Your search keyword '"Shi Chunmeng"' showing total 11 results

1. Altered EEG Microstates Dynamics in Individuals with Subthreshold Depression When Generating Negative Future Events.

Author

Yang, Zhuoya, Xia, Lei, Fu, Yixiao, Zheng, Yingcan, Zhao, Mengxue, Feng, Zhengzhi, and Shi, Chunmeng

Abstract

Negative bias in prospection may play a crucial role in driving and maintaining depression. Recent research suggests abnormal activation and functional connectivity in regions of the default mode network (DMN) during future event generation in depressed individuals. However, the neural dynamics during prospection in these individuals remain unknown. To capture network dynamics at high temporal resolution, we employed electroencephalogram (EEG) microstate analysis. We examined microstate properties during both positive and negative prospection in 35 individuals with subthreshold depression (SD) and 35 controls. We identified similar sets of four canonical microstates (A–D) across groups and conditions. Source analysis indicated that each microstate map partially overlapped with a subsystem of the DMN (A: verbal; B: visual-spatial; C: self-referential; and D: modulation). Notably, alterations in EEG microstates were primarily observed in negative prospection of individuals with SD. Specifically, when generating negative future events, the coverage, occurrence, and duration of microstate A increased, while the coverage and duration of microstates B and D decreased in the SD group compared to controls. Furthermore, we observed altered transitions, particularly involving microstate C, during negative prospection in the SD group. These altered dynamics suggest dysconnectivity between subsystems of the DMN during negative prospection in individuals with SD. In conclusion, we provide novel insights into the neural mechanisms of negative bias in depression. These alterations could serve as specific markers for depression and potential targets for future interventions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Hyperbaric oxygen enhanced the chemotherapy of mitochondrial targeting molecule IR-780 in bladder cancer.

Author

Shen, Chongxing, Yue, Xiaofeng, Dai, Linyong, Wang, Jianwu, Li, Jinjin, Fang, Qiang, Zhi, Yi, Shi, Chunmeng, and Li, Weibing

Subjects

BLADDER cancer, TUMOR suppressor proteins, OXYGEN consumption, REACTIVE oxygen species, MITOCHONDRIA, MEMBRANE potential, CELL membranes

Abstract

Background: Bladder cancer has a high rate of recurrence and drug resistance due to the lack of effective therapies. IR-780 iodide, a near-infrared (NIR) mitochondria-targeting fluorescent agent, has been demonstrated to achieve higher selectivity than other drugs in different tumor types and exhibited tumor-killing effects in some cancers. However, this therapeutic strategy is rarely studied in bladder cancer. Material and methods: The accumulation of IR-780 in bladder cancer was measured by NIR imaging. Human bladder cell lines (T24, 5637, and TCCSUP) were treated with IR-780 or combined IR-780 and hyperbaric oxygen (HBO). Cell viability, cell apoptosis, cellular ATP production, mitochondrial reactive oxygen species (ROS), and plasma membrane potential were detected. Mitochondrial complex I protein NDUFS1 was measured by western blot. To confirm the anti-tumor efficacy of IR-780 + HBO, mouse bladder cell line (MB49) tumor-bearing mice were established and tumor size and weight were recorded. Besides, cell apoptosis and tumor size were assessed in drug-resistant bladder cancer cells (T24/DDP) and xenografts to evaluate the effect of IR-780 + HBO on drug-resistant bladder cancer. Results: IR-780 selectively accumulated in bladder cancer (bladder cancer cells, transplanted tumors, and bladder cancer tissue from patients) and could induce cancer cell apoptosis by targeting the mitochondrial complex I protein NDUFS1. The combination with HBO could significantly enhance the anti-tumor effect of IR-780 in vitro by promoting cancer cell uptake and inducing excessive mitochondrial ROS production, while suppressing tumor growth and recurrence in animal models without causing apparent toxicity. Moreover, this combination antitumor strategy was also demonstrated in drug-resistant bladder cancer cells (T24/DDP) and xenografts. Conclusion: We identified for the first time a combination of IR-780 and HBO (IR-780 + HBO), which exhibits mitochondria-targeting and therapeutic capabilities, as a novel treatment paradigm for bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2023

3. Molecular detection of spotted fever group rickettsiae in hedgehogs (Erinaceusamurensis) and hedgehog-attached ticks in Xuyi County, Southeast China.

Author

Zhu, Changqiang, Ai, Lele, Qi, Yong, Liu, Yunsheng, Li, Hong, Ye, Fuqiang, Wang, Qiuwei, Luo, Yizhe, Tan, Weilong, and Shi, Chunmeng

Subjects

TICKS, HEDGEHOGS, TICK infestations, TICK-borne diseases, RICKETTSIA, EHRLICHIA, FEVER

Abstract

Tick-borne diseases like Rickettsia, Anaplasma and Ehrlichia are widespread infectious zoonoses that threaten the health of both humans and animals worldwide. Ticks and their hosts, such as hedgehogs, can play a crucial role in transmitting tick-borne diseases and the cycle of Rickettsia. To investigate the presence and identity of Rickettsia in hedgehogs and hedgehog-attached ticks in Xuyi County, Southeast China, 114 ticks were collected from 45 hedgehogs captured totally. Via morphological and molecular methods, all these ticks were identified as two species: Haemaphysalis flava (110/114, 96.5%) and Haemaphysalis longicornis (4/114, 3.5%). Rickettsia spp. were genotypically characterized by PCR targeting rrs, gltA, ompA, ompB, and sca4 gene fragments. The prevalence of spotted fever group rickettsiae (SFGR) infection found in hedgehogs and ticks was 17.8% (8/45) and 78.1% (89/114), respectively. Phylogenetic analyses demonstrated that those Rickettsia spp. belong to two species: Rickettsia heilongjiangensis (R. heilongjiangensis XY-1) and a potential new species, Candidatus Rickettsia xuyiensis XY-2. The present study gave the first evidence of R. heilongjiangensis and Candidatus R. xuyiensis in ticks and hedgehogs of Southeast China. Our findings suggest that hedgehogs might be involved in the natural transmission cycle of Rickettsia species. [ABSTRACT FROM AUTHOR]

Published

2022

4. Stem Cell Based Biotherapy for Radiation Related Injury.

Author

Dai, Tingyu, Wu, Liao, Chen, Zelin, and Shi, Chunmeng

Published

2017

5. Long-term repopulation effects of donor BMDCs on intestinal epithelium.

Author

Liu Dengqun, Wang Fengchao, Zou Zhongmin, Dong Shiwu, Shi Chunmeng, Wang Junping, Ran Xinze, Su Yongping, Liu, Dengqun, Wang, Fengchao, Zou, Zhongmin, Dong, Shiwu, Shi, Chunmeng, Wang, Junping, Ran, Xinze, and Su, Yongping

Subjects

TRANSPLANTATION of organs, tissues, etc., EPITHELIUM, BONE marrow cells, FLOW cytometry, LABORATORY mice, INTESTINAL mucosa physiology, PROTEIN metabolism, BONE marrow physiology, ANIMAL experimentation, BONE marrow transplantation, COMPARATIVE studies, FLUORESCENT antibody technique, INTESTINAL mucosa, SMALL intestine, RESEARCH methodology, MEDICAL cooperation, MICE, PLANTS, PROTEINS, RADIATION injuries, RESEARCH, EVALUATION research

Abstract

Background: Bone marrow-derived cells (BMDCs) have the ability to differentiate into intestinal epithelial cells after transplantation and participate in the regeneration process of damaged epithelium.Aims: To investigate whether BMDCs could differentiate into intestinal epithelium long term in chimeric mice after transplantation and without special treatment.Methods: Forty irradiated C57BL/6 mice were used. Thirty of them (group A) received transplantation of BMDCs from GFP transgenic mice, and ten (group B) received PBS. The chimeric percentage at the 14th month was examined by flow cytometry. Engraftment of BMDCs was detected by immunohistochemistry in intestinal epithelium. Immunofluorescence observation was used to detect coexpression of PCK, CD45 and Chromogranin A with GFP. BMDCs in the epithelium were observed by an immune electron microscope. The percent of GFP(+) epithelial cells was also determined by flow cytometry.Results: Mice in group A had a survival rate of 93.3% 1 week after transplantation. BMDCs could engraft into recipients' intestinal epithelium. These cells expressed epithelial cell marker PCK, but could not express CD45. Some of them differentiated into enteroendocrine cells expressing Chromogranin A. GFP(+) villous epithelial cells ranged from 9.41 to 16.07% in different subgroups of group A. BMDCs in epithelium developed the characteristics of enterocytes and goblet cells. GFP(+)/PCK(+) epithelial cells at the 6th month made up a proportion of 16.11% among all the isolated epithelial cells.Conclusions: Long term, BMDCs could repopulate recipient's intestinal epithelium even without any special treatment, which suggests a novel insight into the maintenance of the intestinal epithelial constitution. [ABSTRACT FROM AUTHOR]

Published

2010

6. Receptor activator of NF-κB Ligand (RANKL) expression is associated with epithelial to mesenchymal transition in human prostate cancer cells.

Author

Odero-Marah, Valerie A, Wang, Ruoxiang, Chu, Gina, Zayzafoon, Majd, Xu, Jianchun, Shi, Chunmeng, Marshall, Fray F, Zhau, Haiyen E, and Chung, Leland WK

Subjects

PROSTATE cancer, MESENCHYME abnormalities, MESENCHYME, EPITHELIAL cells, METASTASIS, BONE metastasis, PHYSIOLOGY, PREVENTION

Abstract

Epithelial-mesenchymal transition (EMT) in cancer describes the phenotypic and behavioral changes of cancer cells from indolent to virulent forms with increased migratory, invasive and metastatic potential. EMT can be induced by soluble proteins like transforming growth factor β1 (TGFβ1) and transcription factors including Snail and Slug. We utilized the ARCaPE/ARCaPM prostate cancer progression model and LNCaP clones stably overexpressing Snail to identify novel markers associated with EMT. Compared to ARCaPE cells, the highly tumorigenic mesenchymal ARCaPM and ARCaPM1 variant cells displayed a higher incidence of bone metastasis after intracardiac administration in SCID mice. ARCaPM and ARCaPM1 expressed mesenchymal stromal markers of vimentin and N-cadherin in addition to elevated levels of Receptor Activator of NF-κB Ligand (RANKL). We observed that both epidermal growth factor (EGF) plus TGFβ1 treatment and Snail overexpression induced EMT in ARCaPE and LNCaP cells, and EMT was associated with increased expression of RANKL protein. Finally, we determined that the RANKL protein was functionally active, promoting osteoclastogenesis in vitro. Our results indicate that RANKL is a novel marker for EMT during prostate cancer progression. RANKL may function as a link between EMT, bone turnover, and prostate cancer skeletal metastasis.Cell Research (2008) 18:858–870. doi: 10.1038/cr.2008.84; published online 22 July 2008 [ABSTRACT FROM AUTHOR]

Published

2008

7. Spontaneous transformation of a clonal population of dermis-derived multipotent cells in culture.

Author

Shi, Chunmeng, Mai, Yue, Zhu, Ying, Cheng, Tianmin, and Su, Yongping

Abstract

It is reported that adult multipotent stem cells can undergo spontaneous transformation after long-term in vitro culture. Understanding the molecular mechanisms involved in this spontaneous transformation process can help in the design of future therapeutic applications. By far, the transformation process of adult multipotent stem cell is not well understood. In this study, a tumorigenic cell line nominated TDMC1 was established from a clonal population of rat dermis-derived multipotent cells (DMCs) following spontaneous transformation in culture. The transformed cells could produce tumors with characteristics of fibrous histocytoma when they are inoculated subcutaneously into nude mice. The molecular profiles of the nontransformed DMCs and transformed cells were analyzed by a deoxyribonucleic acid microarray. Our results showed that the overactivation of the K-ras/mitogen-activated protein kinase kinase signaling pathway played an important role in the transformation process. These data may be helpful to explain, at least in part, the possible mechanism for the malignant transformation of adult multipotent cells. [ABSTRACT FROM AUTHOR]

Published

2007

8. Increase in the radioresistance of normal skin fibroblasts but not tumor cells by mechanical injury.

Author

Chen, Zelin, Wang, Xin, Jin, Taotao, Wang, Yu, Hong, Christopher S, Tan, Li, Dai, Tingyu, Wu, Liao, Zhuang, Zhengping, and Shi, Chunmeng

Published

2017

9. Macrophage ABHD5 promotes colorectal cancer growth by suppressing spermidine production by SRM.

Author

Miao, Hongming, Ou, Juanjuan, Peng, Yuan, Zhang, Xuan, Chen, Yujuan, Hao, Lijun, Xie, Ganfeng, Wang, Zhe, Pang, Xueli, Ruan, Zhihua, Li, Jianjun, Yu, Liqing, Xue, Bingzhong, Shi, Hang, Shi, Chunmeng, and Liang, Houjie

Published

2016

10. Contribution of dermal-derived mesenchymal cells during liver repair in two different experimental models.

Author

Tan, Li, Dai, Tingyu, Liu, Dengqun, Chen, Zelin, Wu, Liao, Gao, Li, Wang, Yu, and Shi, Chunmeng

Published

2016

11. Non-cultured dermal-derived mesenchymal cells attenuate sepsis induced by cecal ligation and puncture in mice.

Author

Wang, Yu, Tan, Li, Sun, Huiqin, Chen, Zelin, Tan, Xu, Su, Yongping, Shi, Chunmeng, and Jin, Jie

Subjects

MESENCHYMAL stem cells, SEPSIS, LIGATURE (Surgery), IMMUNOREGULATION, CELLULAR therapy, ANIMAL models of communicable diseases, GENETICS

Abstract

Sepsis remains a threat to critically ill patients and carries a high morbidity and mortality. Cell-based therapies have risen in prominence in recent years. Dermal-derived mesenchymal cells (DMCs) are attractive as one of the abundant sources from which to isolate mesenchymal cells for therapeutic applications and can be easily accessed with minimal harm to the donor. In this study, we described for the first time the use of non-cultured DMCs for treating sepsis in a cecal ligation and puncture (CLP) mouse model and investigated their immunomodulatory effects. We found that non-cultured DMCs administration provides a beneficial effect to improve survival in CLP-induced sepsis. This effect is partly mediated by the ability of DMCs to home to sites of injury, to reduce the inflammatory response, to inhibit apoptosis, and to stimulate macrophage migration and phagocytosis. Our further findings suggest that DMCs treatment modulates the beneficial cytoprotective effects exhibited during sepsis, at least in part, by altering miRNA expression. These discoveries provide important evidence that non-cultured DMCs therapy has a specific anti-inflammatory effect on sepsis, and provide the basis for the development of a new therapeutic strategy for managing clinical sepsis. [ABSTRACT FROM AUTHOR]

Published

2015