Your search keyword '"Mengyi Han"' showing total 14 results

1. Reduced intestinal‐to‐diffuse conversion and immunosuppressive responses underlie superiority of neoadjuvant immunochemotherapy in gastric adenocarcinoma

Author

Lei Wang, Linghong Wan, Xu Chen, Peng Gao, Yongying Hou, Linyu Wu, Wenkang Liu, Shuoran Tian, Mengyi Han, Shiyin Peng, Yuting Tan, Yuwei Pan, Yuanfeng Ren, Jinyang Li, Haihui Wen, Qin Liu, Mengsi Zhang, Tao Wang, Zhong‐Yi Qin, Junyu Xiang, Dongfeng Chen, Xianfeng Li, Shu‐Nan Wang, Chuan Chen, Mengxia Li, Fan Li, Zhenning Wang, and Bin Wang

Subjects

gastric adenocarcinoma, immunochemotherapy, Lauren's classification, neoadjuvant therapy, tumor immune microenvironment, Medicine

Abstract

Abstract Neoadjuvant immunochemotherapy (NAIC) achieves superior clinical benefits over neoadjuvant chemotherapy (NAC) in multiple types of human cancers, including gastric adenocarcinoma (GAC). However, it is poorly understood how the malignant epithelial cells and tumor immune microenvironment (TIME) might respond distinctly to NAIC and NAC that underlies therapeutic efficacy. Here treatment‐naive and paired tumor tissues from multiple centers were subjected to pathological, immunological, and transcriptomic analysis. NAIC demonstrated significantly increased rate of pathological complete response compared to NAC (pCR: 25% vs. 4%, p

Published

2024

2. Stabilization of TGF‐β Receptor 1 by a Receptor‐Associated Adaptor Dictates Feedback Activation of the TGF‐β Signaling Pathway to Maintain Liver Cancer Stemness and Drug Resistance

Author

Kewei Liu, Fanxuan Tian, Xu Chen, Biyin Liu, Shuoran Tian, Yongying Hou, Lei Wang, Mengyi Han, Shiying Peng, Yuting Tan, Yuwei Pan, Zhaole Chu, Jinyang Li, Linrong Che, Dongfeng Chen, Liangzhi Wen, Zhongyi Qin, Xianfeng Li, Junyu Xiang, Xiu‐wu Bian, Qin Liu, Xiaoli Ye, Tao Wang, and Bin Wang

Subjects

cancer stem cells, feedback regulation, TGF‐β receptor, TGF‐β signaling, tyrosine kinase inhibitor, Science

Abstract

Abstract Dysregulation of the transforming growth factor‐β (TGF‐β) signaling pathway regulates cancer stem cells (CSCs) and drug sensitivity, whereas it remains largely unknown how feedback regulatory mechanisms are hijacked to fuel drug‐resistant CSCs. Through a genome‐wide CRISPR activation screen utilizing stem‐like drug‐resistant properties as a readout, the TGF‐β receptor‐associated binding protein 1 (TGFBRAP1) is identified as a TGF‐β‐inducible positive feedback regulator that governs sensitivity to tyrosine kinase inhibitors (TKIs) and promotes liver cancer stemness. By interacting with and stabilizing the TGF‐β receptor type 1 (TGFBR1), TGFBRAP1 plays an important role in potentiating TGF‐β signaling. Mechanistically, TGFBRAP1 competes with E3 ubiquitin ligases Smurf1/2 for binding to TGFΒR1, leading to impaired receptor poly‐ubiquitination and proteasomal degradation. Moreover, hyperactive TGF‐β signaling in turn up‐regulates TGFBRAP1 expression in drug‐resistant CSC‐like cells, thereby constituting a previously uncharacterized feedback mechanism to amplify TGF‐β signaling. As such, TGFBRAP1 expression is correlated with TGFΒR1 levels and TGF‐β signaling activity in hepatocellular carcinoma (HCC) tissues, as well as overall survival and disease recurrence in multiple HCC cohorts. Therapeutically, blocking TGFBRAP1‐mediated stabilization of TGFBR1 by selective inhibitors alleviates Regorafenib resistance via reducing CSCs. Collectively, targeting feedback machinery of TGF‐β signaling pathway may be an actionable approach to mitigate drug resistance and liver cancer stemness.

Published

2024

3. A model‐based meta‐analysis of immune‐related adverse events during immune checkpoint inhibitors treatment for NSCLC

Author

Renwei Zhang, Daming Kong, Rong Chen, Yuchen Guo, Weizhe Jian, Mengyi Han, and Tianyan Zhou

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Immune checkpoint inhibitors (ICIs) have become a vital part of the therapeutic landscape for non‐small cell lung cancer (NSCLC) in recent years benefiting from their remarkable efficacy. However, ICIs are associated with potentially life‐threatening immune‐related adverse events (irAEs). This study aims to quantify dose dependence and additional influencing factors of both any grade and grade greater than or equal to 3 irAEs in patients with NSCLC treated by ICIs. The trial‐level irAE data was collected and pooled from 129 cohorts in 81 clinical studies. A logit‐transformed meta‐regression model was applied to derive the quantitative relationship of irAE rate and ICI exposure. Programmed cell death‐1 (PD‐1) or programmed cell death ligand‐1 (PD‐L1) inhibitors showed no dose dependence in patients with NSCLC, whereas cytotoxic T lymphocyte–associated antigen 4 (CTLA‐4) inhibitors exhibited a statistically significant dose dependence when used alone or combined with PD‐1 or PD‐L1 inhibitors. Besides, therapy line and combination of ICIs with chemotherapy or target therapy were significant covariates. Hopefully, the results of this study can improve clinicians’ awareness of irAEs and be helpful for clinical decisions during ICI treatment for NSCLC.

Published

2022

4. Potential Toxicity and Mechanisms of T-2 and HT-2 Individually or in Combination on the Intestinal Barrier Function of Porcine Small Intestinal Epithelial Cells

Author

Weihua He, Jianhua Wang, Mengyi Han, Lihua Wang, Ling Li, Jiahui Zhang, Siqi Chen, Jiayi Guo, Xiaohu Zhai, and Junhua Yang

Subjects

T-2 toxin, HT-2 toxin, porcine intestinal epithelial cells, inflammation, intestinal barrier, Medicine

Abstract

Under natural conditions, T-2 toxin can be easily metabolized to HT-2 toxin by deacetylation, and T-2 and HT-2 are usually co-contaminated in grain and feed at a high detected rate. Our previous information indicated that T-2 toxin could injure the function of the intestinal barrier, but the combined toxicity and mechanism of T-2 and HT-2 on the intestinal cells of porcines are still unknown. Therefore, we aimed to explore T-2 and HT-2 individually and combined on cellular viability, cell membrane integrity, the expression of tight junction-related proteins, and the generation of inflammatory factors in porcine intestinal epithelial cells (IPEC-J2). The results showed that T-2 and HT-2, individually or in combination, could induce a decrease in cell viability, an increase in LDH release and IL-1, IL-6, and TNF-α generation, and a decrease in the anti-inflammatory factor IL-10. Based on the analysis of immunofluorescence staining, real-time PCR, and western blotting, the tight junction protein expressions of Claudin-1, Occludin, and ZO-1 were significantly decreased in the T-2 and HT-2 individual or combination treated groups compared with the control. Furthermore, all the parameter changes in the T-2 + HT-2 combination group were much more serious than those in the individual dose groups. These results suggest that T-2 and HT-2, individually and in combination, could induce an intestinal function injury related to an inflammatory response and damage to the intestinal barrier function in porcine intestinal epithelial cells. Additionally, T-2 and HT-2 in combination showed a synergistic toxic effect, which will provide a theoretical basis to assess the risk of T-2 + HT-2 co-contamination in porcine feed.

Published

2023

5. Phosphorus-Doped directly interconnected networks of amorphous Metal-Organic framework nanowires for efficient methanol oxidation

Author

Mengyi Han, Zhiyong Zhao, Xiaowei Zhang, Peng Wang, Liwen Xing, Dandan Jia, Linmeng Wang, Xiao Chen, Hongyi Gao, and Ge Wang

Subjects

Biomaterials, Colloid and Surface Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2023

6. A stochastic population pharmacodynamic model of QAP14 in the treatment of lung metastases of 4T1 breast cancer

Author

Ling Yong, Daming Kong, Guoshu Chen, Tianyan Zhou, Mengyi Han, Xiaoxue Yan, and Yuchen Guo

Subjects

Oncology, medicine.medical_specialty, education.field_of_study, Lung, business.industry, Population, Lung metastasis, Pharmaceutical Science, medicine.disease, Breast cancer, medicine.anatomical_structure, Internal medicine, Pharmacodynamics, medicine, education, business

Published

2021

7. QAP21 reduces stemness and mobility of metastatic breast cancer cells involving D1DR activation

Author

Ye Yao, Guoshu Chen, Xiaoxue Yan, Mengyi Han, Ling Yong, Junsheng Xue, Yuchen Guo, Tianyan Zhou, and Qingyu Yao

Subjects

business.industry, Cell Mobility, Cancer research, Pharmaceutical Science, Medicine, business, medicine.disease, Metastatic breast cancer

Published

2021

8. Metal-Organic Frameworks Decorated Cu2O Heterogeneous Catalysts for Selective Oxidation of Styrene

Author

Mengyi Han, Xue Tang, Peng Wang, Zhiyong Zhao, Xiaohua Ba, Yu Jiang, and Xiaowei Zhang

Subjects

metal-organic frameworks, Cu2O, styrene oxidation, H2O2, base free, Physical and Theoretical Chemistry, Catalysis

Abstract

The selective oxidation of styrene with highly efficient, environmentally benign, and cost-effective catalysts are of great importance for sustainable chemical processes. Here, we develop an in situ self-assembly strategy to decorate Cu-based metal-organic framework (MOF) Cu-BDC-NH2 nanocrystals on Cu2O octahedra to construct a series of Cu2O@Cu-BDC-NH2 catalysts for selective oxidation of styrene. Using H2O2 as green oxidants, the optimized sample of Cu2O@Cu-BDC-NH2-8h could achieve 85% styrene conversion with 76% selectivity of benzaldehyde under a mild condition of 40 °C. The high performance of the as-prepared heterogeneous catalysts was attributed to the well-designed Cu+/Cu2+ interface between Cu2O and Cu-BDC-NH2 as well as the porous MOF shells composed of the uniformly dispersed Cu-BDC-NH2 nanocrystals. The alkaline properties of Cu2O and the –NH2 modification of MOFs enable the reaction to be carried out in a base-free condition, which simplifies the separation process and makes the catalytic system more environmentally friendly. Besides the Cu2O octahedra (od-Cu2O), the Cu2O cuboctahedrons (cod-Cu2O) were synthesized by adjusting the added polyvinyl pyrrolidone, and the obtained cod-Cu2O@Cu-BDC-NH2 composite also showed good catalytic performance. This work provides a useful strategy for developing highly efficient and environmentally benign heterogeneous catalysts for the selective oxidation of styrene.

Published

2022

9. Direct Z-scheme heterojunction of PCN-222/CsPbBr3 for boosting photocatalytic CO2 reduction to HCOOH

Author

Peng Wang, Xiaohua Ba, Xiaowei Zhang, Hongyi Gao, Mengyi Han, Zhiyong Zhao, Xiao Chen, Linmeng Wang, Xuemei Diao, and Ge Wang

Subjects

General Chemical Engineering, Environmental Chemistry, General Chemistry, Industrial and Manufacturing Engineering

Published

2023

10. QAP14 suppresses breast cancer stemness and metastasis via activation of dopamine D1 receptor

Author

Guoshu Chen, Yuchen Guo, Ye Yao, Ling Yong, Xiaoxue Yan, Tianyan Zhou, Wei-Zhe Jian, Junsheng Xue, and Mengyi Han

Subjects

0301 basic medicine, Epithelial-Mesenchymal Transition, Breast Neoplasms, Article, Metastasis, Mice, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Downregulation and upregulation, Cell Movement, In vivo, Cell Line, Tumor, medicine, Animals, Humans, Pharmacology (medical), Neoplasm Metastasis, Protein kinase B, Pharmacology, Chemistry, Receptors, Dopamine D1, Correction, Cancer, General Medicine, medicine.disease, Metastatic breast cancer, 030104 developmental biology, Apoptosis, 030220 oncology & carcinogenesis, Neoplastic Stem Cells, Cancer research, Female

Abstract

Breast cancer is the second leading cause of cancer-related mortality in women, mainly due to metastasis, which is strongly associated with cancer stemness. Our previous studies showed that the eradication of cancer stem-like cells (CSCs) may be related to the activation of dopamine D1 receptor (D1DR). This study aimed to explicitly demonstrate the target-role of D1DR activation in antimetastatic therapy and to investigate the potential efficacy and the underlying D1DR-related mechanisms of QAP14, a new oral compound. 4T1, MDA-MB-231, and D1DR-knockout 4T1 (4T1-D1DR) cells were selected for in vitro study, while 4T1 and 4T1-D1DR cells were further used to establish a mouse allograft model for in vivo study. Our results showed that D1DR is abundantly expressed in both 4T1 and MDA-MB-231 cells and that knocking out D1DR in 4T1 cells accelerated migration and invasion in vitro as well as lung metastasis in vivo. QAP14 inhibited colony formation, cell motility, mammosphere formation and CSC frequency, induced CSC apoptosis and D1DR expression, and increased cAMP/cGMP levels. Additionally, QAP14 showed inhibitory effects on tumor growth and lung metastasis with acceptable safety in vivo. Knocking out D1DR almost completely abolished the efficacy, confirming that QAP14 exhibits its anti-CSC and antimetastatic effects through D1DR activation. The underlying mechanisms involved suppression of the nuclear factor κB (NF-κB)/protein kinase B (Akt) pathway and consequent downregulation of both epithelial-to-mesenchymal transition (EMT) process and cancer stemness. In summary, our findings suggest a potential candidate compound, QAP14, as well as a potential target, D1DR, for metastatic breast cancer therapy.

Published

2021

11. In situ semi-sacrificial template-assisted growth of ultrathin metal–organic framework nanosheets for electrocatalytic oxygen evolution

Author

Xiaowei Zhang, Wang Peng, Mengyi Han, Hongyi Gao, Ge Wang, Rui Dang, Piao Cheng, Siyuan Chen, and Zhiyong Zhao

Subjects

Materials science, General Chemical Engineering, Oxygen evolution, Nanotechnology, Heterojunction, General Chemistry, Conductivity, Electrocatalyst, Industrial and Manufacturing Engineering, Bimetal, Metal, visual_art, visual_art.visual_art_medium, Environmental Chemistry, Metal-organic framework, Nanoscopic scale

Abstract

Ultrathin Bimetal MOF nanosheets (BMOFNs) are regarded as effective electrocatalyst for Oxygen evolution reaction (OER) because of their abundance of coordinatively unsaturated metal atoms, enhanced mass permeability and coupling effect between bimetals, while the limited conductivity and stability severely hinders their widespread application. Here, we develop an in situ semi-sacrificial template-assisted strategy to grow ultrathin BMOFNs on NiCo-LDH to construct non-noble metal electrocatalysts that are both active and stable. The optimized NiCo-LDH@MOFs heterostructure exhibits a superior electrocatalytic activity with accelerated electronic transfer and significantly enhanced durability of over 300 h. An advanced AFM-IR technology is introduced for the first time to investigate the formation of the 2D-2D heterogeneous structure in NiCo-LDH@MOFs, providing insights into the morphology-structure-composition evolution of the electrocatalyst at a nanoscale. This work demonstrates an in-situ growth strategy to achieve high-performance ultrathin MOF-based electrocatalysts, and provides advanced combinatorial characterization techniques to monitor the material growth process.

Published

2021

12. Flexible monolithic phase change material based on carbon nanotubes/chitosan/poly(vinyl alcohol)

Author

Piao Cheng, Yuanyuan Chen, Mengyi Han, Xiao Chen, Panpan Liu, Ge Wang, Hongyi Gao, and Liwen Xing

Subjects

Vinyl alcohol, Materials science, General Chemical Engineering, Composite number, 02 engineering and technology, General Chemistry, Polyethylene glycol, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Phase-change material, Industrial and Manufacturing Engineering, 0104 chemical sciences, law.invention, Chitosan, chemistry.chemical_compound, Crystallinity, chemistry, law, Ultimate tensile strength, Environmental Chemistry, Composite material, 0210 nano-technology

Abstract

Currently, most reported composite phase change materials (PCMs) are powdery shape, which require secondary processing for practical applications. Although some monolithic composite PCMs have been developed, their flexibility usually undergoes a remarkable reduction or even complete disappearance when supporting material s are infiltrated with PCMs. To solve this problem, we fabricated a flexible supporting material with a folded layer-bridge network structure by dispersing carbon nanotubes (CNTs) in acetic acid solution of chitosan (CS) with poly(vinyl alcohol) (PVA) using a directional freezing method. Then CS/PVA/CNTs (CPC) scaffold was infiltrated with polyethylene glycol (PEG) to prepare PEG@CPC composite PCM. The resulting flexible composite PCM displays excellent mechanical properties, such as high tensile strength of 2.42 MPa and bending resistance of >100 cycles. Moreover, it displays outstanding thermal properties, such as high crystallinity of close to 100% and encapsulation ratio of 92.6 wt%. This work provides a simple method for preparation of flexible monolithic composite PCMs for many potential applications, such as wearable fitting-skin temperature-controlled materials.

Published

2020

13. In situ one-step construction of monolithic silica aerogel-based composite phase change materials for thermal protection

Author

Panpan Liu, Dangjia Chen, Mengyi Han, Ge Wang, Xiao Chen, Junjun Lv, Piao Cheng, and Hongyi Gao

Subjects

Materials science, business.industry, Mechanical Engineering, Composite number, Aerogel, 02 engineering and technology, Temperature cycling, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Contact angle, Compressive strength, Thermal conductivity, Mechanics of Materials, Thermal insulation, Latent heat, Ceramics and Composites, Composite material, 0210 nano-technology, business

Abstract

Currently, numerous studies are devoted to the pursuit of thermal conductivity enhancement of phase change materials (PCMs). On the contrary, few researches are reported to reduce the thermal conductivity of PCMs. Generally, the PCMs with reduced thermal conductivity have great potential in thermal protection application. Herein, we propose a novel in situ one-step strategy to facilely prepare monolithic silica aerogel-based composite PCMs. The silica aerogels possess low thermal conductivity and are used to encapsulate PCMs to prepare composite PCMs, such as polyethylene glycol (PEG) or octadecanol. Compare with PEG2000@silica aerogel, the resulting monolithic octadecanol@silica aerogel have low thermal conductivity (0.12 W m−1 K−1), high latent heat (127.73 J/g), large compressive strength (11 MPa), good hydrophobicity (contact angle 124°) and superior thermal cycling stability. This monolithic silica aerogel-based composite PCMs could prolong heat preservation duration due to the synergistic effect between low thermal conductivity and high latent heat of composite PCMs, showing potential promise for direct application to the thermal insulation and thermal protection device. More importantly, this in situ one-step synthesis strategy is universal for different types of PCMs.

Published

2020

14. Aerodynamic Performance Optimization of MW-Level Large Vertical Axis Wind Turbine with Trailing Edge Flaps

Author

CHEN Hao, DAI Mengyi, HAN Zhaolong, ZHOU Dai, BAO Yan, TU Jiahuang

Subjects

large vertical axis wind turbine (vawt), variable pitch, variable trailing edge flap, numerical simulation, Engineering (General). Civil engineering (General), TA1-2040, Chemical engineering, TP155-156, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

Low power efficiency is a critical factor that restricts the engineering application of the vertical axis wind turbine (VAWT). In order to improve the efficiency of VAWT and reduce aerodynamic load, an improved aerodynamic performance optimization model for a large VAWT with trailing edge flaps at a medium tip speed ratio (TSR=2.65) is proposed. A numerical simulation is conducted using the SST k-ω turbulence model. The results indicate that compared with the base model, the power coefficient of the model under the synergic motion of pitch and flap can be increased by 12.2%. In addition, the synergic motion of pitch and flap can significantly reduce the thrust and lateral force on the VAWT, which are reduced by 12.4% and 7.5% respectively compared with the base model. The load fluctuation of thrust and lateral force is also significantly lower than that of the base model, which is helpful to reduce the fatigue load on wind turbine. This model is expected to be applied to MW-level VAWT.

Published

2023