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1. Importance of the dipole of interstitial H induced by Pauli - repulsion for the catalysis

Author

You Jun-han, Ding Wen-jiang, Liu Dang-bo, Gao Hai-xiang, Cong Lina, Gu Xiao-kun, and Hu Song

Subjects
Heterogeneous catalysis, ‘Pauli activation’, Surface/Subsurface interstitial hydrogen, Induced H-dipole, Hydrogenation, Physics, QC1-999, Chemistry, QD1-999
Abstract

Recently we mentioned that the surface of solids often exerts Pauli repulsion on the interstitial/substitutional hydrogen, which markedly changes the properties of H, and increases its chemical activity, which is referred to as ‘Pauli activation of interstitial H’ for short. The purpose of this paper is to further confirm the reality of this activation mechanism at a quantitative level. We particularly mention the importance of the H-dipole of the interstitial hydrogen induced by Pauli activation for this catalysis, which is the key to understand the principle of this catalysis mechanism. Taking a simple diatomic molecule as an example, we first illustrate what are the prerequisites for forming a molecular covalent bond, when the two atoms are in close contact. Then we argue that, the Pauli-activated H at solid surface just meets these prerequisites due to the dual modulation effect of the induced H-dipole on both the energy and the spatial orientation of a foreign atom/molecule in the bonding process with H, thus accelerates the hydrogenation. Moreover, we emphasize that the size of the depression/hole at solid surface, where the interstitial H sited(simply referred to as ‘Pauli hole’), must match the radius of H to ensure the effectiveness of Pauli activation of H. Accordingly it provides a criteria for selecting a suitable catalysts for the specific chemical reaction, which would be useful in practical applications. Taking a common chemical reaction as an example, we make a calculation and quantitative analysis of the synthesis of MgH2, using Ni as the heterogeneous catalyst. Details of how to select a suitable catalyst are given in this reaction. And why and how the dual modulation effect of the induced H-dipole of interstitial H promotes the realization of the prerequisites, thus facilitates the formation of the covalent bond Mg-H. Therefore the rationality of the Pauli activation-catalysis is confirmed theoretically.

Published
2022
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3. Medium & long-chain acylcarnitine’s relation to lipid metabolism as potential predictors for diabetic cardiomyopathy: a metabolomic study

Author

Dan-meng Zheng, Zhen-ni An, Ming-hao Ge, Dong-zhuo Wei, Ding-wen Jiang, Xue-jiao Xing, Xiao-lei Shen, and Chang Liu

Subjects
Diabetic cardiomyopathy, Metabolomics, Acylcarnitine, Lipid metabolism, AMPK, Nutritional diseases. Deficiency diseases, RC620-627
Abstract

Abstract Background Acylcarnitine is an intermediate product of fatty acid oxidation. It is reported to be closely associated with the occurrence of diabetic cardiomyopathy (DCM). However, the mechanism of acylcarnitine affecting myocardial disorders is yet to be explored. This current research explores the different chain lengths of acylcarnitines as biomarkers for the early diagnosis of DCM and the mechanism of acylcarnitines for the development of DCM in-vitro. Methods In a retrospective non-interventional study, 50 simple type 2 diabetes mellitus patients and 50 DCM patients were recruited. Plasma samples from both groups were analyzed by high throughput metabolomics and cluster heat map using mass spectrometry. Principal component analysis was used to compare the changes occurring in the studied 25 acylcarnitines. Multivariable binary logistic regression was used to analyze the odds ratio of each group for factors and the 95% confidence interval in DCM. Myristoylcarnitine (C14) exogenous intervention was given to H9c2 cells to verify the expression of lipid metabolism-related protein, inflammation-related protein expression, apoptosis-related protein expression, and cardiomyocyte hypertrophy and fibrosis-related protein expression. Results Factor 1 (C14, lauroylcarnitine, tetradecanoyldiacylcarnitine, 3-hydroxyl-tetradecanoylcarnitine, arachidic carnitine, octadecanoylcarnitine, 3-hydroxypalmitoleylcarnitine) and factor 4 (octanoylcarnitine, hexanoylcarnitine, decanoylcarnitine) were positively correlated with the risk of DCM. Exogenous C14 supplementation to cardiomyocytes led to increased lipid deposition in cardiomyocytes along with the obstacles in adenosine 5′-monophosphate (AMP)-activated protein kinase (AMPK) signaling pathways and affecting fatty acid oxidation. This further caused myocardial lipotoxicity, ultimately leading to cardiomyocyte hypertrophy, fibrotic remodeling, and increased apoptosis. However, this effect was mitigated by the AMPK agonist acadesine. Conclusions The increased plasma levels in medium and long-chain acylcarnitine extracted from factors 1 and 4 are closely related to the risk of DCM, indicating that these factors can be an important tool for DCM risk assessment. C14 supplementation associated lipid accumulation by inhibiting the AMPK/ACC/CPT1 signaling pathway, aggravated myocardial lipotoxicity, increased apoptosis apart from cardiomyocyte hypertrophy and fibrosis were alleviated by the acadesine.

Published
2021
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14. Curcumin Conjugated Gold Nanoclusters as Perspective Therapeutics for Diabetic Cardiomyopathy

Author

Dong-zhuo Wei, Dan Li, Dan-meng Zheng, Zhen-ni An, Xue-jiao Xing, Ding-wen Jiang, Xi-fan Mei, and Chang Liu

Subjects
curcumin, AuNCs, lipid metabolism, H9c2, apoptosis, Chemistry, QD1-999
Abstract

Accumulation of lipids in the myocardium contributes to the development of cardiac dysfunctions and various chronic diseases, such as diabetic cardiomyopathy (DCM). Curcumin (Cur) can relieve lipid accumulation problems, but its efficiency is limited by poor water solubility and biocompatibility. Herein, gold nanoclusters (AuNCs) were used to improve the efficiency of Cur, and the conjugates Curcumin-AuNCs (AuCur) were developed. In the treatment of high-fat-induced myocardial cell damage, we found that AuCur could effectively reduce intracellular lipid accumulation, the increase of reactive oxygen species (ROS), the increase of mitochondrial division, and the increase of apoptosis compared with Cur. AuCur decreased the expression of the peroxisome proliferator-activated receptors-α subtype (PPARα), and the therapeutic effect of AuCur was canceled when the expression of PPARα was enhanced. For the above reasons, AuCur treated the toxic effect of high lipid on cardiomyocytes by regulating PPARα, providing a new idea and method for the treatment of DCM.

Published
2021
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19. A criterion of dimensional design to improve flame spread resistance of magnesium alloy components

Author

HU, Bo, HAN, Jia-xuan, LI, De-jiang, LI, Zi-xin, ZENG, Xiao-qin, DING, Wen-jiang, LIN, Zhan-hong, JIN, Chen, and ZHAO, Shou

Abstract

A criterion for predicting the flame spread time of stick-shaped Mg alloy samples was proposed based on the law of energy conservation. It is indicated that the flame spread time is mainly affected by the material and sample dimension. The initial temperature and ignition temperature of the control volume and the S/lcratio (the cross-sectional area/cross-sectional circumference) of the sample are decisive for the flame spread time. The flame spread time is proportional to the ΔH(the energy required to heat a unit mass of sample from initial temperature to ignition temperature) and the S/lcratio, which is confirmed in three Mg alloys of Mg–8.5Al–0.5Zn–0.2Mn, Mg–2.7Nd– 0.4Zn–0.6Zr and Mg–4.0Y–3.3Nd–0.5Zr. For samples with the same dimension, the Mg–8.5Al–0.5Zn–0.2Mn alloy sample possesses the largest ΔHand the longest flame spread time. For samples with constant length and cross-sectional area, the sample with circular cross-section has the largest S/lcratio and the best flame spread resistance in the same alloy.

Published
2024
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20. Beneficial effects of a novel shark-skin collagen dressing for the promotion of seawater immersion wound healing

Author

Xian-Rong Shen, Xiu-Li Chen, Hai-Xia Xie, Ying He, Wei Chen, Qun Luo, Wei-Hong Yuan, Xue Tang, Deng-Yong Hou, Ding-Wen Jiang, and Qing-Rong Wang

Subjects
Anti-seawater immersion dressing, Shark skin collagen, Seawater immersion wound, Wound healing, Medicine (General), R5-920, Military Science
Abstract

Abstract Background Wounded personnel who work at sea often encounter a plethora of difficulties. The most important of these difficulties is seawater immersion. Common medical dressings have little effect when the affected area is immersed in seawater, and only rarely dressings have been reported for the treatment of seawater-immersed wounds. The objective of this study is to develop a new dressing which should be suitable to prevent the wound from seawater immersion and to promote the wound healing. Methods Shark skin collagen (SSC) was purified via ethanol de-sugaring and de-pigmentation and adjusted for pH. A shark skin collagen sponge (SSCS) was prepared by freeze-drying. SSCS was attached to an anti-seawater immersion polyurethane (PU) film (SSCS + PU) to compose a new dressing. The biochemical properties of SSC and physicochemical properties of SSCS were assessed by standard methods. The effects of SSCS and SSCS + PU on the healing of seawater-immersed wounds were studied using a seawater immersion rat model. For the detection of SSCS effects on seawater-immersed wounds, 12 SD rats, with four wounds created in each rat, were divided into four groups: the 3rd day group, 5th day group, 7th day group and 12th day group. In each group, six wounds were treated with SSCS, three wounds treated with chitosan served as the positive control, and three wounds treated with gauze served as the negative control. For the detection of the SSCS + PU effects on seawater-immersed wounds, 36 SD rats were divided into three groups: the gauze (GZ) + PU group, chitosan (CS) + PU group and SSCS + PU group, with 12 rats in each group, and two wounds in each rat. The wound sizes were measured to calculate the healing rate, and histomorphology and the immunohistochemistry of the CD31 and TGF-β expression levels in the wounded tissues were measured by standard methods. Results The results of Ultraviolet-visible (UV-vis) spectrum, Fourier-transform infrared (FTIR) spectrum, circular dichroism (CD) spectra, sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), and amino acid composition analyses of SSC demonstrated that SSC is type I collagen. SSCS had a homogeneous porous structure of approximately 200 μm, porosity rate of 83.57% ± 2.64%, water vapor transmission ratio (WVTR) of 4500 g/m2, tensile strength of 1.79 ± 0.41 N/mm, and elongation at break of 4.52% ± 0.01%. SSCS had significant beneficial effects on seawater-immersed wound healing. On the 3rd day, the healing rates in the GZ negative control, CS positive control and SSCS rats were 13.94% ± 5.50%, 29.40% ± 1.10% and 47.24% ± 8.40%, respectively. SSCS also enhanced TGF-β and CD31 expression in the initial stage of the healing period. The SSCS + PU dressing effectively protected wounds from seawater immersion for at least 4 h, and accelerated re-epithelialization, vascularization and granulation formation of seawater-immersed wounds in the earlier stages of wound healing, and as well as significantly promoted wound healing. The SSCS + PU dressing also enhanced expression of TGF-β and CD31. The effects of SSCS and SSCS + PU were superior to those of both the chitosan and gauze dressings. Conclusions SSCS has significant positive effects on the promotion of seawater-immersed wound healing, and a SSCS + PU dressing effectively prevents seawater immersion, and significantly promotes seawater-immersed wound healing.

Published
2017
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21. Medium & long-chain acylcarnitine’s relation to lipid metabolism as potential predictors for diabetic cardiomyopathy: a metabolomic study

Author

Chang Liu, Xuejiao Xing, Xiao-Lei Shen, Ming-Hao Ge, Dong-zhuo Wei, Dan-meng Zheng, Ding-wen Jiang, and Zhen-ni An

Subjects
Adult, Male, AMPK, medicine.medical_specialty, RC620-627, Diabetic Cardiomyopathies, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Diabetic cardiomyopathy, Mass Spectrometry, Cell Line, chemistry.chemical_compound, Acylcarnitine, Endocrinology, Risk Factors, Carnitine, Internal medicine, Animals, Humans, Medicine, Metabolomics, Protein kinase A, Nutritional diseases. Deficiency diseases, Beta oxidation, Retrospective Studies, Acadesine, business.industry, Research, Biochemistry (medical), Lipid metabolism, Middle Aged, Aminoimidazole Carboxamide, medicine.disease, Rats, Diabetes Mellitus, Type 2, Lipotoxicity, chemistry, Female, Ribonucleosides, business, Myristic Acids, Biomarkers, Myoblasts, Cardiac, medicine.drug
Abstract

Background Acylcarnitine is an intermediate product of fatty acid oxidation. It is reported to be closely associated with the occurrence of diabetic cardiomyopathy (DCM). However, the mechanism of acylcarnitine affecting myocardial disorders is yet to be explored. This current research explores the different chain lengths of acylcarnitines as biomarkers for the early diagnosis of DCM and the mechanism of acylcarnitines for the development of DCM in-vitro. Methods In a retrospective non-interventional study, 50 simple type 2 diabetes mellitus patients and 50 DCM patients were recruited. Plasma samples from both groups were analyzed by high throughput metabolomics and cluster heat map using mass spectrometry. Principal component analysis was used to compare the changes occurring in the studied 25 acylcarnitines. Multivariable binary logistic regression was used to analyze the odds ratio of each group for factors and the 95% confidence interval in DCM. Myristoylcarnitine (C14) exogenous intervention was given to H9c2 cells to verify the expression of lipid metabolism-related protein, inflammation-related protein expression, apoptosis-related protein expression, and cardiomyocyte hypertrophy and fibrosis-related protein expression. Results Factor 1 (C14, lauroylcarnitine, tetradecanoyldiacylcarnitine, 3-hydroxyl-tetradecanoylcarnitine, arachidic carnitine, octadecanoylcarnitine, 3-hydroxypalmitoleylcarnitine) and factor 4 (octanoylcarnitine, hexanoylcarnitine, decanoylcarnitine) were positively correlated with the risk of DCM. Exogenous C14 supplementation to cardiomyocytes led to increased lipid deposition in cardiomyocytes along with the obstacles in adenosine 5′-monophosphate (AMP)-activated protein kinase (AMPK) signaling pathways and affecting fatty acid oxidation. This further caused myocardial lipotoxicity, ultimately leading to cardiomyocyte hypertrophy, fibrotic remodeling, and increased apoptosis. However, this effect was mitigated by the AMPK agonist acadesine. Conclusions The increased plasma levels in medium and long-chain acylcarnitine extracted from factors 1 and 4 are closely related to the risk of DCM, indicating that these factors can be an important tool for DCM risk assessment. C14 supplementation associated lipid accumulation by inhibiting the AMPK/ACC/CPT1 signaling pathway, aggravated myocardial lipotoxicity, increased apoptosis apart from cardiomyocyte hypertrophy and fibrosis were alleviated by the acadesine.

Published
2021

43. Development of High Strength and High Thermal Conductivity Semi-Solid Magnesium Alloy by Thixomolding Process

Author

Gu, Li Dong, Shang, Xiao Qing, Wang, Jie, Deng, Jun Jun, Liu, Yu Peng, Zeng, Xiao Qin, and Ding, Wen Jiang

Abstract

This paper investigates the influence of Cu addition on the microstructure, mechanical properties, and thermal conductivity of a semi-solid Mg-10Zn alloy produced by Thixomolding process. Microstructure of the Mg-10Zn alloy consists of α-Mg matrix and Mg2Zn second phase. The formation of Cu3Zn phase was found after the addition of Cu particles. Besides, the volume fraction of solid phase decreased in the Mg-Zn/Cu alloy compared with that of binary Mg-Zn alloy. The yield strength of the alloy was enhanced from 157MPa to 188MPa after Cu addition at the sacrifice of a small amount of ductility. Thermal conductivity, on the other hand, were kept the same level of 115-117 (W/m·K) in the Mg-10Zn alloy and Mg-10Zn/Cu alloy. This work demonstrates the potential for developing Mg alloys with high strength and high thermal conductivity via proper alloy design using Thixomolding process.

Published
2023
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48. Curcumin Conjugated Gold Nanoclusters as Perspective Therapeutics for Diabetic Cardiomyopathy

Author

Zhen-ni An, Dan Li, Xifan Mei, Chang Liu, Dan-meng Zheng, Xuejiao Xing, Dong-zhuo Wei, and Ding-wen Jiang

Subjects
chemistry.chemical_classification, Reactive oxygen species, apoptosis, Lipid metabolism, General Chemistry, Peroxisome, Pharmacology, medicine.disease, Chemistry, chemistry.chemical_compound, chemistry, Apoptosis, Diabetic cardiomyopathy, lipid metabolism, Curcumin, medicine, curcumin, AuNCs, H9c2, Receptor, QD1-999, Intracellular, Original Research
Abstract

Accumulation of lipids in the myocardium contributes to the development of cardiac dysfunctions and various chronic diseases, such as diabetic cardiomyopathy (DCM). Curcumin (Cur) can relieve lipid accumulation problems, but its efficiency is limited by poor water solubility and biocompatibility. Herein, gold nanoclusters (AuNCs) were used to improve the efficiency of Cur, and the conjugates Curcumin-AuNCs (AuCur) were developed. In the treatment of high-fat-induced myocardial cell damage, we found that AuCur could effectively reduce intracellular lipid accumulation, the increase of reactive oxygen species (ROS), the increase of mitochondrial division, and the increase of apoptosis compared with Cur. AuCur decreased the expression of the peroxisome proliferator-activated receptors-α subtype (PPARα), and the therapeutic effect of AuCur was canceled when the expression of PPARα was enhanced. For the above reasons, AuCur treated the toxic effect of high lipid on cardiomyocytes by regulating PPARα, providing a new idea and method for the treatment of DCM.

Published
2021

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