Your search keyword '"Meng, Bowen"' showing total 9 results

1. Mechanical force-activated CD109 on periodontal ligament stem cells governs osteogenesis and osteoclast to promote alveolar bone remodeling

Author

Li, Yang, Li, Yi, Liu, Chao, Yu, Xinyi, Gan, Ziqi, Xiang, Lusai, Zheng, Jinxuan, Meng, Bowen, Yu, Rongcheng, Chen, Xin, Kou, Xiaoxing, Cao, Yang, and Ai, Tingting

Abstract

Mechanical force-mediated bone remodeling is crucial for various physiological and pathological processes involving multiple factors, including stem cells and the immune response. However, it remains unclear how stem cells respond to mechanical stimuli to modulate the immune microenvironment and subsequent bone remodeling. Here, we found that mechanical force induced increased expression of CD109 on periodontal ligament stem cells (PDLSCs) in vitro and in periodontal tissues from the force-induced tooth movement rat model in vivo, accompanied by activated alveolar bone remodeling. Under mechanical force stimulation, CD109 suppressed the osteogenesis capacity of PDLSCs through the JAK/STAT3 signaling pathway, whereas it promoted PDLSC-induced osteoclast formation and M1 macrophage polarization through paracrine. Moreover, inhibition of CD109 in vivo by lentivirus-shRNA injection increased the osteogenic activity and bone density in periodontal tissues. On the contrary, it led to decreased osteoclast numbers and pro-inflammatory factor secretion in periodontal tissues and reduced tooth movement. Mechanistically, mechanical force-enhanced CD109 expression via the repression of miR-340-5p. Our findings uncover a CD109-mediated mechanical force response machinery on PDLSCs, which contributes to regulating the immune microenvironment and alveolar bone remodeling during tooth movement.Graphical Abstract

Published

2024

2. Insights into Chlorobenzene Catalytic Oxidation over Noble Metal Loading {001}-TiO2: The Role of NaBH4 and Subnanometer Ru Undergoing Stable Ru0↔Ru4+ Circulation.

Author

Sun, Bohua, Li, Qianqian, Su, Guijin, Meng, Bowen, Wu, Mingge, Zhang, Qifan, Meng, Jing, and Shi, Bin

Published

2022

3. Apoptotic vesicles inherit SOX2 from pluripotent stem cells to accelerate wound healing by energizing mesenchymal stem cells.

Author

Qu, Yan, He, Yifan, Meng, Bowen, Zhang, Xiao, Ding, Junjun, Kou, Xiaoxing, Teng, Wei, and Shi, Songtao

Subjects

MESENCHYMAL stem cells, HIPPO signaling pathway, WOUND healing, HUMAN embryonic stem cells, STEM cells, APOPTOSIS, PLURIPOTENT stem cells

Abstract

Billions of cells undergo apoptosis every day in the human body, resulting in the generation of a large number of apoptotic vesicles (apoVs) to maintain organ and tissue homeostasis. However, the characteristics and function of pluripotent stem cell (PSC)-derived apoVs (PSC-apoVs) are largely unknown. In this study, we showed that human embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) produced larger numbers of apoVs than human umbilical cord mesenchymal stem cells (UMSCs) do when induced by staurosporine. In addition to expressing the general apoV markers cleaved caspase 3, Annexin V, calreticulin, ALIX, CD63 and TSG101, ESC-apoVs inherited pluripotent-specific molecules SOX2 from ESCs in a caspase 3-dependent manner. Moreover, ESC-apoVs could promote mouse skin wound healing via transferring SOX2 into skin MSCs via activating Hippo signaling pathway. Collectively, these findings reveal that apoVs are capable of inheriting pluripotent molecules from ESCs to energize adult stem cells, suggesting the potential to use PSC-apoVs for clinical applications. Apoptotic vesicles (apoVs) are essential to maintain organ and tissue homeostasis. However, the characteristics and function of pluripotent stem cell (PSC)-derived apoVs (PSC-apoVs) are largely unknown. This study showed that PSC-apoVs produced 100 times more apoVs than human umbilical cord mesenchymal stem cells (UMSCs). Despite expressing the general apoV makers, PSC-apoVs inherited pluripotent-specific molecule SOX2 from PSCs in a caspase 3-dependent manner. Moreover, PSC-apoVs promote mouse skin wound healing via transferring SOX2 into skin MSCs, thus activating Hippo signaling pathway. These findings reveal that apoVs are capable of inheriting pluripotent molecules from PSCs to energize adult stem cells, thus providing a cell-free strategy for clinical applications of PSCs. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

4. Encryption-then-embedding-based hybrid data hiding scheme for medical images.

Author

Meng, Bowen, Yuan, Xiaochen, Zhang, Qiyuan, Lam, Chan-Tong, and Huang, Guoheng

Subjects

DIAGNOSTIC imaging, MEDICAL care, DIGITAL images, DIGITAL watermarking, ELECTRONIC records, MEDICAL records, PUBLIC key cryptography, IMAGE segmentation, CRYPTOGRAPHY

Abstract

The smart healthcare system plays a vital role in modern healthcare, facilitating the exchange of Electronic Patient Records (EPR), and improving medical care. Nevertheless, safeguarding the inherent security and confidentiality of EPR data persists as a formidable challenge. This issue demanding rigorous attention and innovative solutions. Digital watermarking safeguards the genuineness and integrity of digital images, and is widely employed. In medical imaging, it is vital to guarantee the confidentiality and security of patient data. In this paper, we propose an Encryption-Then-Embedding-Based data hiding scheme for medical images that combines cryptography and watermarking techniques. The proposed technique first encrypts the patient information using Advanced Encryption Standard-Galois/Counter Mode (AES-GCM) before embedding. The intensity-based image segmentation method is then used to select the Region of Non-interest (RONI) for embedding the encrypted patient information and the watermark using a Fused Transform-Based Method (FTBM). The experiments conducted in this study utilize a large dataset of medical data, The Cancer Genome Atlas Lung Adenocarcinoma Collection (TCGA-LUAD). The findings of this study demonstrate the efficacy of the proposed technique in safeguarding patient data while simultaneously preserving the quality of medical images. In comparison to existing techniques, the proposed approach demonstrates superior performance in terms of security, authenticity, and integrity. [ABSTRACT FROM AUTHOR]

Published

2024

5. Meltwater Contribution to Lake Water Budget in Mid‐Latitude Asia During the Deglaciation and Early Holocene

Author

Jiang, Jiawei, Liu, Hu, Jiang, Qingfeng, Chang, Yuan‐Pin, Song, Mu, Meng, Bowen, Wang, Huanye, Cao, Yunning, Shen, Ji, Krivonogov, Sergey, Liu, Weiguo, and Liu, Zhonghui

Abstract

Contrasting moisture evolutions between westerlies‐dominated Central Asia and monsoonal Asia since the mid‐Holocene have been widely recognized. Yet, inconsistent hydrological records over the early Holocene from both regions hamper our understanding of hydroclimatic changes and associated mechanisms. Here we present isotopic and biomarker (alkenone) records from three Chinese lakes located at both regions to address a possible meltwater role in lake water budget. Our results show the occurrence of particularly depleted isotopic values of lake water associated with lake freshening within the deglaciation and early Holocene. Together with anomalously old 14C dates, which were also documented in many other Asian lakes, our observations likely indicate substantial meltwater contribution to mid‐latitude Asian lake water budget, along with the climatic warming. Hence, the potential meltwater effect should be considered when inferring Asian summer monsoon and westerlies behavior over this critical period, with important implications to Holocene hydrological reconstructions and future hydroclimatic projections. Although meltwater events have been well documented in marine records, the effects of meltwater on Asian lake water budget and regional hydrological cycle during the deglaciation and warm early Holocene remain poorly investigated. Our isotopic and biomarker records from Lake Sayram, Yanhaizi, and Qinghai in northern China, together with anomalously old 14C dates from investigated lakes and other Asian lakes, likely indicate substantial meltwater contribution to lake water budget within the deglaciation and early Holocene, which appears to be a large‐scale phenomenon in mid‐latitude Asia. This suggests that the potential meltwater effect on Asian lake hydrology should be assessed in climatic reconstructions and simulations, which may shed light on accurate interpretation of westerlies and summer monsoon circulation over the early Holocene. Isotopic records likely indicate meltwater contribution to Asian lake water budget within the deglaciation and early HoloceneAnomalously old 14C dates summarized from mid‐latitude Asian lakes also support substantial meltwater input during this periodMeltwater effects should be considered when inferring early Holocene Asian summer monsoon and westerlies behavior Isotopic records likely indicate meltwater contribution to Asian lake water budget within the deglaciation and early Holocene Anomalously old 14C dates summarized from mid‐latitude Asian lakes also support substantial meltwater input during this period Meltwater effects should be considered when inferring early Holocene Asian summer monsoon and westerlies behavior

Published

2022

6. MiR-18 inhibitor promotes the differentiation of bovine skeletal muscle-derived satellite cells by increasing MEF2D expression

Author

Meng, Bowen, Jiang, Di, Kong, Delin, Yan, Yunqin, Nie, Yuzhe, Teng, Chun-Bo, and Liang, Yang

Abstract

Skeletal muscle is composed of muscle fibers formed from myoblast differentiation. Recently, numerous researchers have demonstrated that microRNAs (miRNAs) play an essential role in modulating the proliferation and differentiation of myoblasts. Our previous study has shown that among the miR-17-92 cluster members, miR-17 and miR-20a together with miR-19b can efficiently promote the differentiation of murine C2C12 and bovine primary myoblasts. However, the role of miR-18 in this process remains elusive. In this study, we revealed that miR-18 inhibited the differentiation of bovine skeletal muscle-derived satellite cells (bMDSCs), whereas an miR-18 inhibitor significantly promoted cell differentiation (p< 0.001). Then, a target gene of miR-18 was found to be myocyte enhancer factor 2D (MEF2D), which is critical for myoblast differentiation. Furthermore, we found that the combination of the miR-18 inhibitor and miR-19 significantly improved the formation of bMDSCs-derived muscle fibers (p< 0.001). This study revealed the role of miR-18 in bovine skeletal muscle differentiation and contributed to the understanding of the regulatory mechanism of mammalian myogenic differentiation.Our research suggests that miR-18 inhibitor can significantly promote the differentiation of bMDSCs by increasing MEF2D expression, and our findings may provide a new way to improve beef yield.Beef is a beneficial food source, and improving muscle yield and quality has become a hot topic in the beef industry. Therefore, our study aimed to explore effective methods to improve bovine muscle cell differentiation to increase beef production. The study revealed that microRNA-18 (miR-18) inhibitor could promote the differentiation of bovine skeletal muscle-derived satellite cells (bMDSCs) by increasing the expression of myocyte enhancer factor 2D (MEF2D), a critical gene for myoblast differentiation. Furthermore, we found that combined inhibitors of miR-18 and miR-19 could significantly improve bMDSCs differentiation. Our study demonstrated the role of a new regulatory factor that may enhance beef production level and contributed to elucidating the mechanism of muscle differentiation.

Published

2022

7. Insights into Chlorobenzene Catalytic Oxidation over Noble Metal Loading {001}-TiO2: The Role of NaBH4and Subnanometer Ru Undergoing Stable Ru0↔Ru4+Circulation

Author

Sun, Bohua, Li, Qianqian, Su, Guijin, Meng, Bowen, Wu, Mingge, Zhang, Qifan, Meng, Jing, and Shi, Bin

Abstract

Catalytic combustion of ubiquitous chlorinated volatile organic compounds (CVOCs) encounters bottlenecks regarding catalyst deactivation by chlorine poisoning and generation of toxic polychlorinated byproducts. Herein, Ru, Pd, and Rh were loaded on {001}-TiO2for thermal catalytic oxidation of chlorobenzene (CB), with Ru/{001}-TiO2representing superior reactivity, CO2selectivity, and stability in the 1000 min on-stream test. Interestingly, both acid sites and reactive active oxygen species (ROS) were remarkably promoted via adding NaBH4. But merely enhancing these active sites of the catalyst in CVOC treatment is insufficient. Continuous deep oxidation of CB with effective Cl desorption is also a core issue successfully tackled through the steady Ru0↔Ru4+circulation. This circulation was facilitated by the observed higher subnanometer Ru dispersion on {001}-TiO2than the other two noble metals that was supported by single atom stability DFT calculation. Nearly 88 degradation products in off-gas were detected, with Ru/{001}-TiO2producing the lowest polychlorinated benzene byproducts. An effective and sustainable CB degradation mechanism boosted by the cooperation of NaBH4enhanced active sites and Ru circulation was proposed accordingly. Insights gained from this study open a new avenue to the rational design of promising catalysts for the treatment of CVOCs.

Published

2022

8. Downcore variations of carbon reservoir ages linked to lake level changes in northwest China.

Author

Meng, Bowen, Zhou, Aifeng, Zhang, Yancheng, Song, Mu, Liu, Weiguo, Xie, Zhouqing, Li, Shenghua, and Liu, Zhonghui

Subjects

RESERVOIRS, LAKES, CARBON, CLIMATE change, CARBON isotopes, ATMOSPHERIC nitrogen

Abstract

Lacustrine sediments provide an excellent opportunity to study climate change beyond the instrumental period and further to elucidate its intrinsic interactions with ecosystem. However, the radiocarbon (14C)-based chronological framework of such natural archives, on which robust interpretation of geochemical proxies primarily depends, is commonly challenged due to the difficulty in properly correcting carbon reservoir effect. Here we combine new and existing 14C dates on total organic carbon (TOC) in two sediment cores from Lake Qinghai and Manas, northwest China, to evaluate the reservoir effect (expressed by reservoir age, RA) over the past ~1500 years. Generally, these two cores characterize RA values ranging from ~2100 to 4200 and from ~350 to 2100 years respectively. Straightforward comparison with paleorecords generated from the same cores indicates a close correlation between RA changes and lake level fluctuations on multi-centennial timescales. Our results suggest that lake level changes (or hydrological variations), which are expected to control the relative input of terrigenous old carbon, merit careful consideration to reduce dating uncertainty. It is essential to select TOC samples across discrete depths, under the control of similar lake status, to allow comparable RAs and, as a result, to establish reliable chronology. [ABSTRACT FROM AUTHOR]

Published

2020

9. Recent advances in the removal of persistent organic pollutants (POPs) using multifunctional materials:a review.

Author

Sun, Bohua, Li, Qianqian, Zheng, Minghui, Su, Guijin, Lin, Shijing, Wu, Mingge, Li, Chuanqi, Wang, Qingliang, Tao, Yuming, Dai, Lingwen, Qin, Yi, and Meng, Bowen

Subjects

PERSISTENT pollutants, CHEMICAL kinetics

Abstract

Persistent organic pollutants (POPs) have gained heightened attentions in recent years owing to their persistent property and hazard influence on wild life and human beings. Removal of POPs using varieties of multifunctional materials have shown a promising prospect compared with conventional treatments. Herein, three main categories, including thermal degradation, electrochemical remediation, as well as photocatalytic degradation with the use of diverse catalytic materials, especially the recently developed prominent ones were comprehensively reviewed. Kinetic analysis and underlying mechanism for various POPs degradation processes were addressed in detail. The review also systematically documented how catalytic performance was dramatically affected by the nature of the material itself, the structure of target pollutants, reaction conditions and treatment techniques. Moreover, the future challenges and prospects of POPs degradation by means of multiple multifunctional materials were outlined accordingly. Knowing this is of immense significance to enhance our understanding of POPs remediation procedures and promote the development of novel multifunctional materials. Image 1 • Removal of POPs using various multifunctional materials was reviewed. • Thermal, electrochemical, photocatalytic remediation processes were summarized. • Discussion of numerous underlying degradation mechanisms. • Multiple impact factors of POPs degradation were analyzed. • Future challenges and prospects for POPs remediation. The removal of POPs using multifunctional materials was reviewed, with further discussion of the underlying mechanism, reaction kinetics, and future challenges. [ABSTRACT FROM AUTHOR]

Published

2020