Your search keyword '"Lian-Jun He"' showing total 5 results

1. GPIHBP1 increase accounts for rheumatic arthritis-related hypotriglyceridemia by facilitating lipids uptake of white adipose tissues

Author

Meng-Ke Song, Meng-Fan Gu, Ling Liu, Lian-Jun He, Peng Ye, Kui Yang, Dan-Dan Wang, Opeyemi Joshua Olatunji, Qin Yin, and Jian Zuo

Subjects

Rheumatic arthritis, Lipids paradox, Vascular endothelial cell, Adipocyte, CD36, IL-6, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Metabolism alteration is a common complication of rheumatic arthritis (RA). This work investigated the reason behind RA-caused triglyceride (TG) changes. Methods Fresh RA patients’ whole blood was transfused into NOD-SCID mice. Metabolism-regulatory tissues were examined after sacrifice. To verify the findings, tissues of the rats with long-lasting adjuvant-induced arthritis (AIA) were analyzed. Some rats were injected with human plasma and GPIHBP1, and their blood TG was monitored. Various cells were stimulated by cytokines or rheumatic subjects’ serum. Some pre-adipocytes were cultured by human serum or in the presence of HUVEC cells and GPIHBP1. Results TG decrease occurred in blood and white adipose tissues (WAT) of the RA blood-transfused NOD-SCID mice and chronic AIA rats. Fatty acids (FA) oxidation in muscles was accelerated a bit, while TG catabolism status in their livers was varied. TNF-α, IL-1β, IL-6 and RA/AIA serum promoted expression of TG utilization-related enzymes and FA uptake transporters in pre-adipocytes, but barely affected LPL. Mild IL-6 stimulus promoted GPIHBP1 release of HUVEC cells. GPIHBP1 was increased in RA serum. This change can decrease blood TG in rats, which was overshadowed by an injection of excessive GPIHBP1. RA serum slightly inhibited LPL secretion in pre-adipocytes. Both HUVEC cells co-culture and GPIHBP1 supplement reduced LPL distribution on pre-adipocytes, and eliminated LPL activity difference between normal and RA serum-treated cells. No TG uptake difference was observed in these circumstances. Conclusion RA-associated inflammation induces GPIHBP1 secretion of endothelial cells, which facilitates blood TG hydrolysis and uptake to compensate the loss in WAT.

Published

2025

2. Local Formability of Different Advanced High Strength Steels

Author

Shen, Fu Hui, Wang, He Song, Xu, Hao, Liu, Wen Qi, Münstermann, Sebastian, Lian, Jun He, Vincze, Gabriela, Barlat, Frédéric, RWTH Aachen University, Advanced Manufacturing and Materials, Department of Mechanical Engineering, Aalto-yliopisto, and Aalto University

Subjects

Damage mechanics, Forming limits, ddc:670, Mechanics of Materials, Mechanical Engineering, Medium-Mn steels, Stress state, General Materials Science

Abstract

25th International Conference on Material Forming, ESAFORM 2022, Braga, Portugal, 27 Apr 2022 - 29 Apr 2022; Key engineering materials : KEM 926, 917-925 (2022). doi:10.4028/p-dds916 special issue: "[25th International Conference on Material Forming, ESAFORM, 2022-04-27 - 2022-04-29, Braga, Portugal]", Published by Trans Tech Publications, Baech

Published

2022

3. Effect of Finite Element Mesh Size and Time-Increment on Predicting Part-Scale Temperature for Powder Bed Fusion Process

Author

Ullah, Rizwan, primary, Lian, Jun He, additional, Wu, Jiao Jiao, additional, and Niemi, Esko, additional

Published

2022

4. Crystal Plasticity Modeling of Al Alloy under Linear and Non-Linear Loading

Author

Juan, Rong Fei, primary, Liu, Wen Qi, additional, Inza, Xabier Gastañares, additional, Ureta, Xabier Dominguez, additional, Mendiguren, Joseba, additional, and Lian, Jun He, additional

Published

2022

5. Stress-state dependence of dynamic strain aging: Thermal hardening and blue brittleness

Author

Massachusetts Institute of Technology. Department of Mechanical Engineering, Liu, Wen-qi, Lian, Jun-he, Massachusetts Institute of Technology. Department of Mechanical Engineering, Liu, Wen-qi, and Lian, Jun-he

Abstract

This study aims to discover the stress-state dependence of the dynamic strain aging (DSA) effect on the deformation and fracture behavior of high-strength dual-phase (DP) steel at different deformation temperatures (25–400°C) and reveal the damage mechanisms under these various configurations. To achieve different stress states, predesigned specimens with different geometric features were used. Scanning electron microscopy was applied to analyze the fracture modes (e.g., dimple or shear mode) and underlying damage mechanism of the investigated material. DSA is present in this DP steel, showing the Portevin-Le Chatelier (PLC) effect with serrated flow behavior, thermal hardening, and blue brittleness phenomena. Results show that the stress state contributes distinctly to the DSA effect in terms of the magnitude of thermal hardening and the pattern of blue brittleness. Either low stress triaxiality or Lode angle parameter promotes DSA-induced blue brittleness. Accordingly, the damage mechanisms also show dependence on the stress states in conjunction with the DSA effect.

Published

2022