimetic, oxidizing NADH to NAD+, and oxidizing H2S to polysulfides and thiosulfate. Benefits have been seen in acute and chronic neurological disease models. The molecule is sourced from coconut-derived activated charcoal that has undergone harsh oxidization with fuming nitric acid, which alters the structure and chemical characteristics, yielding 3–8 nm discs with broad redox potential. Prior work showed pleozymes localize to mitochondria and increase oxidative phosphorylation and glycolysis. Here, we measured cellular NAD+ and NADH levels after pleozyme treatment and observed increased total cellular NADH levels but not total NAD+ levels. A 13C-glucose metabolic flux analysis suggested pleozymes stimulate the generation of pyruvate and lactate glycolytically and from the tricarboxylic acid (TCA) cycle, pointing to malate decarboxylation. Analysis of intracellular fatty acid abundances suggests pleozymes increased fatty acid β-oxidation, with a concomitant increase in succinyl- and acetyl-CoA. Pleozymes increased total ATP, potentially via flexible enhancement of NAD+-dependent catabolic pathways such as glycolysis, fatty acid β-oxidation, and metabolic flux through the TCA cycle. These effects may be favorable for pathologies that compromise metabolism such as brain injury. [ABSTRACT FROM AUTHOR]

Published

2024

3. Harshly Oxidized Activated Charcoal Enhances Protein Persulfidation with Implications for Neurodegeneration as Exemplified by Friedreich's Ataxia.

Author

Vo, Anh T. T., Khan, Uffaf, Liopo, Anton V., Mouli, Karthik, Olson, Kenneth R., McHugh, Emily A., Tour, James M., Pooparayil Manoj, Madhavan, Derry, Paul J., and Kent, Thomas A.

Subjects

TRANSCRIPTION factors, FRIEDREICH'S ataxia, MITOCHONDRIAL proteins, HYDROGEN oxidation, ACTIVATED carbon, NAD (Coenzyme)

Abstract

Harsh acid oxidation of activated charcoal transforms an insoluble carbon-rich source into water-soluble, disc structures of graphene decorated with multiple oxygen-containing functionalities. We term these pleiotropic nano-enzymes as "pleozymes". A broad redox potential spans many crucial redox reactions including the oxidation of hydrogen sulfide (H2S) to polysulfides and thiosulfate, dismutation of the superoxide radical (O2−*), and oxidation of NADH to NAD+. The oxidation of H2S is predicted to enhance protein persulfidation—the attachment of sulfur to cysteine residues. Persulfidated proteins act as redox intermediates, and persulfidation protects proteins from irreversible oxidation and ubiquitination, providing an important means of signaling. Protein persulfidation is believed to decline in several neurological disorders and aging. Importantly, and consistent with the role of persulfidation in signaling, the master antioxidant transcription factor Nrf2 is regulated by Keap1's persulfidation. Here, we demonstrate that pleozymes increased overall protein persulfidation in cells from apparently healthy individuals and from individuals with the mitochondrial protein mutation responsible for Friedreich's ataxia. We further find that pleozymes specifically enhanced Keap1 persulfidation, with subsequent increased accumulation of Nrf2 and Nrf2's antioxidant targets. [ABSTRACT FROM AUTHOR]

Published

2024

4. SOD1 Is an Integral Yet Insufficient Oxidizer of Hydrogen Sulfide in Trisomy 21 B Lymphocytes and Can Be Augmented by a Pleiotropic Carbon Nanozyme.

Author

Mouli, Karthik, Liopo, Anton V., Suva, Larry J., Olson, Kenneth R., McHugh, Emily A., Tour, James M., Derry, Paul J., and Kent, Thomas A.

Subjects

B cells, OXIDATIVE stress, PHENOTYPIC plasticity, HYDROGEN sulfide, DOWN syndrome

Abstract

Down syndrome (DS) is a multisystemic disorder that includes accelerated aging caused by trisomy 21. In particular, overexpression of cystathionine-β-synthase (CBS) is linked to excess intracellular hydrogen sulfide (H2S), a mitochondrial toxin at higher concentrations, which impairs cellular viability. Concurrent overexpression of superoxide dismutase 1 (SOD1) may increase oxidative stress by generating excess hydrogen peroxide (H2O2) while also mitigating the toxic H2S burden via a non-canonical sulfide-oxidizing mechanism. We investigated the phenotypic variability in basal H2S levels in relation to DS B lymphocyte cell health and SOD1 in H2S detoxification. The H2S levels were negatively correlated with the DS B lymphocyte growth rates but not with CBS protein. Pharmacological inhibition of SOD1 using LCS-1 significantly increased the H2S levels to a greater extent in DS cells while also decreasing the polysulfide products of H2S oxidation. However, DS cells exhibited elevated H2O2 and lipid peroxidation, representing potential toxic consequences of SOD1 overexpression. Treatment of DS cells with a pleiotropic carbon nanozyme (pleozymes) decreased the total oxidative stress and reduced the levels of the H2S-generating enzymes CBS and 3-mercaptopyruvate sulfurtransferase (MPST). Our results indicate that pleozymes may bridge the protective and deleterious effects of DS SOD1 overexpression on H2S metabolism and oxidative stress, respectively, with cytoprotective benefits. [ABSTRACT FROM AUTHOR]

Published

2024

5. High-surface-area corundum nanoparticles by resistive hotspot-induced phase transformation

Author

Deng, Bing, Advincula, Paul A., Luong, Duy Xuan, Zhou, Jingan, Zhang, Boyu, Wang, Zhe, McHugh, Emily A., Chen, Jinhang, Carter, Robert A., Kittrell, Carter, Lou, Jun, Zhao, Yuji, Yakobson, Boris I., Zhao, Yufeng, and Tour, James M.

Published

2022

6. Top-down synthesis of graphene nanoribbons using different sources of carbon nanotubes

Author

Wang, Tuo, Wang, Zhe, Salvatierra, Rodrigo V., McHugh, Emily, and Tour, James M.

Published

2020

7. Oxidation of Hydrogen Sulfide to Polysulfide and Thiosulfate by a Carbon Nanozyme: Therapeutic Implications with an Emphasis on Down Syndrome (Adv. Mater. 10/2024)

Author

Derry, Paul J., primary, Liopo, Anton V., additional, Mouli, Karthik, additional, McHugh, Emily A., additional, Vo, Anh T. T., additional, McKelvey, Ann, additional, Suva, Larry J., additional, Wu, Gang, additional, Gao, Yan, additional, Olson, Kenneth R., additional, Tour, James M., additional, and Kent, Thomas A., additional

Published

2024

8. Urban mining by flash Joule heating

Author

Deng, Bing, Luong, Duy Xuan, Wang, Zhe, Kittrell, Carter, McHugh, Emily A., and Tour, James M.

Published

2021

9. Gram-scale bottom-up flash graphene synthesis

Author

Luong, Duy X., Bets, Ksenia V., Algozeeb, Wala Ali, Stanford, Michael G., Kittrell, Carter, Chen, Weiyin, Salvatierra, Rodrigo V., Ren, Muqing, McHugh, Emily A., Advincula, Paul A., Wang, Zhe, Bhatt, Mahesh, Guo, Hua, Mancevski, Vladimir, Shahsavari, Rouzbeh, Yakobson, Boris I., and Tour, James M.

Published

2020

10. Oxidized Activated Charcoal Nanozymes: Synthesis, and Optimization for In Vitro and In Vivo Bioactivity for Traumatic Brain Injury.

Author

McHugh, Emily A., Liopo, Anton V., Mendoza, Kimberly, Robertson, Claudia S., Wu, Gang, Wang, Zhe, Chen, Weiyin, Beckham, Jacob L., Derry, Paul J., Kent, Thomas A., and Tour, James M.

Published

2024

11. Oxidation of Hydrogen Sulfide to Polysulfide and Thiosulfate by a Carbon Nanozyme: Therapeutic Implications with an Emphasis on Down Syndrome

Author

Derry, Paul J., primary, Liopo, Anton V., additional, Mouli, Karthik, additional, McHugh, Emily A., additional, Vo, Anh T. T., additional, McKelvey, Ann, additional, Suva, Larry J., additional, Wu, Gang, additional, Gao, Yan, additional, Olson, Kenneth R., additional, Tour, James M., additional, and Kent, Thomas A., additional

Published

2023

12. Oxidized Activated Charcoal Nanozymes: Synthesis, and Optimization for In Vitro and In Vivo Bioactivity for Traumatic Brain Injury

Author

McHugh, Emily A., primary, Derry, Paul J., additional, Liopo, Anton V., additional, Mendoza, Kimberly, additional, Robertson, Claudia S., additional, Wang, Zhe, additional, Chen, Weiyin, additional, Beckham, Jacob L., additional, Kent, Thomas A., additional, and Tour, James M., additional

Published

2023

13. Chronic exposure to carbon black ultrafine particles reprograms macrophage metabolism and accelerates lung cancer

Author

Chang, Cheng-Yen, primary, You, Ran, additional, Armstrong, Dominique, additional, Bandi, Ashwini, additional, Cheng, Yi-Ting, additional, Burkhardt, Philip M., additional, Becerra-Dominguez, Luis, additional, Madison, Matthew C., additional, Tung, Hui-Ying, additional, Zeng, Zhimin, additional, Wu, Yifan, additional, Song, Lizhen, additional, Phillips, Patricia E., additional, Porter, Paul, additional, Knight, John M., additional, Putluri, Nagireddy, additional, Yuan, Xiaoyi, additional, Marcano, Daniela C., additional, McHugh, Emily A., additional, Tour, James M., additional, Catic, Andre, additional, Maneix, Laure, additional, Burt, Bryan M., additional, Lee, Hyun-Sung, additional, Corry, David B., additional, and Kheradmand, Farrah, additional

Published

2022

14. Turbostratic Boron–Carbon–Nitrogen and Boron Nitride by Flash Joule Heating

Author

Chen, Weiyin, primary, Li, John Tianci, additional, Ge, Chang, additional, Yuan, Zhe, additional, Algozeeb, Wala A., additional, Advincula, Paul A., additional, Gao, Guanhui, additional, Chen, Jinhang, additional, Ling, Kexin, additional, Choi, Chi Hun, additional, McHugh, Emily A., additional, Wyss, Kevin M., additional, Luong, Duy Xuan, additional, Wang, Zhe, additional, Han, Yimo, additional, and Tour, James M., additional

Published

2022

15. Machine Learning Guided Synthesis of Flash Graphene

Author

Beckham, Jacob L., primary, Wyss, Kevin M., additional, Xie, Yunchao, additional, McHugh, Emily A., additional, Li, John Tianci, additional, Advincula, Paul A., additional, Chen, Weiyin, additional, Lin, Jian, additional, and Tour, James M., additional

Published

2022

16. Abstract WP253: Increased Hydrogen Sulfide As A New Mechanism For Hyperglycemic Worsening Of Stroke Outcome

Author

Derry, Paul J, primary, Liopo, Anton, additional, McKelvey, Ann, additional, Vo, Anh, additional, Gnanasekaran, Aswini, additional, McHugh, Emily, additional, Tour, James M, additional, Olson, Kenneth R, additional, and Kent, Thomas, additional

Published

2022

17. Ultrafast and Controllable Phase Evolution by Flash Joule Heating

Author

Chen, Weiyin, primary, Li, John Tianci, additional, Wang, Zhe, additional, Algozeeb, Wala A., additional, Luong, Duy Xuan, additional, Kittrell, Carter, additional, McHugh, Emily A., additional, Advincula, Paul A., additional, Wyss, Kevin M., additional, Beckham, Jacob L., additional, Stanford, Michael G., additional, Jiang, Bo, additional, and Tour, James M., additional

Published

2021

18. High-Resolution Laser-Induced Graphene from Photoresist

Author

Beckham, Jacob L., primary, Li, John Tianci, additional, Stanford, Michael G., additional, Chen, Weiyin, additional, McHugh, Emily A., additional, Advincula, Paul A., additional, Wyss, Kevin M., additional, Chyan, Yieu, additional, Boldman, Walker L., additional, Rack, Philip D., additional, and Tour, James M., additional

Published

2021

19. Abstract P792: Therapeutic Catalytic Nanoantioxidants Derived From Activated Charcoal

Author

Derry, Paul J, primary, McHugh, Emily A, additional, Liopo, Anton V, additional, Vo, Anh T, additional, Gnanasekaran, Aswini, additional, Tour, James M, additional, and Kent, Thomas A, additional

Published

2021

20. Hydrogen Peroxide Generation with 100% Faradaic Efficiency on Metal-Free Carbon Black

Author

Wang, Zhe, primary, Li, Qin-Kun, additional, Zhang, Chenhao, additional, Cheng, Zhihua, additional, Chen, Weiyin, additional, McHugh, Emily A., additional, Carter, Robert A., additional, Yakobson, Boris I., additional, and Tour, James M., additional

Published

2021

21. Bioinspired Redox Mediator in Lithium–Oxygen Batteries

Author

Ren, Muqing, primary, Chen, Jinhang, additional, Wu, Gang, additional, McHugh, Emily A., additional, Tsai, Ah-Lim, additional, and Tour, James M., additional

Published

2021

22. Millisecond Conversion of Metastable 2D Materials by Flash Joule Heating

Author

Chen, Weiyin, primary, Wang, Zhe, additional, Bets, Ksenia V., additional, Luong, Duy Xuan, additional, Ren, Muqing, additional, Stanford, Michael G., additional, McHugh, Emily A., additional, Algozeeb, Wala A., additional, Guo, Hua, additional, Gao, Guanhui, additional, Deng, Bing, additional, Chen, Jinhang, additional, Li, John Tianci, additional, Carsten, William T., additional, Yakobson, Boris I., additional, and Tour, James M., additional

Published

2021

23. Metabolic Signature of Articular Cartilage Following Mechanical Injury: An Integrated Transcriptomics and Metabolomics Analysis

Author

Southan, Jennifer, primary, McHugh, Emily, additional, Walker, Heather, additional, and Ismail, Heba M., additional

Published

2020

24. Word Learning in Two Modalities

Author

McHugh, Emily Anne, primary

Published

2020

25. Alkylative damage of mRNA leads to ribosome stalling and rescue by trans translation in bacteria

Author

Thomas, Erica N, primary, Kim, Kyusik Q, additional, McHugh, Emily P, additional, Marcinkiewicz, Thomas, additional, and Zaher, Hani S, additional

Published

2020

26. Author response: Alkylative damage of mRNA leads to ribosome stalling and rescue by trans translation in bacteria

Author

Thomas, Erica N, primary, Kim, Kyusik Q, additional, McHugh, Emily P, additional, Marcinkiewicz, Thomas, additional, and Zaher, Hani S, additional

Published

2020

27. Flash Graphene Morphologies

Author

Stanford, Michael G., primary, Bets, Ksenia V., additional, Luong, Duy X., additional, Advincula, Paul A., additional, Chen, Weiyin, additional, Li, John Tianci, additional, Wang, Zhe, additional, McHugh, Emily A., additional, Algozeeb, Wala A., additional, Yakobson, Boris I., additional, and Tour, James M., additional

Published

2020

28. Oxidized Activated Charcoal Nanoparticles as Catalytic Superoxide Dismutase Mimetics: Evidence for Direct Participation of an Intrinsic Radical

Author

Wu, Gang, primary, McHugh, Emily A., additional, Berka, Vladimir, additional, Chen, Weiyin, additional, Wang, Zhe, additional, Beckham, Jacob L., additional, Derry, Paul J., additional, Roy, Trenton, additional, Kent, Thomas A., additional, Tour, James M., additional, and Tsai, Ah-Lim, additional

Published

2020

29. Pervasive Genomic Damage in Experimental Intracerebral Hemorrhage: Therapeutic Potential of a Mechanistic-Based Carbon Nanoparticle

Author

Dharmalingam, Prakash, primary, Talakatta, Girish, additional, Mitra, Joy, additional, Wang, Haibo, additional, Derry, Paul J., additional, Nilewski, Lizanne Greer, additional, McHugh, Emily A., additional, Fabian, Roderic H., additional, Mendoza, Kimberly, additional, Vasquez, Velmarini, additional, Hegde, Pavana M., additional, Kakadiaris, Eugenia, additional, Roy, Trenton, additional, Boldogh, Istvan, additional, Hegde, Venkatesh L., additional, Mitra, Sankar, additional, Tour, James M., additional, Kent, Thomas A., additional, and Hegde, Muralidhar L., additional

Published

2020

30. Self-Sterilizing Laser-Induced Graphene Bacterial Air Filter

Author

Stanford, Michael G., primary, Li, John T., additional, Chen, Yuda, additional, McHugh, Emily A., additional, Liopo, Anton, additional, Xiao, Han, additional, and Tour, James M., additional

Published

2019

31. Highly Oxidized Graphene Quantum Dots from Coal as Efficient Antioxidants

Author

Nilewski, Lizanne, primary, Mendoza, Kimberly, additional, Jalilov, Almaz S., additional, Berka, Vladimir, additional, Wu, Gang, additional, Sikkema, William K. A., additional, Metzger, Andrew, additional, Ye, Ruquan, additional, Zhang, Rui, additional, Luong, Duy Xuan, additional, Wang, Tuo, additional, McHugh, Emily, additional, Derry, Paul J., additional, Samuel, Errol Loïc, additional, Kent, Thomas A., additional, Tsai, Ah-Lim, additional, and Tour, James M., additional

Published

2019

32. Catalytic oxidation and reduction reactions of hydrophilic carbon clusters with NADH and cytochrome C: features of an electron transport nanozyme

Author

Derry, Paul J., primary, Nilewski, Lizanne G., additional, Sikkema, William K. A., additional, Mendoza, Kimberly, additional, Jalilov, Almaz, additional, Berka, Vladimir, additional, McHugh, Emily A., additional, Tsai, Ah-Lim, additional, Tour, James M., additional, and Kent, Thomas A., additional

Published

2019

33. Oxidized Activated Charcoal Nanoparticles as Catalytic Superoxide Dismutase Mimetics: Evidence for Direct Participation of an Intrinsic Radical.

Author

Gang Wu, McHugh, Emily A., Berka, Vladimir, Weiyin Chen, Zhe Wang, Beckham, Jacob L., Derry, Paul J., Roy, Trenton, Kent, Thomas A., Tour, James M., and Ah-Lim Tsai

Published

2020

34. Application of validated size-exclusion chromatography method for physicochemical characterization of topical gel formulation of deferoxamine conjugated with PEGylated carbon nanoparticles.

Author

Khan, Adnan A., Mohamed, Eman M., Kashif Iqubal, Mohammad, Tour, James M., McHugh, Emily A., Chang, David F., Cooke, John P., Rahman, Ziyaur, and Kent, Thomas A.

Subjects

*GEL permeation chromatography, *FACTORIAL experiment designs, *DEFEROXAMINE, *NANOPARTICLES, *IMMUNOFLUORESCENCE

Abstract

[Display omitted] The focus of current research work was to develop and validate size-exclusion chromatography method and develop and evaluate gel formulation of deferoxamine conjugated with PEGylated carbon nanoparticles (DEF-PEG-CNP) for topical delivery. Size-exclusion chromatography-based method was validated as per ICH guidelines. Effect of Carbopol® 974P and Transcutol® on the nanoparticles' permeation was studied by 3-level full factorial design of experiment. Gel formulations were characterized for viscosity, cohesive and adhesive force by texture analyzer, and drug permeation through pig ear and human skin. The analytical method was specific as no interference from solvent or excipients were observed and met preset criteria of validation with limit of quantification of 0.24 ± 0.00 μg/mL. The nanoparticles permeation, steady state flux, and retained drug were statistically (p < 0.05) affected by Carbopol® 974P and Transcutol® percentage in the gel formulations. The permeation, steady state flux, and retained nanoparticles from the gel formulations varied from 23.2 ± 2.5 % to 70.9 ± 113.3 %, 0.8 ± 0.3 to 6.6 ± 2.1 μg/cm2.h, and 5.6 ± 0.3 to 38.8 ± 8.8 µg/g, respectively. Permeation of the nanoparticles was 1.9 folds higher in pig skin compared to human skin. Immunofluorescence detected successful permeation of DEF-PEG-CNP particles into skin. In conclusion, the analytical method can quantify the nanoparticles from the gel formulation without interference, and gel formulation of the nanoparticles can permeate across the skin. [ABSTRACT FROM AUTHOR]

Published

2024

35. Chronic exposure to carbon black ultrafine particles reprograms macrophage metabolism and accelerates lung cancer.

Author

Cheng-Yen Chang, Ran You, Armstrong, Dominique, Bandi, Ashwini, Yi-Ting Cheng, Burkhardt, Philip M., Becerra-Dominguez, Luis, Madison, Matthew C., Hui-Ying Tung, Zhimin Zeng, Yifan Wu, Lizhen Song, Phillips, Patricia E., Porter, Paul, Knight, John M., Putluri, Nagireddy, Xiaoyi Yuan, Marcano, Daniela C., McHugh, Emily A., and Tour, James M.

Subjects

*MACROPHAGE colony-stimulating factor, *MOLECULAR biology, *MACROPHAGES, *CARBON-black, *MYELOID-derived suppressor cells, *CYTOLOGY, *LUNG cancer

Abstract

The article presents a study which showed that exposure to carbon black ultrafine (nCB) particles increased PD-L1+ PD-L2+ CD206+ antigen-presenting cells (APCs), exhausted T cells, and Treg cells. Topics discussed include findings on lung macrophages that harbored nCB particles, effects of adoptive transfer of lung APCs from nCB-exposed wild type to susceptible mice, and mass cytometry staining, data acquisition, and analysis.

Published

2022

36. Oxidized Carbon Nanoparticles Enhance Cellular Energetics With Application to Injured Brain.

Author

Mouli K, Liopo AV, McHugh EA, Underwood E, Zhao J, Dash PK, Vo ATT, Malojirao V, Hegde M, Tour JM, Derry PJ, and Kent TA

Abstract

Pro-energetic effects of functionalized, oxidized carbon nanozymes (OCNs) are reported. OCNs, derived from harsh acid oxidation of single-wall carbon nanotubes or activated charcoal are previously shown to possess multiple nanozymatic activities including mimicking superoxide dismutase and catalyzing the oxidation of reduced nicotinamide adenine dinucleotide (NADH) to NAD + . These actions are predicted to generate a glycolytic shift and enhance mitochondrial energetics under impaired conditions. Impaired mitochondrial energy metabolism is increasingly recognized as an important facet of traumatic brain injury (TBI) pathophysiology and decreases the efficiency of electron transport chain (ETC)-coupled adenosine triphosphate (ATP) and NAD + regeneration. In vitro, OCNs promote a pro-aerobic shift in energy metabolism that persists through ETC inhibition and enhances glycolytic flux, glycolytic ATP production, and cellular generation of lactate, a crucial auxiliary substrate for energy metabolism. To address specific mechanisms of iron injury from hemorrhage, OCNs with the iron chelator, deferoxamine (DEF), covalently-linked were synthesized. DEF-linked OCNs induce a glycolytic shift in-vitro and in-vivo in tissue sections from a rat model of TBI complicated by hemorrhagic contusion. OCNs further reduced hemorrhage volumes 3 days following TBI. These results suggest OCNs are promising as pleiotropic mediators of cell and tissue resilience to injury., (© 2024 The Author(s). Advanced Healthcare Materials published by Wiley‐VCH GmbH.)

Published

2024