Your search keyword '"JZ Hu"' showing total 195 results

1. 1H NMR Metabolomics Study of Spleen from C57BL/6 Mice Exposed to Gamma Radiation

Author

X, Xiao, primary, M, Hu, additional, M, Liu, additional, and JZ, Hu, additional

Published

2016

2. DNP Study on Doping Organic Samples with Stable Free Radicals

Author

LY Li, JQ Qin, JZ Hu, JW Zhou, JW Feng, CH Ye, and BL Yang

Subjects

Chemistry, Radical, Physics::Medical Physics, Doping, Analytical chemistry, Condensed Matter::Strongly Correlated Electrons, Physical and Theoretical Chemistry

Abstract

The DNP-enhanced NMR experiment was performed on the DBF samples doped with free radicals. The experimental results show that it becomes very easy to perform the complicate NMR experiments under DNP enhancement.. For the sample whose spill lattice relaxation is very slow, if it is doped with appropriate quantity free radicals.

Published

1998

3. Abstracts from the sixth meeting of the international association of pancreatology, November 2–4, 1994, Chicago, IL

Author

Michael Burdick, Tony Hollingsworth, S. Gansauge, F. Gansauge, K. H. Link, M. H. Schoenberg, B. Poch, H. G. Beger, A. C. C. Wagner, H. Steffen, B. Göke, H. Y. Gaisano, L. Sheu, J. K. Foskett, W. S. Trimble, Y. L. Lee, H. Y. Kwon, H. S. Park, S. M. Lee, H. J. Park, S. aguchi, G. M. Green, K. Mitamura, Y. Komatsu, I. Arai, H. Yamaura, OJ Wang, TE Adrian, S. Teyssen, W. Niebel, E. Niebergall, M. V. Singer, K Umehara, T Ohara, K Kataoka, H Okamura, M Kato, J Sakagami, A Ohta, M Murase, M Hosoda, Y Yamane, K Kashima, Y Ibata, Emil J. Balthazar, P. A. Banks, S. G. Garzof, R. E. Langevin, S. G. Silverman, G. T. Sica, C. Bassi, A. Benini, A. Muner, M. Falconi, H. Abbas, P. Pederzoli, R. Salvia, E. Bertazzoni Minelli, S. Shanmuga Shaskar, M. G. Shearer, C. W. Imrie, G. J. Brodmerkel, P. A. Reed, DL Carr-Locke, A Musa, DR Lichtenstein, J Van Dam, PA Banks, S. Eisele, M. Böchjer, Th. Foitzik, C. Fern’andez-del Castillo, D. W. Rattner, M. J. Ferraro, A. L. Warshaw, J. Schmidt, H. Hotz, H. J. Buhr, E. Klar, A. Heinisch, R. Kadow, U. Bioss, J. Schölmerich, H. Zimgibl, H. -G. Leser, G. Manes, P. G. Rabitti, M. Laccetti, A. Cavallera, L. Paceili, G. Gagiione, G. Uomo, A. Marinqhini, A. R. Zinsmeister, L. J. Melton, E. P. DiMagno, F. Marotta, D. H. Chui, G. Barbi, G. G. Zhong, H. Tajiri, O. Bellini, C McKay, J. N. Baxter, K. Mithöfer, C. Fern’andez-delCastillo, T. W. Frick, K. Lewandrowski, R. Pezzilli, P. Billi, R. Miniero, L. Gullo, B. Barakat, M. Migliuli, B. Rau, M. Schad, M. Schoenberg, F. Richter, R. Matthias, M Imoto, T Ashihara, D Schofield, NM Sharer, KM Heywood, HM Waters, JM Braganza, P Scott, D Bilton, D Deardon, S Lee, PM Taylor, RF McCloy, J. Shen, H. Shao, Z. P. Wu, J. J. Jin, N Shiel, O Cassidy, H Sharma, J. M. Braganza, F. Soöckmann, J. Ahrens, U. Leonhardt, J. Otto, U. Ritzel, G. Ramadori, Fuzhou Tian, JZ Hu, DR Huang, XH Wang, HW Lian, BY Zhang, JG Miao, Xu Li, HT Zhou, P. Esposico, F. Perrocti, M. Visconci, M. I. Vaccaro, M. A. Dagrosa, M. I. Mora, D. O. Sordelli, W. Vogt, H. MeOmann, A. Linseis, A. Holstege, M. R. Weiser, S. A. L. Gibbs, H. B. Hechcman, F. D. Moore, H. V. Worthington, L. P. Runt, R. F. HcCloy, I. A. KacLennan, J. M. Braqanza, D Heath, D Alexander, C Wilson, M Larvin, CW Imrie, MJ McMahon, J Ward, PJ Robinson, AG Chalmers, M Apte, J Wilson, G McCaughan, M Korsten, I Norton, R Piroia, D. Bimmler, G. A. Scheele, Dale E. Bockman, Markus Büchler, Hans G. Beger, G. Cavallini, M. P. Brunori, L. Rigo, P. Bovo, M. Filippini, B. Vaona, V. Di Francesco, L. Frulloni, M. Marcori, P. C. Farri, M. T. Laardini, Riaz Chowdhury, Koji Ochi, Takaaki Mizushima, Tetsuya Tsurumi, Hideo Harada, P. Laver, J. J. Hoist, M. v. d. Ohe, H. Goebell, A. Mi Zumoto, M. G. Sarr, R. Moore, C. F. Frey, H. T. Debas, S. J. Mulvihill, S. Onizuka, H. Kuroda, Y. Kuroda, H. Hongo, S. Matsuzaki, M. Ito, L. Sekine, T. Tsunoda, ’A. Pap, V. Hrisztov, E. Marosi, K. Simon, T. Tak’acs, A. Bonora, G. Talamini, R. Saivia, L. Benini, E. Caldiron, S. Vesentini, Isaac Raijman, Paul Kortan, Gregory B. Haber, H Ramesh, CJ Varghese, PM Kay, T Bottiglieri, S Uden, A Gut, I Segal, C Snehalatha, V Mohan, E. Silva, R. Ceneviva, M. A. L. Velludo, E. Silvan, B. Ruebner, J. E. S. Roselino, M. C. Foss, G. Talaraini, M. Falcaoi, L Frmlltai, V. K Fraacesca, M. Maxwi, B. Vaosa, P. Baro, C. Baxu, P. Pedercoli, G. Cavalliai, G. Taiamini, C. Iacano, M. Faicsai, L. Rige, A. Castagnisi, G. Angelini, P. Bom, B. Vaoss, I. Vantini, G. Sen, P. Pederzali, B Štimee, M Bulajič, T Milosavljevi’c, R Krsti’c, M Markovi’c, V Korneti, M Ugljcš’c, IL Abruzzesse, DB Evans, L Larry, T King, I Raijman, L Roubein, M Frazier, C. lacono, E. Faca, G. Falezza, E. Bonora, PP Aurola, G. Serio, N. Nicoli, G. C. Mansueto, M. Zicari, L. Marchiori, G. Mangiante, G. Seno, M. Imarnura, H. Yamauchi, M. Inoue, M. Onda, E. UchlDa, T. Almqtq, Y. Yamanaka, T. Kqbayashi, T. Yokqyama, K. Aida, K. Sasajima, T. Tajiri, K. Egami, K. Yamashita, Z. Naitq, G. Asano, K. B. Lewandrowski, R. E. Kirby, J. F. Southern, C. C. Compton, J Lip, L Strömmer, J Permert, J Larsson, E. V. Loftus, M. C. Adkins, B. Olivares-Pakzad, K. P. Batts, D. H. Stephens, M. B. Farnell, H. G. Sarr, G. B. Thompson, J. A. van Heerden, D. G. Kelly, L. J. Miller, R. K. Pearson, J. E. Clain, B. T. Petersen, Cancer S. Matsumoto, R. Chowdhury, T. Mizushima, K. Ochi, H. Harada, H. Miki, Hnsan Ozkan, Hiromitsu Saisho, Taketo Yarnaguchi, Takeshi Ishihara, Yasuharu Kikuchi, Toshio Tsuyuguchi, Masao Ohto, C. Pasqual, C. Sperti, G. Liesai, M. Guido, S. Pedrazzoli, C. Pasquali, E. Khajeturian, P. Guolo, H. Tadokoro, S. Watanabe, Y. Moriyoshi, K. Yoshida, K. Shiratori, T. Takeuchi, E. Uchida, T. Kobayashi, T. Aimoto, T. Yokoyama, Z. Naito, M. A. Valentich, B. Monis, N. N. Barotto, and P. Herrera

Subjects

medicine.medical_specialty, Endocrinology, Oncology, business.industry, Family medicine, Gastroenterology, medicine, business

Published

1994

4. Coronary Microvascular Dysfunction Is Associated With Augmented Lysosomal Signaling in Hypercholesterolemic Mice.

Author

Wang YT, Moura AK, Zuo R, Zhou W, Wang Z, Roudbari K, Hu JZ, Li PL, Zhang Y, and Li X

Subjects

Animals, Male, Mice, Ezetimibe pharmacology, Anticholesteremic Agents pharmacology, Cells, Cultured, Endothelial Cells metabolism, Endothelial Cells drug effects, Endothelial Cells pathology, Reactive Oxygen Species metabolism, Hypercholesterolemia complications, Hypercholesterolemia physiopathology, Hypercholesterolemia metabolism, Signal Transduction, Lysosomes metabolism, Coronary Vessels physiopathology, Coronary Vessels metabolism, Coronary Vessels drug effects, Coronary Circulation drug effects, Microcirculation drug effects, Disease Models, Animal, Mice, Inbred C57BL

Abstract

Background: Accumulating evidence indicates that coronary microvascular dysfunction (CMD) caused by hypercholesterolemia can lead to myocardial ischemia, with or without obstructive atherosclerotic coronary artery disease. However, the molecular pathways associated with compromised coronary microvascular function before the development of myocardial ischemic injury remain poorly defined. In this study, we investigated the effects of hypercholesterolemia on the function and integrity of the coronary microcirculation in mice and the underlying mechanisms., Methods and Results: Mice were fed a hypercholesterolemic Paigen's diet for 8 weeks. Echocardiography data showed that Paigen's diet caused CMD, characterized by significant reductions in coronary blood flow and coronary flow reserve, but did not affect cardiac remodeling or dysfunction. Immunofluorescence studies revealed that Paigen's diet-induced CMD was associated with activation of coronary arterioles inflammation and increased myocardial inflammatory cell infiltration. These pathological changes occurred in parallel with the upregulation of lysosomal signaling pathways in endothelial cells (ECs). Treating hypercholesterolemic mice with the cholesterol-lowering drug ezetimibe significantly ameliorated Paigen's diet-induced adverse effects, including hypercholesterolemia, steatohepatitis, reduced coronary flow reserve, coronary endothelial cell inflammation, and myocardial inflammatory cell infiltration. In cultured mouse cardiac ECs, 7-ketocholesterol increased mitochondrial reactive oxygen species and inflammatory responses. Meanwhile, 7-ketocholesterol induced the activation of transcriptional factor EB and lysosomal signaling in mouse cardiac ECs, whereas the lysosome inhibitor bafilomycin A1 blocked 7-ketocholesterol-induced transcriptional factor EB activation and exacerbated 7-ketocholesterol-induced inflammation and cell death. Interestingly, ezetimibe synergistically enhanced 7-ketocholesterol-induced transcriptional factor EB activation and attenuated 7-ketocholesterol-induced mitochondrial reactive oxygen species and inflammatory responses in mouse cardiac ECs., Conclusions: These results suggest that CMD can develop and precede detectable cardiac functional or structural changes in the setting of hypercholesterolemia and that upregulation of transcriptional factor EB-mediated lysosomal signaling in endothelial cells plays a protective role against CMD.

Published

2024

5. [Retracted] SOX2 knockdown inhibits the migration and invasion of basal cell carcinoma cells by targeting the SRPK1‑mediated PI3K/AKT signaling pathway.

Author

Li ZR, Jiang Y, Hu JZ, Chen Y, and Liu QZ

Abstract

[This retracts the article DOI: 10.3892/ol.2018.9810.]., (Copyright: © 2024 Li et al.)

Published

2024

6. From Bulk to Interface: Solvent Exchange Dynamics and Their Role in Ion Transport and the Interfacial Model of Rechargeable Magnesium Batteries.

Author

Chen Y, Atwi R, Nguyen DT, Bazak JD, Hahn NT, Ryu J, Sears JA, Han KS, Song M, Li Z, Karkamkar AJ, Hu JZ, Zavadil KR, Rajput NN, Mueller KT, and Murugesan V

Abstract

Multivalent battery chemistries have been explored in response to the increasing demand for high-energy rechargeable batteries utilizing sustainable resources. Solvation structures of working cations have been recognized as a key component in the design of electrolytes; however, most structure-property correlations of metal ions in organic electrolytes usually build upon favorable static solvation structures, often overlooking solvent exchange dynamics. We here report the ion solvation structures and solvent exchange rates of magnesium electrolytes in various solvents by using multimodal nuclear magnetic resonance (NMR) analysis and molecular dynamics/density functional theory (MD/DFT) calculations. These magnesium solvation structures and solvent exchange dynamics are correlated to the combined effects of several physicochemical properties of the solvents. Moreover, Mg 2+ transport and interfacial charge transfer efficiency are found to be closely correlated to the solvent exchange rate in the binary electrolytes where the solvent exchange is tunable by the fraction of diluent solvents. Our primary findings are (1) most battery-related solvents undergo ultraslow solvent exchange coordinating to Mg 2+ (with time scales ranging from 0.5 μs to 5 ms), (2) the cation transport mechanism is a mixture of vehicular and structural diffusion even at the ultraslow exchange limit (with faster solvent exchange leading to faster cation transport), and (3) an interfacial model wherein organic-rich regions facilitate desolvation and inorganic regions promote Mg 2+ transport is consistent with our NMR, electrochemistry, and cryogenic X-ray photoelectron spectroscopy (cryo-XPS) results. This observed ultraslow solvent exchange and its importance for ion transport and interfacial properties necessitate the judicious selection of solvents and informed design of electrolyte blends for multivalent electrolytes.

Published

2024

7. Confined dual Lewis acid centers for selective cascade C-C coupling and deoxygenation.

Author

Li H, Pang J, Hu W, Caballero V, Sun J, Tan M, Hu JZ, Ni Y, and Wang Y

Abstract

The selective formation of C-C bonds, coupled with effective removal of oxygen, plays a crucial role in the process of upgrading biomass-derived oxygenates into fuels and chemicals. However, co-feeding reactants with water is sometimes necessary to assist binding sites in catalytic reactions, thereby achieving desirable performance. Here, we report the design of a CeSnBeta catalyst featuring dual Lewis acidic sites for the efficient production of isobutene from acetone via C-C coupling followed by deoxygenation. By incorporating Ce species onto SnBeta, which was synthesized through liquid-phase grafting of dealuminated Beta, we created confined dual Lewis acidic centers within Beta zeolites. The cooperative action of Ce species and framework Sn sites within this confined environment enabled selective catalysis of the acetone-to-isobutene cascade reactions, showcasing enhanced stability even without the presence of water., Competing Interests: The authors declare no competing financial interest., (This journal is © The Royal Society of Chemistry.)

Published

2024

8. Asparagine reduces the risk of schizophrenia: a bidirectional two-sample mendelian randomization study of aspartate, asparagine and schizophrenia.

Author

Liu HH, Gao Y, Xu D, Du XZ, Wei SM, Hu JZ, Xu Y, and Sha L

Subjects

Humans, Aspartic Acid genetics, Genome-Wide Association Study, Mendelian Randomization Analysis, Prospective Studies, Asparagine genetics, Schizophrenia genetics

Abstract

Background: Despite ongoing research, the underlying causes of schizophrenia remain unclear. Aspartate and asparagine, essential amino acids, have been linked to schizophrenia in recent studies, but their causal relationship is still unclear. This study used a bidirectional two-sample Mendelian randomization (MR) method to explore the causal relationship between aspartate and asparagine with schizophrenia., Methods: This study employed summary data from genome-wide association studies (GWAS) conducted on European populations to examine the correlation between aspartate and asparagine with schizophrenia. In order to investigate the causal effects of aspartate and asparagine on schizophrenia, this study conducted a two-sample bidirectional MR analysis using genetic factors as instrumental variables., Results: No causal relationship was found between aspartate and schizophrenia, with an odds ratio (OR) of 1.221 (95%CI: 0.483-3.088, P-value = 0.674). Reverse MR analysis also indicated that no causal effects were found between schizophrenia and aspartate, with an OR of 0.999 (95%CI: 0.987-1.010, P-value = 0.841). There is a negative causal relationship between asparagine and schizophrenia, with an OR of 0.485 (95%CI: 0.262-0.900, P-value = 0.020). Reverse MR analysis indicates that there is no causal effect between schizophrenia and asparagine, with an OR of 1.005(95%CI: 0.999-1.011, P-value = 0.132)., Conclusion: This study suggests that there may be a potential risk reduction for schizophrenia with increased levels of asparagine, while also indicating the absence of a causal link between elevated or diminished levels of asparagine in individuals diagnosed with schizophrenia. There is no potential causal relationship between aspartate and schizophrenia, whether prospective or reverse MR. However, it is important to note that these associations necessitate additional research for further validation., (© 2024. The Author(s).)

Published

2024

9. Gout Affecting the Nail Unit: Report of Two Cases and Literature Review.

Author

Hu JZ, Jellinek NJ, and Hinshaw MA

Abstract

Background: Gout is a depositional, inflammatory disorder that is rarely reported to affect the nail unit. Cases of gout involving the nail unit are likely under-recognized and therefore underreported. We present two cases of tophaceous gout affecting the nail unit and a literature review of the various presentations., Summary: Five cases of gout were identified to affect the nail unit. In all cases, these presented as white hyperkeratotic papulonodules with associated nail dystrophy. Chalky discharge was seen in three of the five cases. Nine cases were identified to have demonstrated pseudocarcinomatous changes that histopathologically mimic squamous cell carcinoma (SCC). Literature review highlights a range of findings including subclinical deposits of uric acid in the nail, onychoschizia, onychorrhexis, and Beau's line., Key Messages: Physicians should be aware of the subtle and nonspecific clinical findings of gout, which may be easily misconstrued for other pathological entities., Competing Interests: The authors declare that there is no conflict of interest., (© 2023 The Author(s). Published by S. Karger AG, Basel.)

Published

2024

10. Electrolyte Reactivity on the MgV 2 O 4 Cathode Surface.

Author

Jeong H, Nguyen DT, Yang Y, Buchholz DB, Evmenenko G, Guo J, Yang F, Redfern PC, Hu JZ, Mueller KT, Klie R, Murugesan V, Connell J, Prabhakaran V, and Cheng L

Abstract

Predictive understanding of the molecular interaction of electrolyte ions and solvent molecules and their chemical reactivity on electrodes has been a major challenge but is essential for addressing instabilities and surface passivation that occur at the electrode-electrolyte interface of multivalent magnesium batteries. In this work, the isolated intrinsic reactivities of prominent chemical species present in magnesium bis(trifluoromethanesulfonimide) (Mg(TFSI) 2 ) in diglyme (G2) electrolytes, including ionic (TFSI - , [Mg(TFSI)] + , [Mg(TFSI):G2] + , and [Mg(TFSI):2G2] + ) as well as neutral molecules (G2) on a well-defined magnesium vanadate cathode (MgV 2 O 4 ) surface, have been studied using a combination of first-principles calculations and multimodal spectroscopy analysis. Our calculations show that nonsolvated [Mg(TFSI)] + is the strongest adsorbing species on the MgV 2 O 4 surface compared with all other ions while partially solvated [Mg(TFSI):G2] + is the most reactive species. The cleavage of C-S bonds in TFSI - to form CF 3 - is predicted to be the most desired pathway for all ionic species, which is followed by the cleavage of C-O bonds of G2 to yield CH 3 + or OCH 3 - species. The strong stabilization and electron transfer between ionic electrolyte species and MgV 2 O 4 is found to significantly favor these decomposition reactions on the surface compared with intrinsic gas-phase dissociation. Experimentally, we used state-of-the-art ion soft landing to selectively deposit mass-selected TFSI - , [Mg(TFSI):G2] + , and [Mg(TFSI):2G2] + on a MgV 2 O 4 thin film to form a well-defined electrolyte-MgV 2 O 4 interface. Analysis of the soft-landed interface using X-ray photoelectron, X-ray absorption near-edge structure, electron energy-loss spectroscopies, as well as transmission electron microscopy confirmed the presence of decomposition species (e.g., MgF x , carbonates) and the higher amount of MgF x with [Mg(TFSI):G2] + formed in the interfacial region, which corroborates the theoretical observation. Overall, these results indicate that Mg 2+ desolvation results in electrolyte decomposition facilitated by surface adsorption, charge transfer, and the formation of passivating fluorides on the MgV 2 O 4 cathode surface. This work provides the first evidence of the primary mechanisms leading to electrolyte decomposition at high-voltage oxide surfaces in multivalent batteries and suggests that the design of new, anodically stable electrolytes must target systems that facilitate cation desolvation.

Published

2023

11. Causality of occupational exposure on rheumatoid arthritis and ankylosing spondylitis: a two-sample mendelian randomization study.

Author

Du K, Zhang CY, Li A, Hu JZ, Guo R, and Li SM

Subjects

Humans, Genome-Wide Association Study, Mendelian Randomization Analysis, Spondylitis, Ankylosing etiology, Spondylitis, Ankylosing genetics, Arthritis, Rheumatoid etiology, Arthritis, Rheumatoid genetics, Occupational Exposure adverse effects

Abstract

Objective: This study aimed to explore the potential causal link between three specific types of occupational exposure on rheumatoid arthritis (RA) and ankylosing spondylitis (AS)., Method: A Two-sample Mendelian randomization (TSMR) analysis, comprising univariate MR (UVMR) and multivariate MR (MVMR) analyses, was performed to investigate the potential causal association between three types of occupational exposures, jobs involving mainly walking or standing (JWS), jobs involving heavy manual or physical work (JMP), and jobs involving shift work(JSW) on RA and AS. Genetic variants for genome-wide association studies (GWAS) of occupational exposure and AS were obtained from the UK Biobank. GWAS summary data for RA were obtained from FinnGen Biobank analysis. For UVMR, six methods of Inverse Variance Weighted (IVW), MR-Egger, Weighted Mode, Weighted Median, Simple Mode, MR pleiotropy residual sum, and outlier (MR-PRESSO) were used for the analysis. The MVMR was analyzed using the IVW model as well as the MR-Egger model., Results: The UVMR suggested no causal relationship between the three occupational exposure and RA [IVW: P=0.59,0.21,0.63] or AS [IVW: P=0.43,0.57,0.04], as did the bidirectional MR [IVW: P=0.73,0.70,0.16], [IVW: P=0.65,0.68,0.74]. Although unadjusted MVMR suggested a causal relationship between JMP and AS [IVW: OR = 1.01, 95% CI = 1.00- 1.02, p = 0.02], the adjusted MVMR denied this relationship and concluded that there was no causal relationship between the other occupational exposure and either RA or AS., Conclusion: Our MR analysis did not establish a direct causal relationship between certain occupational exposures and either RA or AS., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Du, Zhang, Li, Hu, Guo and Li.)

Published

2023

12. Two new dihydro- β -agarofuran sesquiterpenes from the roots of Celastrus angulatus .

Author

Tang J, Hu JZ, Chen YL, Zhao TT, Chen TX, and Hu CG

Abstract

Two new dihydro- β -agarofuran sesquiterpenes chiapen T ( 1 ) and chiapen U ( 2 ), along with chiapen A ( 3 ), 1 β -hydroxy-2 β ,6 α ,12-triacetoxy-8 β -( β -nicotinoyloxy)-9 β -(benzoyloxy)- β -dihydroagarofuran ( 4 ), wilforlide B ( 5 ), 3-hydroxy-2-oxo-3-friedelen-29-oic acid ( 6 ), epikatonic acid ( 7 ), 22-epi-maytenfolic acid ( 8 ), maytenoic acid ( 9 ), wilforic acid F ( 10 ), wilforic acid B ( 11 ), were reported for the first time from the Celastrus angulatus . The structures of all the compounds were elucidated by HR-ESI-MS, 1 D and 2 D NMR spectra, as well as single-crystal X-ray diffraction analyses. Compounds 1 and 2 were examined for anti-inflammatory activity, respectively. None of them showed potent activity.

Published

2023

13. Metformin promotes angiogenesis and functional recovery in aged mice after spinal cord injury by adenosine monophosphate-activated protein kinase/endothelial nitric oxide synthase pathway.

Author

Zhao JY, Sheng XL, Li CJ, Qin T, He RD, Dai GY, Cao Y, Lu HB, Duan CY, and Hu JZ

Abstract

Treatment with metformin can lead to the recovery of pleiotropic biological activities after spinal cord injury. However, its effect on spinal cord injury in aged mice remains unclear. Considering the essential role of angiogenesis during the regeneration process, we hypothesized that metformin activates the adenosine monophosphate-activated protein kinase/endothelial nitric oxide synthase pathway in endothelial cells, thereby promoting microvascular regeneration in aged mice after spinal cord injury. In this study, we established young and aged mouse models of contusive spinal cord injury using a modified Allen method. We found that aging hindered the recovery of neurological function and the formation of blood vessels in the spinal cord. Treatment with metformin promoted spinal cord microvascular endothelial cell migration and blood vessel formation in vitro. Furthermore, intraperitoneal injection of metformin in an in vivo model promoted endothelial cell proliferation and increased the density of new blood vessels in the spinal cord, thereby improving neurological function. The role of metformin was reversed by compound C, an adenosine monophosphate-activated protein kinase inhibitor, both in vivo and in vitro, suggesting that the adenosine monophosphate-activated protein kinase/endothelial nitric oxide synthase pathway likely regulates metformin-mediated angiogenesis after spinal cord injury. These findings suggest that metformin promotes vascular regeneration in the injured spinal cord by activating the adenosine monophosphate-activated protein kinase/endothelial nitric oxide synthase pathway, thereby improving the neurological function of aged mice after spinal cord injury., Competing Interests: None

Published

2023

14. The lymphatic system: a therapeutic target for central nervous system disorders.

Author

Xu JQ, Liu QQ, Huang SY, Duan CY, Lu HB, Cao Y, and Hu JZ

Abstract

The lymphatic vasculature forms an organized network that covers the whole body and is involved in fluid homeostasis, metabolite clearance, and immune surveillance. The recent identification of functional lymphatic vessels in the meninges of the brain and the spinal cord has provided novel insights into neurophysiology. They emerge as major pathways for fluid exchange. The abundance of immune cells in lymphatic vessels and meninges also suggests that lymphatic vessels are actively involved in neuroimmunity. The lymphatic system, through its role in the clearance of neurotoxic proteins, autoimmune cell infiltration, and the transmission of pro-inflammatory signals, participates in the pathogenesis of a variety of neurological disorders, including neurodegenerative and neuroinflammatory diseases and traumatic injury. Vascular endothelial growth factor C is the master regulator of lymphangiogenesis, a process that is critical for the maintenance of central nervous system homeostasis. In this review, we summarize current knowledge and recent advances relating to the anatomical features and immunological functions of the lymphatic system of the central nervous system and highlight its potential as a therapeutic target for neurological disorders and central nervous system repair., Competing Interests: None

Published

2023

15. Dynamic ultrasound for evaluating the adequacy of median nerve decompression following minimally invasive carpal tunnel release: technical innovation and case study.

Author

Chen CH, Jaw FS, Hu JZ, Wu WT, and Chang KV

Abstract

Background: Minimally invasive carpal tunnel release has recently emerged as the primary surgical approach for recalcitrant carpal tunnel syndrome. A major concern related to surgical failure with this technique is the incomplete release of the flexor retinaculum., Case Presentation: We developed a technique using dynamic ultrasound for evaluating the adequacy of median nerve decompression following minimally invasive carpal tunnel release. This novel imaging method was applied to two patients who showed significant symptom relief after the intervention. This case study also provides details of the dynamic ultrasound protocol and highlights the advantages of this technique., Conclusion: Dynamic ultrasound imaging can be used to confirm the completeness of carpal tunnel decompression . A large-scale prospective trial should be conducted to validate whether additional dynamic ultrasound examination can improve the outcome of minimally invasive carpal tunnel release., Competing Interests: The authors declare no competing interests., (© 2023 The Authors.)

Published

2023

16. Predictive Value of Flank Pain and Gross Hematuria on Long-Term Survival in Patients With Upper Tract Urothelial Carcinoma Treated by Radical Nephroureterectomy.

Author

Sun KN, Wu JH, Chen ZH, He YJ, Chen YL, Hu JZ, and Sheng L

Abstract

Background: Assessing the prognosis preoperatively in patients with upper tract urothelial carcinoma (UTUC) remains a challenge for urologists. Gross hematuria (GH) and flank pain (FP) are the 2 most common and easily perceived symptoms of UTUC. Therefore, we aimed to investigate the prognostic values of GH and FP in patients with UTUC after undergoing radical nephroureterectomy (RNU)., Methods: This article retrospectively analyzed 179 patients with UTUC who underwent RNU and examined the associations between the FP, GH, and long-term survival. After dividing patients into 4 subgroups (presenting as GH without FP, FP without GH, no FP and GH, FP with GH), we focused on the prognostic values of the 4 subgroups using univariate and multivariate analyses. We then proposed a risk stratification model for UTUC based on the independent prognostic factors for cancer-specific survival (CSS) with external validation (146 additional UTUC patients formed the validation cohort)., Results: Patients with FP had worse oncological outcomes than those without FP ( P < .05). After dividing the 179 patients into 4 subgroups, the "FP without GH" subgroup suffered the worst oncological outcomes ( P < .001). The Cox multivariate regression analysis showed that "FP without GH" ( P < .001), tumor multifocality ( P = .005), and pathological stage ( P = .004) were independent prognostic factors for CSS. Good performance of the risk stratification model was achieved in both the training and external validation cohorts., Conclusion: The presence of "flank pain without gross hematuria" was one of the independent risk factors of CSS and OS besides the pathological stage and tumor multifocality. To our knowledge, this is the first study that adding complaint to risk stratification model in UTUC., Competing Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2023.)

Published

2023

17. Elucidation of the Roles of Water on the Reactivity of Surface Intermediates in Carboxylic Acid Ketonization on TiO 2 .

Author

Lin F, Hu W, Jaegers NR, Gao F, Hu JZ, Wang H, and Wang Y

Subjects

Titanium chemistry, Acetic Acid chemistry, Gases, Carboxylic Acids, Water chemistry

Abstract

The effects of water on the carboxylic acid ketonization reaction over solid Lewis-acid catalysts were examined by nuclear magnetic resonance (NMR) spectroscopy, diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS), temperature-programmed desorption (TPD), and kinetic measurements. Acetic acid and propanoic acid were used as model compounds, and P25 TiO 2 was used as a model catalyst to represent the anatase TiO 2 since the rutile phase only contributes to <2.5% of the overall ketonization activity of P25 TiO 2 . The kinetic measurement showed that introducing H 2 O vapor in gaseous feed decreases the ketonization reaction rate by increasing the intrinsic activation barrier of gas-phase acetic acid on anatase TiO 2 . Quantitative TPD of acetic acid indicated that H 2 O does not compete with acetic acid for Lewis sites. Instead, as indicated by combined approaches of NMR and DRIFTS, H 2 O associates with the adsorbed acetate or acetic acid intermediates on the catalyst surface and alters their reactivities for the ketonization reaction. There are multiple species present on the anatase TiO 2 surface upon carboxylic acid adsorption, including molecular carboxylic acid, monodentate carboxylate, and chelating/bridging bidentate carboxylates. The presence of H 2 O vapor increases the coverage of the less reactive bridging bidentate carboxylate associated with adsorbed H 2 O, leading to lower ketonization activity on hydrated anatase TiO 2 . Surface hydroxyl groups, which are consumed by interaction with carboxylic acid upon the formation of surface acetate species, do not impact the ketonization reaction.

Published

2023

18. Sirt6 attenuates chondrocyte senescence and osteoarthritis progression.

Author

Ji ML, Jiang H, Li Z, Geng R, Hu JZ, Lin YC, and Lu J

Subjects

Humans, Interleukin-15 pharmacology, Lysine pharmacology, Cellular Senescence genetics, Chondrocytes, Cartilage, Articular, Osteoarthritis genetics, Sirtuins genetics

Abstract

Sirt6 has been implicated as a key regulator in aging-related diseases, including osteoarthritis. However, its functional role and molecular mechanism in chondrocyte senescence and osteoarthritis pathophysiology remain largely undefined. Here we show that Sirt6 deficiency exaggerates chondrocyte senescence and osteoarthritis progression, whereas intra-articular injection of adenovirus-Sirt6 markedly attenuates surgical destabilization of medial meniscus-induced osteoarthritis. Mechanistically, Sirt6 can directly interact with STAT5 and deacetylate STAT5, thus inhibiting the IL-15/JAK3-induced STAT5 translocation from cytoplasm to nucleus, which inactivates IL-15/JAK3/STAT5 signaling. Mass spectrometry revealed that Sirt6 deacetylated conserved lysine 163 on STAT5. Mutation of lysine 163 to arginine in STAT5 abolished the regulatory effect of Sirt6. In vivo, specific ablation of Sirt6 in chondrocytes exacerbated osteoarthritis. Pharmacological activation of Sirt6 substantially alleviated chondrocyte senescence. Taken together, Sirt6 attenuates chondrocyte senescence by inhibiting IL-15/JAK3/STAT5 signaling. Targeting Sirt6 represents a promising new approach for osteoarthritis., (© 2022. The Author(s).)

Published

2022

19. [Evaluation of effect based on different typing methods in Escherichia coli ].

Author

Liang WJ, Hu JZ, Long JQ, Zhu AC, and Duan G

Subjects

Humans, Multilocus Sequence Typing, Escherichia coli genetics, Escherichia coli Infections

Abstract

Objective: To evaluate the typing and clinical application effect based on clustered regularly interspaced short palindromic repeats (CRISPRs), serotype, and Multilocus Sequence Typing (MLST). Methods: The spacers, serotype and sequence type (ST) were obtained with CRISPRsFinder, SeroTypeFinder and MLST. PCR was used to amplify the CRISPRs, and the spacers were used to predict serotype and ST, then comparing with the serotype and ST. Results: We defined the I-E CRISPR/Cas as CT-Ⅰ, I-F CRISPR/Cas as CT-Ⅱ, and only CRISPR3-4 as CT-Ⅲ. We designated each unique arrangement spacer profile as a unique CRISPRs type. A total of 79 CT types, 76 serotypes, and 66 STs were identified. The CRISPRs typing was the most discriminating, with the Simpson index of 0.936, having the highest correlation with serology with the adjusted Rand index of 0.908. The CRISPRs type could divide the same serotype (ST) into two subtypes [O157∶H7(ST11), O104∶H4(ST678), and O26∶H11(ST21)]. The detection rates of CRISPR1, CRISPR2, CRISPR3, CRISPR4, and CRISPR3-4 were 81.1%, 94.5%, 1.4%, 1.4%, and 4.6%, with the accuracy rate of 95.0% and 100.0% according to the spacers to forecast O157∶H7 (ST11) and ST131. Conclusion: Based on the CRISPRs spacer, this method can be used as an essential molecular typing for E.coli , as it presents a good typing and clinical application effect.

Published

2022

20. Ultrasound Guidance for Full Endoscopic Spinal Surgery: A Technical Note.

Author

Chen CH, Chen CM, Jaw FS, Hu JZ, and Wang GC

Subjects

Endoscopes, Humans, Neurosurgical Procedures, Spine, Endoscopy, Spinal Puncture

Abstract

Background: The use of intraoperative ultrasound (IOU) has proven to be useful in spinal surgery. In this study, we present the techniques of applying IOU in cervical, thoracic, and lumbar full-endoscopic spine surgery (FESS)., Methods: For applying IOU in cervical FESS, first, we localize the surgical level by identifying the unique shape of C6 and C7 under ultrasound and then identify the cervical level subsequently. For the anterior approach, the endoscope passes through the cervical fascia between the carotid sheath and trachea/esophagus, which can be identified under ultrasound, and for the posterior approach, the endoscope docks on the facet joint under ultrasound. For applying IOU in thoracic FESS, we localize the surgical level by counting the ribs. The endoscope is advanced to the neural foramen under ultrasound without entering the pleural cavity. For applying IOU in lumbar FESS, we identify the surgical level by counting the interlaminar window from the sacrum. The endoscopic sheath is advanced to the neural foramen under ultrasound without entering the peritoneal cavity., Results: The use of IOU in FESS has the potential to reduce radiation exposure, reach a higher successful puncture rate, and decrease the operation time. Furthermore, IOU prevents radiolucent organs from damage during FESS., Conclusions: We present the techniques of applying IOU in cervical, thoracic, and lumbar endoscopic spine surgery and hope that this will be helpful for physicians to master the IOU techniques., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

21. First Report of Sea Buckthorn Stem Wilt Caused by Fusarium proliferatum in Liaoning, China.

Author

Han YF, Zhang DW, Liang Y, Hu JZ, Hu JY, Liang Y, Xia B, and Wu YH

Subjects

China, Fumonisins, Fusarium, Hippophae

Published

2022

22. Understanding the Solvation-Dependent Properties of Cyclic Ether Multivalent Electrolytes Using High-Field NMR and Quantum Chemistry.

Author

Hu JZ, Jaegers NR, Hahn NT, Hu W, Han KS, Chen Y, Sears JA, Murugesan V, Zavadil KR, and Mueller KT

Abstract

Efforts to expand the technological capability of batteries have generated increased interest in divalent cationic systems. Electrolytes used for these electrochemical applications often incorporate cyclic ethers as electrolyte solvents; however, the detailed solvation environments within such systems are not well-understood. To foster insights into the solvation structures of such electrolytes, Ca(TFSI) 2 and Zn(TFSI) 2 dissolved in tetrahydrofuran (THF) and 2-methyl-tetrahydrofuran were investigated through multi-nuclear magnetic resonance spectroscopy ( 17 O, 43 Ca, and 67 Zn NMR) combined with quantum chemistry modeling of NMR chemical shifts. NMR provides spectroscopic fingerprints that readily couple with quantum chemistry to identify a set of most probable solvation structures based on the best agreement between the theoretically predicted and experimentally measured values of chemical shifts. The multi-nuclear approach significantly enhances confidence that the correct solvation structures are identified due to the required simultaneous agreement between theory and experiment for multiple nuclear spins. Furthermore, quantum chemistry modeling provides a comparison of the solvation cluster formation energetics, allowing further refinement of the preferred solvation structures. It is shown that a range of solvation structures coexist in most of these electrolytes, with significant molecular motion and dynamic exchange among the structures. This level of solvation diversity correlates with the solubility of the electrolyte, with Zn(TFSI) 2 /THF exhibiting the lowest degree of each. Comparisons of analogous Ca 2+ and Zn 2+ solvation structures reveal a significant cation size effect that is manifested in significantly reduced cation-solvent bond lengths and thus stronger solvent bonding for Zn 2+ relative to Ca 2+ . The strength of this bonding is further reduced by methylation of the cyclic ether ring. Solvation shells containing anions are energetically preferred in all the studied electrolytes, leading to significant quantities of contact ion pairs and consequently neutrally charged clusters. It is likely that the transport and interfacial de-solvation/re-solvation properties of these electrolytes are directed by these anion interactions. These insights into the detailed solvation structures, cation size, and solvent effects, including the molecular dynamics, are fundamentally important for the rational design of electrolytes in multivalent battery electrolyte systems., Competing Interests: The authors declare no competing financial interest., (© 2022 Battelle Memorial Institute. Published by American Chemical Society.)

Published

2022

23. The L-shaped association between superoxide dismutase levels and blood pressure in older Chinese adults: community-based, cross-sectional study.

Author

Huang Y, Lai W, Chen H, Liu QF, Li JX, and Hu JZ

Abstract

Background: As an antioxidant, serum superoxide dismutase (SOD) have been found to be associated with hypertension., Methods: The data were derived from the Chinese Longitudinal Healthy Longevity Survey (CLHLS), a prospective cohort study in China. We explored the association between serum SOD and blood pressure (BP) using multivariable correction analysis in an older Chinese population., Results: We observed a significantly gradual downward trend in the association between serum SOD levels and diastolic BP (DBP) in participants with lower serum SOD levels (< 58 IU/mL), while no associations were observed between serum SOD levels and DBP in participants with higher serum SOD levels (> 58 IU/mL). Similar results showed a significant gradual downward trend in associations between serum SOD levels and the risk of diastolic hypertension only at SOD < 58 IU/mL. Multiple linear regression analysis suggested that serum SOD was negatively correlated with DBP (Sβ = -0.088, P < 0.001) but not with SBP (Sβ = 0.013, P = 0.607). Multiple logistic regression analysis suggested that serum SOD was independently associated with the risk of diastolic hypertension (OR = 0.984, 95% CI: 0.973-0.996, P = 0.010) but not with the risk of systolic hypertension (OR = 1.001, 95% CI: 0.990-1.012, P = 0.836)) after adjusting for relevant confounding factors. Serum SOD levels (< 58 IU/mL, > 58 IU/mL) were an effect modifier of the association between serum SOD and DBP (interaction P = 0.0038) or the risk of diastolic hypertension (interaction P = 0.0050)., Conclusions: Our study indicated for the first time that there was an L-shaped association between serum SOD levels and the risk of diastolic hypertension in the older Chinese population., (Copyright and License information: Journal of Geriatric Cardiology 2022.)

Published

2022

24. Role of a Multivalent Ion-Solvent Interaction on Restricted Mg 2+ Diffusion in Dimethoxyethane Electrolytes.

Author

Chen Y, Atwi R, Han KS, Ryu J, Washton NM, Hu JZ, Rajput NN, Mueller KT, and Murugesan V

Subjects

Diffusion, Solvents, Electrolytes, Ethyl Ethers

Abstract

The diffusion behavior of Mg 2+ in electrolytes is not as readily accessible as that from Li + or Na + utilizing PFG NMR, due to the low sensitivity, poor resolution, and rapid relaxation encountered when attempting 25 Mg NMR. In MgTFSI 2 /DME solutions, "bound" DME (coordinating to Mg 2+ ) and "free" DME (bulk) are distinguishable from 1 H NMR. With the exchange rates between them obtained from 2D 1 H EXSY NMR, we can extract the self-diffusivities of free DME and bound DME (which are equal to that of Mg 2+ ) before the exchange occurs using PFG diffusion NMR measurements coupled with analytical formulas describing diffusion under two-site exchange. The high activation enthalpy for exhange (65-70 kJ/mol) can be explained by the structural change of bound DME as evidenced by its reduced C-H bond length. Comparison of the diffusion behaviors of Mg 2+ , TFSI - , DME, and Li + reveals a relative restriction to Mg 2+ diffusion that is caused by the long-range interaction between Mg 2+ and solvent molecules, especially those with suppressed motions at high concentrations and low temperatures.

Published

2021

25. [Clinical application of thoracodorsal artery perforator flaps in the repair of head and neck defects].

Author

Ren ZH, Fan TF, You YH, Yang WJ, He Y, Zhang CP, and Hu JZ

Subjects

China, Female, Femoral Artery surgery, Humans, Male, Retrospective Studies, Skin Transplantation, Thigh surgery, Perforator Flap, Plastic Surgery Procedures

Abstract

Objective: To analyse the clinical application of thoracodorsal artery perforator flaps (TDAPF) in the repair of head and neck defects. Methods: A retrospective review was conducted on 38 patients with oral and maxillofacial head and neck malignant tumors who underwent radical resection of oral and oropharyngeal carcinoma and TDAPF repair in the Department of Oral and Maxillofacial Head and Neck Oncology of the Ninth People's Hospital Affiliated to Shanghai Jiao Tong University School of Medicine from June 2017 to November 2018. Among them, 32 were males and 6 were females, aged 30-74 years. Flap size, vessel pedicle length, diameter and number of perforators, and flap fat thickness were recorded and counted. Elasti Meter and Skin Fibro Meter were applied to measure the skin elasticity and hardness in the donor areas of 4 kinds of skin flaps before the flap preparation. SPSS 19.0 statistical software was used for statistical analysis of the data. Results: All the flaps survived (100%). The mean elasticity of TDAPF [(41.2±12.9) N/m] was significantly lower than that of anterolateral thigh [(77.6±23.3) N/m, χ²=88.89, P <0.05], anterolateral thigh [(62.6±17.7) N/m, χ²=59.99, P <0.05] and or forearm flap [(51.7±8.6) N/m, χ²=37.82, P <0.05]. The hardness of TDAPF [(0.037±0.016) N] was also significantly lower than that of anterolateral femoral [(0.088±0.019) N, F =93.27, P <0.05], anteromedial femoral [(0.059±0.020) N, F =25.71, P <0.05] or forearm flap [(0.062±0.016) N, F =29.11, P <0.05]. Follow-up period ranged from 2 to 14 months. The 38 patients treated with TDAPF had a good recovery of the functions in the recipient areas, and the scars of the donor areas were not obvious after surgery, without serious complications. Conclusion: TDAPF is suitable for reconstruction of head and neck defect, with ductile texture and good recovery of the morphology and function of head and neck.

Published

2021

26. Activity of Cu-Al-Oxo Extra-Framework Clusters for Selective Methane Oxidation on Cu-Exchanged Zeolites.

Author

Lee I, Lee MS, Tao L, Ikuno T, Khare R, Jentys A, Huthwelker T, Borca CN, Kalinko A, Gutiérrez OY, Govind N, Fulton JL, Hu JZ, Glezakou VA, Rousseau R, Sanchez-Sanchez M, and Lercher JA

Abstract

Cu-zeolites are able to directly convert methane to methanol via a three-step process using O 2 as oxidant. Among the different zeolite topologies, Cu-exchanged mordenite (MOR) shows the highest methanol yields, attributed to a preferential formation of active Cu-oxo species in its 8-MR pores. The presence of extra-framework or partially detached Al species entrained in the micropores of MOR leads to the formation of nearly homotopic redox active Cu-Al-oxo nanoclusters with the ability to activate CH 4 . Studies of the activity of these sites together with characterization by 27 Al NMR and IR spectroscopy leads to the conclusion that the active species are located in the 8-MR side pockets of MOR, and it consists of two Cu ions and one Al linked by O. This Cu-Al-oxo cluster shows an activity per Cu in methane oxidation significantly higher than of any previously reported active Cu-oxo species. In order to determine unambiguously the structure of the active Cu-Al-oxo cluster, we combine experimental XANES of Cu K- and L-edges, Cu K-edge HERFD-XANES, and Cu K-edge EXAFS with TDDFT and AIMD-assisted simulations. Our results provide evidence of a [Cu 2 AlO 3 ] 2+ cluster exchanged on MOR Al pairs that is able to oxidize up to two methane molecules per cluster at ambient pressure., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

27. Low-temperature (< 200 °C) degradation of electronic nicotine delivery system liquids generates toxic aldehydes.

Author

Jaegers NR, Hu W, Weber TJ, and Hu JZ

Subjects

Humans, Administration, Inhalation, Aldehydes chemistry, Electronic Nicotine Delivery Systems, Temperature, Vaping adverse effects

Abstract

Electronic cigarette usage has spiked in popularity over recent years. The enhanced prevalence has consequently resulted in new health concerns associated with the use of these devices. Degradation of the liquids used in vaping have been identified as a concern due to the presence of toxic compounds such as aldehydes in the aerosols. Typically, such thermochemical conversions are reported to occur between 300 and 400 °C. Herein, the low-temperature thermal degradation of propylene glycol and glycerol constituents of e-cigarette vapors are explored for the first time by natural abundance 13 C NMR and 1 H NMR, enabling in situ detection of intact molecules from decomposition. The results demonstrate that the degradation of electronic nicotine delivery system (ENDS) liquids is strongly reliant upon the oxygen availability, both in the presence and absence of a material surface. When oxygen is available, propylene glycol and glycerol readily decompose at temperatures between 133 and 175 °C over an extended time period. Among the generated chemical species, formic and acrylic acids are observed which can negatively affect the kidneys and lungs of those who inhale the toxin during ENDS vapor inhalation. Further, the formation of hemi- and formal acetals is noted from both glycerol and propylene glycol, signifying the generation of both formaldehyde and acetaldehyde, highly toxic compounds, which, as a biocide, can lead to numerous health ailments. The results also reveal a retardation in decomposition rate when material surfaces are prevalent with no directly observed unique surface spectator or intermediate species as well as potentially slower conversions in mixtures of the two components. The generation of toxic species in ENDS liquids at low temperatures highlights the dangers of low-temperature ENDS use.

Published

2021

28. Utx Regulates the NF-κB Signaling Pathway of Natural Stem Cells to Modulate Macrophage Migration during Spinal Cord Injury.

Author

Li M, Rong ZJ, Cao Y, Jiang LY, Zhong D, Li CJ, Sheng XL, Hu JZ, and Lu HB

Subjects

Animals, Cell Movement, Disease Models, Animal, Female, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Spinal Cord Injuries etiology, Spinal Cord Injuries metabolism, Histone Demethylases physiology, Macrophages physiology, NF-kappa B physiology, Neural Stem Cells metabolism, Signal Transduction physiology, Spinal Cord Injuries pathology

Abstract

Neural stem cells (NSCs) play vital roles in the homeostasis of neurological function. Ubiquitously transcribed tetratricopeptide repeat, X chromosome (UTX) is an important regulator of stem cell phenotypes. In our current study, we aimed to investigate whether the conditional knockout of UTX on neural stem cells alters macrophage assembly in response to spinal cord injury (SCI). Conditional knockout Utx of NSC ( Utx -KO) mice was used to generate SCI models by the modified Allen method. We reported that neurological function and scar hyperplasia significantly improved in Utx -KO mice after SCI, accompanied by significantly reduced assembly of macrophages. With a 45-fold pathway array and Western blot, we found that Utx -KO could significantly inhibit NF-κB signaling activation and promote the synthesis and secretion of macrophage migration inhibitory factor (MIF) in NSCs. Administration of the selective NF-κB p65 activator betulinic acid and the selective MIF inhibitor ISO-1 confirmed that the activation of NF-κB p65 phosphorylation or inhibition of MIF could eliminate the benefits of Utx -KO in SCI, such as inhibition of macrophage aggregation and reduction in scar proliferation. This study confirmed that UTX in NSCs could alter macrophage migration and improve neurological function recovery after SCI in mice.

Published

2021

29. High-Field One-Dimensional and Two-Dimensional 27 Al Magic-Angle Spinning Nuclear Magnetic Resonance Study of θ-, δ-, and γ-Al 2 O 3 Dominated Aluminum Oxides: Toward Understanding the Al Sites in γ-Al 2 O 3 .

Author

Xu S, Jaegers NR, Hu W, Kwak JH, Bao X, Sun J, Wang Y, and Hu JZ

Abstract

Herein, a detailed analysis was carried out using high-field (19.9 T) 27 Al magic-angle spinning (MAS) nuclear magnetic resonance (NMR) on three specially prepared aluminum oxide samples where the γ-, δ-, and θ-Al 2 O 3 phases are dominantly expressed through careful control of the synthesis conditions. Specifically, two-dimensional (2D) multiquantum (MQ) MAS 27 Al was used to obtain high spectral resolution, which provided a guide for analyzing quantitative 1D 27 Al NMR spectra. Six aluminum sites were resolved in the 2D MQ MAS NMR spectra, and seven aluminum sites were required to fit the 1D spectra. A set of octahedral and tetrahedral peaks with well-defined quadrupolar line shapes was observed in the θ-phase dominant sample and was unambiguously assigned to the θ-Al 2 O 3 phase. The distinct line shapes related to the θ-Al 2 O 3 phase provided an opportunity for effectively deconvoluting the more complex spectrum obtained from the δ-Al 2 O 3 dominant sample, allowing the peaks/quadrupolar parameters related to the δ-Al 2 O 3 phase to be extracted. The results show that the δ-Al 2 O 3 phase contains three distinct Al O sites and three distinct Al T sites. This detailed Al site structural information offers a powerful way of analyzing the most complex γ-Al 2 O 3 spectrum. It is found that the γ-Al 2 O 3 phase consists of Al sites with local structures similar to those found in the δ-Al 2 O 3 and θ-Al 2 O 3 phases albeit with less ordering. Spin-lattice relaxation time measurement further confirms the disordering of the lattice. Collectively, this study uniquely assigns 27 Al features in transition aluminas, offering a simplified method to quantify complex mixtures of aluminum sites in transition alumina samples., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

30. Family history of psoriasis, psychological stressors, and tobacco use are associated with the development of tumor necrosis factor-α inhibitor-induced psoriasis: A case-control study.

Author

Ya J, Hu JZ, Nowacki AS, Khanna U, Mazloom S, Kabbur G, Husni ME, and Fernandez AP

Subjects

Adult, Age of Onset, Case-Control Studies, Disease Susceptibility immunology, Disease Susceptibility psychology, Humans, Incidence, Medical History Taking, Middle Aged, Psoriasis chemically induced, Psoriasis immunology, Risk Factors, Sex Factors, Stress, Psychological immunology, Stress, Psychological psychology, Time Factors, Tobacco Smoking immunology, Tumor Necrosis Factor-alpha immunology, Young Adult, Antirheumatic Agents adverse effects, Psoriasis epidemiology, Stress, Psychological complications, Tobacco Smoking epidemiology, Tumor Necrosis Factor-alpha antagonists & inhibitors

Abstract

Background: Tumor necrosis factor-α inhibitor-induced psoriasis (TNFI psoriasis) is a paradoxical reaction characterized by development of a psoriasiform rash that mimics psoriasis vulgaris. Temporal onset variability and low incidence rates suggest that underlying risk factors or outside triggers have a role in TNFI psoriasis initiation., Objectives: We aimed to identify underlying risk factors and outside triggers associated with TNFI psoriasis onset., Methods: This case-control study included 97 patients at a tertiary care center between 2003 and 2013 who developed TNFI psoriasis. Ninety-seven control patients were matched to age, sex, disease, TNF-α inhibitor, and length of time on treatment before TNFI psoriasis onset. Patient medical records were reviewed ≥6 months immediately preceding TNFI psoriasis onset (similar equivalent time point for matched controls) for information about potential risk factors and outside factors categorized as: (1) serologic abnormalities, (2) acute events, and (3) social factors., Results: Compared with those of matched controls, odds ratios (ORs) were significantly higher in the TNFI psoriasis group for psoriasis family history (OR, 16.0) and acute psychological stressors (OR, 3.14) and marginally associated with tobacco use (OR, 1.76)., Conclusions: Our results suggest that psoriasis family history, psychological stressors, and tobacco use might be risk factors for developing TNFI psoriasis. Performing detailed patient histories when considering TNFI therapy may be useful in identifying patients at risk for TNFI-psoriasis., (Copyright © 2020 American Academy of Dermatology, Inc. Published by Elsevier Inc. All rights reserved.)

Published

2020

31. TNF-α inhibitor-induced psoriasis: A decade of experience at the Cleveland Clinic.

Author

Mazloom SE, Yan D, Hu JZ, Ya J, Husni ME, Warren CB, and Fernandez AP

Subjects

Adolescent, Adult, Age of Onset, Aged, Aged, 80 and over, Arthritis, Rheumatoid drug therapy, Arthritis, Rheumatoid immunology, Child, Cyclosporine administration & dosage, Female, Humans, Inflammatory Bowel Diseases drug therapy, Inflammatory Bowel Diseases immunology, Male, Methotrexate administration & dosage, Middle Aged, Psoriasis chemically induced, Psoriasis drug therapy, Psoriasis immunology, Recurrence, Retrospective Studies, Risk Factors, Sex Factors, Spondylitis, Ankylosing drug therapy, Spondylitis, Ankylosing immunology, Treatment Outcome, Tumor Necrosis Factor-alpha immunology, Young Adult, Antirheumatic Agents adverse effects, Immunosuppressive Agents administration & dosage, Psoriasis epidemiology, Tumor Necrosis Factor-alpha antagonists & inhibitors

Abstract

Background: Tumor necrosis factor-α (TNF-α) inhibitor (TNFI)-induced psoriasis remains poorly understood despite having been described 15 years ago. As TNFIs often provide life-changing patient benefits, understanding effective treatments for TNFI-induced psoriasis is important., Objective: We characterized a cohort of patients with TNFI-induced psoriasis whose psoriasis was specifically diagnosed and managed or comanaged by dermatologists at a single tertiary care institution over a 10-year period., Methods: Retrospective review of patients in whom TNFI-induced psoriasis was diagnosed between 2003 and 2013., Results: A total of 102 patients with TNFI-induced psoriasis were identified. The mean age of onset was 40 years, and there was a female predominance (73.5%). Crohn's disease (in 48% of cases) and rheumatoid arthritis (in 24.5% of cases) were the most common primary conditions. Infliximab (in 52% of cases) was the most common inciting agent. The most common TNFI-induced psoriasis subtypes were plaque-type psoriasis (49.5%), scalp psoriasis (47.5%), and palmoplantar pustulosis (41%). Topical medications alone improved or resolved TNFI-induced psoriasis in 63.5% of patients, and cyclosporine and methotrexate (>10 mg weekly) were often effective if topicals failed. Discontinuation of the inciting TNFI with or without other interventions improved or resolved TNFI-induced psoriasis in 67% of refractory cases, whereas switching TNFIs resulted in persistence or recurrence in 64%., Limitations: Retrospective nature of the study and the fact that some patients may have developed typical psoriasis unresponsive to TNFIs., Conclusion: Our study cohort represents the largest single-institution cohort of patients with TNFI-induced psoriasis diagnosed and managed or comanaged by dermatologists to date. On the basis of our findings, we propose a treatment algorithm for TNFI-induced psoriasis., (Copyright © 2018 American Academy of Dermatology, Inc. Published by Elsevier Inc. All rights reserved.)

Published

2020

32. High-Temperature and High-Pressure In situ Magic Angle Spinning Nuclear Magnetic Resonance Spectroscopy.

Author

Jaegers NR, Hu W, Wang Y, and Hu JZ

Subjects

Carbon-13 Magnetic Resonance Spectroscopy, Catalysis, Hydrogen chemistry, Magnetic Resonance Imaging, Proton Magnetic Resonance Spectroscopy, Zirconium, Magnetic Resonance Spectroscopy, Pressure, Temperature

Abstract

Nuclear magnetic resonance (NMR) spectroscopy represents an important technique to understand the structure and bonding environments of molecules. There exists a drive to characterize materials under conditions relevant to the chemical process of interest. To address this, in situ high-temperature, high-pressure MAS NMR methods have been developed to enable the observation of chemical interactions over a range of pressures (vacuum to several hundred bar) and temperatures (well below 0 °C to 250 °C). Further, the chemical identity of the samples can be comprised of solids, liquids, and gases or mixtures of the three. The method incorporates all-zirconia NMR rotors (sample holder for MAS NMR) which can be sealed using a threaded cap to compress an O-ring. This rotor exhibits great chemical resistance, temperature compatibility, low NMR background, and can withstand high pressures. These combined factors enable it to be utilized in a wide range of system combinations, which in turn permit its use in diverse fields as carbon sequestration, catalysis, material science, geochemistry, and biology. The flexibility of this technique makes it an attractive option for scientists from numerous disciplines.

Published

2020

33. Epigenetic regulation of VENTXP1 suppresses tumor proliferation via miR-205-5p/ANKRD2/NF-kB signaling in head and neck squamous cell carcinoma.

Author

Zhang LM, Su LX, Hu JZ, Wang M, Ju HY, Li X, Han YF, Xia WY, Guo W, Ren GX, and Fan XD

Subjects

Carcinoma, Squamous Cell genetics, Cell Movement genetics, Cell Proliferation genetics, Epigenesis, Genetic genetics, Gene Expression Regulation, Neoplastic genetics, Homeodomain Proteins genetics, Humans, RNA, Long Noncoding genetics, Signal Transduction, Head and Neck Neoplasms genetics, Homeodomain Proteins metabolism, MicroRNAs genetics, Muscle Proteins genetics, NF-kappa B metabolism, Nuclear Proteins genetics, Repressor Proteins genetics, Squamous Cell Carcinoma of Head and Neck genetics

Abstract

An increasing number of studies have shown that long noncoding RNAs (lncRNAs) play important roles in tumor development and progression. However, their involvement in head and neck squamous cell carcinoma (HNSCC) remains largely unknown. Epigenetic regulation is one major mechanism utilized by cancer cells to control lncRNA expression. We identified that lncRNA VENTXP1 was epigenetically silenced in multiple cancer types, and its lower expression was correlated with poorer survival in HNSCC patients. Through in silico analysis and experimental validation, we identified miR-205-5p and its direct interacting partner of VENTXP1, which regulates HNSCC cell proliferation and tumorigenicity. Using RNA-seq and differential gene expression analysis, we further identified ANKRD2 as a miR-205-5p target, which plays an essential role in modulating NF-kB signaling. These findings suggest that VENTXP1 inhibits tumor growth via suppressing miR-205-5p/ANKRD2-mediated NF-kB signaling in HNSCC. Thus, pharmaceutical targeting of DNA methylation to restore VENTXP1 expression might constitute a therapeutic strategy for HNSCC.

Published

2020

34. Role of Solvent Rearrangement on Mg 2+ Solvation Structures in Dimethoxyethane Solutions using Multimodal NMR Analysis.

Author

Chen Y, Jaegers NR, Wang H, Han KS, Hu JZ, Mueller KT, and Murugesan V

Abstract

One of the main impediments faced for predicting emergent properties of a multivalent electrolyte (such as conductivity and electrochemical stability) is the lack of quantitative analysis of ion-ion and ion-solvent interactions, which manifest in solvation structures and dynamics. In particular, the role of ion-solvent interactions is still unclear in cases where the strong electric field from multivalent cations can influence intramolecular rotations and conformal structural evolution (i.e., solvent rearrangement process) of low permittivity organic solvent molecules on solvation structure. Using quantitative 1 H, 19 F, and 17 O NMR together with 19 F nuclear spin relaxation and diffusion measurments, we find an unusual correlation between ion concentration and solvation structure of Mg(TFSI) 2 salt in dimethoxyethane (DME) solution. The dominant solvation structure evolves from contact ion pairs (i.e., [Mg(TFSI)(DME) 1-2 ] + ) to fully solvated clusters (i.e., [Mg(DME) 3 ] 2+ ) as salt concentration increases or as temperature decreases . This transition is coupled to a phase separation, which we study here between 0.06 and 0.36 M. Subsequent analysis is based on an explanation of the solvent rearrangement process and the competition between solvent molecules and TFSI anions for cation coordination.

Published

2020

35. Adipose-derived mesenchymal stromal cells suppress osteoclastogenesis and bone erosion in collagen-induced arthritis.

Author

Chang Q, Li C, Lu Y, Geng R, Wei JN, and Hu JZ

Subjects

Adoptive Transfer, Animals, Bone Resorption, Heterografts, Humans, Mice, Arthritis, Experimental, Arthritis, Rheumatoid, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells, Osteogenesis

Abstract

Osteoclasts are responsible for bone destruction in rheumatoid arthritis (RA), and adipose-derived mesenchymal stromal cells (ADSCs) can inhibit experimental collagen-induced arthritis model. This study aims to determine whether ADSCs also suppresses osteoclastogenesis and bone erosion in collagen-induced arthritis (CIA). Osteoclasts were induced from bone marrow-derived CD11b + cells with receptor activator of nuclear factor-κ B ligand (RANKL) and macrophage colony-stimulating factor (M-CSF) stimulation and assessed with tartrate-resistant acid phosphatase (TRAP) staining. For human cells, osteoclasts were produced from human CD14 + cells. ADSCs were generated and added to cultures with different ratios with CD11b + cells. Transwell and antibody blockade experiments were performed to define the mechanism of action. NF-κB and RANKL expression were determined by Western blotting and RT-qPCR. About 2 × 10 6 ADSCs or fibroblast cells were adoptively transferred to DBA1/J mice on day 14 after immunization with type II collagen/complete Freund's adjuvant (CII/CFA) while the onset and severity of the CIA were monitored. Adipose-derived mesenchymal stromal cells but not fibroblast cells completely suppressed osteoclastogenesis in vitro for human and mice. ADSCs injected after immunization and before of onset of CIA significantly suppressed disease development. Treatment with ADSCs dramatically decreased the levels of NF-κB p65/p50 in osteoclasts in vitro and P65/50 and RANKL expression by synovial tissues in vivo. We have demonstrated that ADSCs can inhibit RANKL-induced osteoclasts genesis via CD39 signals. Our findings also suggest that ADSCs can inhibit osteoclasts genesis without the involvement of regulatory T cells. ADSCs might represent a promising strategy for stem cell-based therapies for RA. Thus, manipulation of ADSCs may have therapeutic effects on RA and other bone erosion-related diseases., (© 2020 The Foundation for the Scandinavian Journal of Immunology.)

Published

2020

36. Histologic comparison of tumor necrosis factor-α inhibitor-induced psoriasis and psoriasis vulgaris.

Author

Hu JZ, Billings SD, Yan D, and Fernandez AP

Subjects

Eosinophils pathology, Humans, Leukocyte Count, Neutrophils pathology, Psoriasis chemically induced, Psoriasis pathology, Skin pathology, Tumor Necrosis Factor-alpha antagonists & inhibitors

Abstract

Background: Tumor necrosis factor-α inhibitor (TNFi)-induced psoriasis is a paradoxic reaction characterized by the development of a psoriasiform rash that mimics idiopathic psoriasis subtypes both clinically and histologically. Few studies have investigated the histologic features of TNFi-induced psoriasis skin lesions, and most of these are limited by inclusion of few specimens., Objective: We aimed to characterize histologic features of TNFi-induced psoriasis and identify histologic differences between TNFi-induced psoriasis and idiopathic psoriasis., Methods: We characterized 60 biopsy specimens obtained from 47 unique patients at a single tertiary care referral center between 2004 and 2016 who developed TNFi-induced psoriasis, and we compared histologic features to those of 85 biopsy specimens from a control group of 85 patients with idiopathic psoriasis., Results: The most common histologic reaction pattern in TNFi-induced psoriasis biopsy specimens was psoriasiform (80.0%). Five histologic parameters were significantly different in TNFi-induced psoriasis biopsy specimens compared with idiopathic psoriasis biopsy specimens: at least 3 dermal eosinophils per histologic section, neutrophils in the stratum corneum, neutrophils in the epidermis, papillary plate thinning, and absence of parakeratosis., Limitations: Inability to exclude lesion selection bias as a potential reason for some significant histologic differences., Conclusions: This study supports the idea that histologic differences exist between TNFi-induced psoriasis and idiopathic psoriasis may help distinguish between these conditions, especially for dermal eosinophil counts of 3 or greater., (Copyright © 2020 American Academy of Dermatology, Inc. Published by Elsevier Inc. All rights reserved.)

Published

2020

37. Origin of Unusual Acidity and Li + Diffusivity in a Series of Water-in-Salt Electrolytes.

Author

Han KS, Yu Z, Wang H, Redfern PC, Ma L, Cheng L, Chen Y, Hu JZ, Curtiss LA, Xu K, Murugesan V, and Mueller KT

Abstract

Superconcentrated aqueous electrolytes ("water-in-salt" electrolytes, or WiSEs) enable various aqueous battery chemistries beyond the voltage limits imposed by the Pourbaix diagram of water. However, their detailed structural and transport properties remain unexplored and could be better understood through added studies. Here, we report on our observations of strong acidity (pH 2.4) induced by lithium bis(trifluoromethane sulfonyl)imide (LiTFSI) at superconcentration (at 20 mol/kg). Multiple nuclear magnetic resonance (NMR) and pulsed-field gradient (PFG) diffusion NMR experiments, density functional theory (DFT) calculations, and molecular dynamics (MD) simulations reveal that such acidity originates from the formation of nanometric ion-rich structures. The experimental and simulation results indicate the separation of water-rich and ion-rich domains at salt concentrations ≥5 m and the acidity arising therefrom is due to deprotonation of water molecules in the ion-rich domains. As such, the ion-rich domain is composed of hydrophobic -CF 3 (of TFSI - ) and hydrophilic hydroxyl (OH - ) groups. At 20 m concentration, the tortuosity and radius of water diffusion channels are estimated to be ∼10 and ∼1 nm, respectively, which are close to values obtained from hydrated Nafion membranes that also have hydrophobic polytetrafluoroethylene (PTFE) backbones and hydrophilic channels consisting of SO 3 - ion cluster networks providing for the transport of ions and water. Thus, we have discovered the structural similarity between WiSE and hydrated Nafion membranes on the nanometer scale.

Published

2020

38. Thermal perturbation of NMR properties in small polar and non-polar molecules.

Author

Jaegers NR, Wang Y, and Hu JZ

Abstract

Water is an important constituent in an abundant number of chemical systems; however, its presence complicates the analysis of in situ 1 H MAS NMR investigations due to water's ease of solidification and vaporization, the large changes in mobility, affinity for hydrogen bonding interactions, etc., that are reflected by dramatic changes in temperature-dependent chemical shielding. To understand the evolution of the signatures of water and other small molecules in complex environments, this work explores the thermally-perturbed NMR properties of water in detail by in situ MAS NMR over a wide temperature range. Our results substantially extend the previously published temperature-dependent 1 H and 17 O chemical shifts, linewidths, and spin-lattice relaxation times over a much wider range of temperatures and with significantly enhanced thermal resolution. The following major results are obtained: Hydrogen bonding is clearly shown to weaken at elevated temperatures in both 1 H and 17 O spectra, reflected by an increase in chemical shielding. At low temperatures, transient tetrahedral domains of H-bonding networks are evidenced and the observation of the transition between solid ice and liquid is made with quantitative considerations to the phase change. The 1 H chemical shift properties in other small polar and non-polar molecules have also been described over a range of temperatures, showing the dramatic effect hydrogen bonding perturbation on polar species. Gas phase species are observed and chemical exchange between gas and liquid phases is shown to play an important role on the observed NMR shifts. The results disclosed herein lay the foundation for a clear interpretation of complex systems during the increasingly popular in situ NMR characterization at elevated temperatures and pressures for studying chemical systems.

Published

2020

39. Comparative analysis of locking plates versus hook plates in the treatment of Neer type II distal clavicle fractures.

Author

Wang HK, Liang LS, He RG, Su YB, Mao P, and Hu JZ

Subjects

Adult, Clavicle surgery, Female, Follow-Up Studies, Fracture Fixation, Internal instrumentation, Humans, Male, Middle Aged, Pain Measurement, Pain, Postoperative etiology, Pain, Postoperative prevention & control, Treatment Outcome, Bone Plates adverse effects, Clavicle injuries, Fracture Fixation, Internal adverse effects, Fractures, Bone surgery, Pain, Postoperative diagnosis

Published

2020

40. Variable Temperature and Pressure Operando MAS NMR for Catalysis Science and Related Materials.

Author

Jaegers NR, Mueller KT, Wang Y, and Hu JZ

Subjects

Catalysis, Molecular Probes, Molecular Structure, Magnetic Resonance Spectroscopy methods, Temperature

Abstract

The characterization of catalytic materials under working conditions is of paramount importance for a realistic depiction and comprehensive understanding of the system. Under such relevant environments, catalysts often exhibit properties or reactivity not observed under standard spectroscopic conditions. Fulfilling such harsh environments as high temperature and pressure is a particular challenge for solid-state NMR where samples spin several thousand times a second within a strong magnetic field. To address concerns about the disparities between spectroscopic environments and operando conditions, novel MAS NMR technology has been developed that enables the probing of catalytic systems over a wide range of pressures, temperatures, and chemical environments. In this Account, new efforts to overcome the technical challenges in the development of operando and in situ MAS NMR will be briefly outlined. Emphasis will be placed on exploring the unique chemical regimes that take advantage of the new developments. With the progress achieved, it is possible to interrogate both structure and dynamics of the environments surrounding various nuclear constituents ( 1 H, 13 C, 23 Na, 27 Al, etc.), as well as assess time-resolved interactions and transformations.Operando and in situ NMR enables the direct observation of chemical components and their interactions with active sites (such as Brønsted acid sites on zeolites) to reveal the nature of the active center under catalytic conditions. Further, mixtures of such constituents can also be assessed to reveal the transformation of the active site when side products, such as water, are generated. These interactions are observed across a range of temperatures (-10 to 230 °C) and pressures (vacuum to 100 bar) for both vapor and condensed phase analysis. When coupled with 2D NMR, computational modeling, or both, specific binding modes are identified where the adsorbed state provides distinct signatures. In addition to vapor phase chemical environments, gaseous environments can be introduced and controlled over a wide range of pressures to support catalytic studies that require H 2 , CO, CO 2 , etc. Mixtures of three phases may also be employed. Such reactions can be monitored in situ to reveal the transformation of the substrates, active sites, intermediates, and products over the course of the study. Further, coupling of operando NMR with isotopic labeling schemes reveals specific mechanistic insights otherwise unavailable. Examples of these strategies will be outlined to reveal important fundamental insights on working catalyst systems possible only under operando conditions. Extension of operando MAS NMR to study the solid-electrolyte interface and solvation structures associated with energy storage systems and biomedical systems will also be presented to highlight the versatility of this powerful technique.

Published

2020

41. [Study on protective effect of water extract from Sabia parviflora on liver injury in mice induced by acetaminophen].

Author

Li JQ, Huang WF, He HB, Zhao DX, Hu JZ, Lu SG, Ye JX, and Zou K

Subjects

Alanine Transaminase metabolism, Animals, Aspartate Aminotransferases metabolism, Liver enzymology, Malondialdehyde analysis, Mice, Oxidative Stress, Superoxide Dismutase metabolism, Acetaminophen toxicity, Chemical and Drug Induced Liver Injury drug therapy, Liver drug effects, Plant Extracts pharmacology

Abstract

The aim of this study was to observe the protective effect of water extract from Sabia parviflora on mice with acute liver injury induced by acetaminophen, and investigate its possible mechanism. Fifty-eight Kunming mice were divided into 6 groups, 8 in the normal group, 10 in the model group, 10 in the biphenyl diester group, and 10 each in the low, medium and high dose groups. After adaptive feeding for one week, the mice in normal group were intragastrically administered with an equal volume of 0.5% sodium carboxymethylcellulose sodium(CMC-Na), and the mice in other groups were intragastrically administered with corresponding drugs at 20 mL·kg~(-1) once a day. Then acetaminophen(200 mg·kg~(-1)) was administered after the above drug administration except the normal group. The behavior and signs of the experimental animals were observed every day and the samples were taken for experiments on the next day of the final administration. The liver mass and mass index were calculated. The blood was collected from the abdominal aorta and centrifuged to obtain the serum for detecting aspartate aminotransferase(AST) activity and alanine aminotransferase(ALT) activity. The liver tissue homogenate was used to detect superoxide dismutase(SOD) activity, glutathione(glutathione, r-glutamyl cysteingl+glycine, GSH) activity and malondialdehyde(MDA) content. Liver tissue was analyzed for histological analysis. The results showed that S. parviflora could alleviate the lipid peroxidation damage in the liver caused by acetaminophen, reduce the ALT and AST activities in serum, increase the levels of SOD and GSH in liver tissue, decrease the content of MDA in liver tissue, and inhibit the apoptosis. S. parviflora could also improve the live histopathological profile, protect liver cells and restore liver function. Among them, the high dose had the most significant effect and showed dose-effect relationship. This study indicated that S. parviflora had a significant protective effect on acetaminophen-induced liver injury in mice, and its mechanism may be related to its anti-oxidation effect and inhi-bitory effect on apoptosis.

Published

2020

42. Neural stem cell-derived exosomes facilitate spinal cord functional recovery after injury by promoting angiogenesis.

Author

Zhong D, Cao Y, Li CJ, Li M, Rong ZJ, Jiang L, Guo Z, Lu HB, and Hu JZ

Subjects

Animals, Cells, Cultured, Endothelial Cells metabolism, Female, Mice, Inbred C57BL, Microvessels pathology, Regeneration, Spinal Cord pathology, Spinal Cord Injuries pathology, Vascular Endothelial Growth Factor A metabolism, Exosomes metabolism, Neovascularization, Physiologic, Neural Stem Cells metabolism, Recovery of Function, Spinal Cord physiopathology, Spinal Cord Injuries physiopathology

Published

2020

43. [Cardioversion efficacy of nifekalan in patients with sustained atrial fibrillation after radiofrequency ablation].

Author

Li F, Xia Z, Yu JH, Chen Q, Hu JZ, Zhu B, Xia ZR, Huang QH, Li JX, Hong K, Wu YQ, and Cheng XS

Subjects

Aged, Aged, 80 and over, Electric Countershock, Female, Heart Atria, Humans, Male, Middle Aged, Treatment Outcome, Atrial Fibrillation surgery, Catheter Ablation

Abstract

Objective: To evaluate the efficacy and safety of nifekalan (NIF) on cardioversion in atrial fibrillation (AF) patients post radiofrequency ablation, and investigate the relevant factors related to the cardioversion efficacy of NIF. Methods: We screened patients with sustained AF rhythm after radiofrequency ablation between November 2016 and July 2018. Participants were treated with intravenous NIF 0.4 mg/kg within 5-10 minutes after ablation. We observed the adverse reaction, and monitored the rhythm, heart rate, QT interval and QTc interval before the medication and at 5, 10, 20, 120 min after the medication. According to the drug outcome of NIF, patients were divided into conversion group and non-conversion group, related factors affecting conversion efficacy were evaluated using logistic regression analysis. Results: (1)A total of 116 patients were enrolled in the study (63 males and 53 females, mean age was (64±18) years). Among them, 72 patients were converted to sinus rhythm, and the overall successful rate was 62.1%. There were 84 patients with persistent AF, of which 50 cases (59.2%) were restored to sinus rhythm. There were 32 patients with paroxysmal AF, 22 cases (68.8%) of them were restored to sinus rhythm. The conversion time was 1.5 to 12 (6.8±3.4)min. (2) In 116 patients, the QT interval and QTc interval were significantly longer after medication than before the drug administration ( P< 0.01), and peaked at about 10th min, and restored to the level before drug administration at about 120th min. (3) There were 8 cases of bradycardia (6.9%), 3 cases of frequent and short ventricular tachycardia (2.6%). (4) The duration of atrial fibrillation was shorter and left atrial diameter was smaller in the cardioversion group than in the non-cardioversion group (both P< 0.05). There were no significant differences in gender, disease history, atrial fibrillation type and structural heart disease between the two groups ( P> 0.05). (5) Multifactorial logistic regression analysis showed that the duration of atrial fibrillation ( OR= 0.980, 95 %CI 0.966-0.994, P= 0.004) and the left atrial diameter ( OR= 0.888, 95 %CI 0.814-0.967, P= 0.007) were the factors that influence the cardioversion efficacy of NIF on atrial fibrillation post ablation. Conclusions: The total effective rate of NIF was 62.1% in patients witrh sustained AF post radiofrequency ablation, was 68.8% in patients with paroxysmal AF. Besides, NIF has the advantage of short conversion time and few adverse reactions. Left atrium diameter and AF duration were relevant factors that influence the efficacy of NIF of cardioversion in patients with sustained AF after radiofrequency ablation.

Published

2019

44. Adsorption and Thermal Decomposition of Electrolytes on Nanometer Magnesium Oxide: An in Situ 13 C MAS NMR Study.

Author

Hu JZ, Jaegers NR, Chen Y, Han KS, Wang H, Murugesan V, and Mueller KT

Abstract

Mg batteries have been proposed as potential alternatives to lithium-ion batteries because of their lower cost, higher safety, and enhanced charge density. However, the Mg metal readily oxidizes when exposed to an oxidizer to form a thin MgO passivation surface layer that blocks the transport of Mg 2+ across the solid electrode-electrolyte interface (SEI). In this work, the adsorption and thermal decomposition of diglyme (G2) and electrolytes containing Mg(TFSI) 2 in G2 on 10 nm-sized MgO particles are evaluated by a combination of in situ 13 C single-pulse, surface-sensitive 1 H- 13 C cross-polarization (CP) magic-angle spinning (MAS) nuclear magnetic resonance, and quantum chemistry calculations. At 180 °C, neat G2 decomposes on MgO to form surface-adsorbed -OCH 3 groups that are captured as a distinctive peak located at about 50 ppm in the CP/MAS spectrum. At low Mg(TFSI) 2 salt concentration, the main solvation structure in this electrolyte is solvent-separated ion pairs without extensive Mg-TFSI contact ion pairs. G2, likely including a small amount of G2-solvated Mg 2+ , adsorbs onto the MgO surface. At high Mg(TFSI) 2 salt concentrations, contact ion pairs between Mg and TFSI are formed extensively in the solution with the first solvation shell containing one pair of Mg-TFSI and two G2 molecules and the second solvation shell containing up to six G2 molecules, namely, MgTFSI(G2) 2 (G2) 6 + . In the presence of MgO, MgTFSI(G2) 2 (G2) 6 + adsorbs onto the MgO surface. At 180 °C, the MgO surface stimulates a desolvation process converting MgTFSI(G2) 2 (G2) 6 + to MgTFSI(G2) 2 + and releasing G2 molecules from the second solvation shell of the MgTFSI(G2) 2 (G2) 6 + cluster into the solution. MgTFSI(G2) 2 + and MgTFSI(G2) 2 (G2) 6 + tightly adsorb onto the MgO surface and are observed by 1 H- 13 C CP/MAS experiments. The results contained herein show that electrolyte composition has a directing role in the species present on the electrode surface, which has implications on the structures and constituents of the solid-electrolyte interface on working electrodes and can be used to better understand its formation and the failure modes of batteries.

Published

2019

45. Unraveling Gibbsite Transformation Pathways into LiAl-LDH in Concentrated Lithium Hydroxide.

Author

Graham TR, Hu JZ, Zhang X, Dembowski M, Jaegers NR, Wan C, Bowden M, Lipton AS, Felmy AR, Clark SB, Rosso KM, and Pearce CI

Abstract

Gibbsite (α-Al(OH) 3 ) transformation into layered double hydroxides, such as lithium aluminum hydroxide dihydrate (LiAl-LDH), is generally thought to occur by solid-state intercalation of Li + , in part because of the intrinsic structural similarities in the quasi-2D octahedral Al 3+ frameworks of these two materials. However, in caustic environments where gibbsite solubility is high relative to LiAl-LDH, a dissolution-reprecipitation pathway is conceptually enabled, proceeding via precipitation of tetrahedral ( T d ) aluminate anions (Al(OH) 4 - ) at concentrations held below 150 mM by rapid LiAl-LDH nucleation and growth. In this case, the relative importance of solid-state versus solution pathways is unknown because it requires in situ techniques that can distinguish Al 3+ in solution and in the solid phase (gibbsite and LiAl-LDH), simultaneously. Here, we examine this transformation in partially deuterated LiOH solutions, using multinuclear, magic angle spinning, and high field nuclear magnetic resonance spectroscopy ( 27 Al and 6 Li MAS NMR), with supporting X-ray diffraction and scanning electron microscopy. In situ 27 Al MAS NMR captured the emergence and decline of metastable aluminate ions, consistent with dissolution of gibbsite and formation of LiAl-LDH by precipitation. High field, ex situ 6 Li NMR of the the progressively reacted solids resolved an O h Li + resonance that narrowed during the transformation. This is likely due to increasing local order in LiAl-LDH, correlating well with observations in high field, ex situ 27 Al MAS NMR spectra, where a comparatively narrow LiAl-LDH O h 27 Al resonance emerges upfield of gibbsite resonances. No intermediate pentahedral Al 3+ is resolvable. Quantification of aluminate ion concentrations suggests a prominent role for the solution pathway in this system, a finding that could help improve strategies for manipulating Al 3+ concentrations in complex caustic waste streams, such as those being proposed to treat the high-level nuclear waste stored at the U.S. Department of Energy's Hanford Nuclear Reservation in Washington State, USA.

Published

2019

46. Low deceleration capacity is associated with higher stroke risk in patients with paroxysmal atrial fibrillation.

Author

Ding Y, Xu ZY, Liu HL, Hu JZ, Chen J, Huang L, Chen Q, Hu JX, Cheng XS, and Hong K

Subjects

Aged, Electrocardiography, Female, Humans, Hypertension physiopathology, Middle Aged, Multivariate Analysis, Retrospective Studies, Atrial Fibrillation physiopathology, Stroke physiopathology

Abstract

Background: Deceleration capacity (DC) is a non-invasive marker for cardiac autonomic dysfunction; however, few studies have shown that the influence factors of cardiac autonomic dysfunction and the correlations between DC and stroke risk in paroxysmal atrial fibrillation (AF). We aimed to explore the influencing factors of abnormal DC and the relationships between DC and stroke risk in patients with paroxysmal AF., Methods: The study included hospitalized paroxysmal AF patients with DC measurements derived from 24-h Holter electrocardiography recordings taken between August 2015 and June 2016. Multivariable regression analysis was performed to evaluate the associations between correlated variables and abnormal DC values. The relationship between DC and ischemic stroke risk scores in patients with paroxysmal AF was analyzed., Results: We studied 259 hospitalized patients with paroxysmal AF (143 [55.2%] male, mean age 66.4 ± 12.0 years); 38 patients of them showed abnormal DC values. In the univariate analysis, age, hypertension, heart failure, and previous stroke/transient ischemic attack (TIA) were significantly associated with abnormal DC values. Among these factors, a history of previous stroke/TIA (odds ratio = 2.861, 95% confidence interval: 1.356-6.039) were independently associated with abnormal DC values in patients with paroxysmal AF. The abnormal DC group showed a higher stroke risk with the score of congestive heart failure, hypertension, age >75 years, diabetes mellitus, previous stroke and TIA (CHADS2) (2.25 ± 1.48 vs. 1.40 ± 1.34, t = -4.907, P = 0.001) and CHA2DS2-vascular disease, age 65-74 years and female category (VASc) (3.76 ± 1.95 vs. 2.71 ± 1.87, t = -4.847, P = 0.001) scores. Correlation analysis showed that DC was negatively correlated with CHADS2 scores (r = -0.290, P < 0.001) and CHA2DS2-VASc scores (r = -0.263, P < 0.001)., Conclusions: Lower DC is closely associated with previous stroke/TIA, and is also correlated negatively with higher stroke risk scores in patients with paroxysmal AF. It could be a potential indicator of stroke risk in paroxysmal AF patients.

Published

2019

47. Mechanism by which Tungsten Oxide Promotes the Activity of Supported V 2 O 5 /TiO 2 Catalysts for NO X Abatement: Structural Effects Revealed by 51 V MAS NMR Spectroscopy.

Author

Jaegers NR, Lai JK, He Y, Walter E, Dixon DA, Vasiliu M, Chen Y, Wang C, Hu MY, Mueller KT, Wachs IE, Wang Y, and Hu JZ

Abstract

The selective catalytic reduction (SCR) of NO x with NH 3 to N 2 with supported V 2 O 5 (-WO 3 )/TiO 2 catalysts is an industrial technology used to mitigate toxic emissions. Long-standing uncertainties in the molecular structures of surface vanadia are clarified, whereby progressive addition of vanadia to TiO 2 forms oligomeric vanadia structures and reveals a proportional relationship of SCR reaction rate to [surface VO x concentration] 2 , implying a 2-site mechanism. Unreactive surface tungsta (WO 3 ) also promote the formation of oligomeric vanadia (V 2 O 5 ) sites, showing that promoter incorporation enhances the SCR reaction by a structural effect generating adjacent surface sites and not from electronic effects as previously proposed. The findings outline a method to assess structural effects of promoter incorporation on catalysts and reveal both the dual-site requirement for the SCR reaction and the important structural promotional effect that tungsten oxide offers for the SCR reaction by V 2 O 5 /TiO 2 catalysts., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

48. Voltage-induced strain clocking of nanomagnets with perpendicular magnetic anisotropies.

Author

Wang Q, Hu JZ, Liang CY, Sepulveda A, and Carman G

Abstract

Nanomagnetic logic (NML) has attracted attention during the last two decades due to its promise of high energy efficiency combined with non-volatility. Data transmission in NML relies on Bennett clocking through dipole interaction between neighboring nanomagnetic bits. This paper uses a fully coupled finite element model to simulate Bennett clocking based on strain-mediated multiferroic system for Ni, CoFeB and Terfenol-D with perpendicular magnetic anisotropies. Simulation results demonstrate that Terfenol-D system has the highest energy efficiency, which is 2 orders of magnitude more efficient than Ni and CoFeB. However, the high efficiency is associated with switching incoherency due to its large magnetostriction coefficient. It is also suggested that the CoFeB clocking system has lower bit-density than in Ni or Terfenol-D systems due to its large dipole coupling. Moreover, we demonstrate that the precessional perpendicular switching and the Bennett clocking can be achieved using the same strain-mediated multiferroic architecture with different voltage pulsing. This study opens new possibilities to an all-spin in-memory computing system.

Published

2019

49. Geological significance of new zircon U-Pb geochronology and geochemistry: Niuxinshan intrusive complex, northern North China Craton.

Author

Shi CL, Ding XZ, Liu YX, Hu JZ, and Song Y

Subjects

China, Geology, Radiometric Dating, Spectrometry, Mass, Electrospray Ionization, Trace Elements analysis, Lead chemistry, Silicates chemistry, Zirconium chemistry

Abstract

The Huajian gold deposit is one of the largest hydrothermal intrusion-related gold deposits in eastern Hebei Province, located in the northern margin of the North China Craton (NCC). The mineralization in this district displays a close spatial association with the shoshonitic Niuxinshan intrusive complex (NIC), which contributes to the characterization of the metallogeny associated with convergent margin magmatism. In the current study, new geochronological and geochemical data are combined with previously published isotopic data, obtained from the granitic rocks in the NIC, to constrain the timing of the district's tectonic setting transformation and determine its bearing on regional metallogeny. The new geochronological data constrain the timing of the tectonic transformation between 155 and 185 Ma. The NIC's granitic rocks can be geochemically subdivided into two groups. One group's geochemical signature exhibits steep rare earth element (REE) patterns with negligible Eu anomalies, lower Yb, higher Sr, and negative Nb-Ta-Ti (NTT) anomalies, which indicate a volcanic-arc environment with a thickened crust in a convergent setting. The other group exhibits flat REE patterns with obvious negative Eu anomalies, higher Yb, lower Sr, and weak NTT anomalies, which indicate an intra-plate extensional environment with a thinning crust. Combining geochronologic and isotopic data, the mineralization is Late Jurassic (~155 Ma). This is interpreted to be genetically related to the crystallization of the shallow crustal-sourced portions of this complex. Additionally, a tectonic model is presented that provides a plausible explanation for the abundant polymetallic mineralization that occurs in the northern margin of the NCC after 155 Ma., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

50. Genesis and Stability of Hydronium Ions in Zeolite Channels.

Author

Wang M, Jaegers NR, Lee MS, Wan C, Hu JZ, Shi H, Mei D, Burton SD, Camaioni DM, Gutiérrez OY, Glezakou VA, Rousseau R, Wang Y, and Lercher JA

Abstract

The catalytic sites of acidic zeolite are profoundly altered by the presence of water changing the nature of the Brønsted acid site. High-resolution solid-state NMR spectroscopy shows water interacting with zeolite Brønsted acid sites, converting them to hydrated hydronium ions over a wide range of temperature and thermodynamic activity of water. A signal at 9 ppm was observed at loadings of 2-9 water molecules per Brønsted acid site and is assigned to hydrated hydronium ions on the basis of the evolution of the signal with increasing water content, chemical shift calculations, and the direct comparison with HClO 4 in water. The intensity of 1 H- 29 Si cross-polarization signal first increased and then decreased with increasing water chemical potential. This indicates that hydrogen bonds between water molecules and the tetrahedrally coordinated aluminum in the zeolite lattice weaken with the formation of hydronium ion-water clusters and increase the mobility of protons. DFT-based ab initio molecular dynamics studies at multiple temperatures and water concentrations agree well with this interpretation. Above 140 °C, however, fast proton exchange between bridging hydroxyl groups and water occurs even in the presence of only one water molecule per acid site.

Published

2019