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7. Relationship of Glymphatic Function with Cognitive Impairment, Sleep Disorders, Anxiety and Depression in Patients with Parkinson's Disease.

Author

Gui, Qian, Meng, Jingcai, Shen, Mingqiang, Feng, Hongxuan, Dong, Xiaofeng, Xu, Daqiang, Zhu, Wenxin, Cheng, Qingzhang, Wang, Linhui, Wu, Guanhui, and Lu, Yanli

Subjects
PARKINSON'S disease, MONTREAL Cognitive Assessment, DIFFUSION tensor imaging, SLEEP, RECEIVER operating characteristic curves
Abstract

Introduction: Previous studies have predominantly explored the relationship of the glymphatic system with motor symptoms in Parkinson's disease (PD); however, research on non-motor symptoms remains limited. Therefore, this study investigated the association between glymphatic function and non-motor symptoms, including cognitive impairment and sleep disorders, in PD patients. Methods: This study recruited 49 PD patients and 38 healthy controls (HC). Glymphatic function was evaluated using enlarged perivascular spaces (EPVS) in the basal ganglia (BG) region and diffusion tensor image analysis along the perivascular space (DTI-ALPS) index. Cognition, sleep, anxiety, and depression scales were assessed in all participants. According to the scale scores, PD patients were further divided into several groups to identify the presence of non-motor symptoms. Differences in EPVS numbers and ALPS index between PD subgroups and HC group were compared. Spearman correlation analysis was performed to investigate the association between the PD non-motor symptoms and ALPS index. Additionally, receiver operating characteristic (ROC) curves analysis was conducted for ALPS index to predict cognitive impairment and insomnia in PD patients. Results: PD patients with and without non-motor symptoms all showed more EPVS numbers than the controls, and the EPVS numbers in PD patients with cognitive impairment were also greater than those without. Notably, except for the depression subgroup, PD patients with non-motor symptoms showed significantly lower ALPS index than the controls. The Montreal Cognitive Assessment (MoCA) scores were positively correlated, whereas the Parkinson's Disease Sleep Scale (PDSS)-2 and REM Sleep Behavior Disorder Screening Questionnaire (RBDSQ) scores were negatively correlated with the ALPS index in PD patients (r=0.3618, P=0.0053; r=− 0.4146, P=0.0015; r=− 0.2655, P=0.0326, respectively). The ALPS index proved to be predictive of cognitive impairment and insomnia in PD patients (AUC=0.7733, P=0.001; AUC=0.7993, P=0.0004, respectively). Conclusion: Glymphatic function is closely associated with cognition and sleep of PD patients. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Long-noncoding RNA Peg13 alleviates epilepsy progression in mice via the miR-490-3p/Psmd11 axis to inactivate the Wnt/β-catenin pathway

Author

Feng, Hongxuan, Gui, Qian, Zhu, Wei, Wu, Guanhui, Dong, Xiaofeng, Shen, Mingqiang, Luo, Hailong, Xue, Shouru, and Cheng, Qingzhang

Subjects
Original Article
Abstract

Epilepsy, one of the most common neurological diseases with spontaneous recurrent seizures, is a severe health problem globally. The present study aimed to study the role and upstream mechanism of 26S proteasome non-ATPase regulatory subunit 11 (Psmd11) in epilepsy. In the current paper, epileptic mice models were successfully established. Hematoxylin and eosin (HE) staining was performed to reveal morphology of hippocampal tissues. Nissl's staining was performed for detection of neuron injury. Enzyme-linked immunosorbent assay (ELISA) was conducted to detect concentrations of pro-inflammatory cytokines. The expression of Psmd11 was downregulated in the hippocampal tissues of epileptic mice, and overexpression of Psmd11 improved the spatial learning and memory of epileptic mice. Further, upregulation of Psmd11 protected epileptic hippocampal neurons from injury. Moreover, Psmd11 overexpression inhibited cell apoptosis, suppressed the activities of microglia and astrocytes, as well as reduced inflammatory response in epileptic hippocampi. Psmd11 was a downstream target of miR-490-3p. Long noncoding RNA (lncRNA) Peg13 bound with miR-490-3p to upregulate Psmd11. Subsequently, rescue experiments revealed that Peg13 suppressed the progression of epilepsy via upregulating Psmd11. Furthermore, Psmd11 was verified to inactivate the Wnt/β-catenin pathway. Peg13 repressed the Wnt/β-catenin pathway via upregulation of Peg13. In conclusion, this paper illuminated the function and upstream mechanism of Psmd11 in epilepsy. Psmd11 was upregulated by Peg13 at a miR-490-3p dependent way, thus inactivating the Wnt/β-catenin pathway and alleviating epilepsy course in mice, which may be a promising approach for epilepsy treatment.

Published
2020

21. Simulation investigation on marine exhaust gas SO2 absorption by seawater scrubbing.

Author

Li, Wenjun, Zhang, Yongxin, Zhao, Zhongyang, Liu, Chang, Wang, Yifan, Shen, Mingqiang, Dai, Haobo, Yang, Yang, Zheng, Chenghang, and Gao, Xiang

Subjects
GAS absorption & adsorption, WASTE gases, SEAWATER, TWO-phase flow, CONTAINER ships, GAS distribution
Abstract

Ships have become an important source of SO2 emission in coastal areas with the rapid development of maritime transport. It is of great significance to develop a marine scrubber for reducing SO2 emission of ships. In this study, numerical simulation of a full-scale marine spray scrubber is conducted to investigate two-phase flow pattern and SO2 absorption process in the scrubber. A desulfurization model based on seawater absorbent is coupled into the simulation, which considers the mass transfer between phases and seawater aqueous phase chemistry simultaneously. A distribution ring is introduced in the scrubber to enhance the desulfurization performance of the scrubber. The result of simulation shows that the distribution ring can optimize effectively the distribution of gas–liquid phases and enhance the SO2 absorption. Under vertical condition, the desulfurization efficiency could be promoted approximate 6% after installing a distribution ring. The inclined condition resulting from the ship swinging could lead to the uneven distribution of droplets and an obvious decrease (8.7%) of desulfurization efficiency, whereas the desulfurization performance of the scrubber could be ensured with a distribution ring installed even under an inclined condition. Finally, a spray scrubber design scheme has been developed and successfully applied in the exhaust gas cleaning system (EGCS) of a container ship. Test result shows the outlet average value of SO2/CO2 can be reduced to 3.55. Meanwhile, the consistency of test data and calculation result indicates the applicability of the numerical model established for the simulation and optimization of the scrubber in industrial applications also. Implications: EGCS is an effective method to reduce SO2 emission of marine industry. However, different from a land desulfurization tower, the application of a spray scrubber in EGCS faces more problems due to the different application scenarios and complex sea conditions (inclined condition resulting from ships swinging and so on) during sailing. In this work, a numerical model capable of investigating physical and chemical phenomena in the scrubber simultaneously is established, which can produce a great amount of data for the operation instruction of EGCS and the design and optimization of the marine spray scrubber. The distribution ring is introduced in the marine spray scrubber to intensify the SO2 absorption and enhance the desulfurization performance of the scrubber under different working conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Melatonin enhances thrombopoiesis through ERK1/2 and Akt activation orchestrated by dual adaptor for phosphotyrosine and 3‐phosphoinositides.

Author

Chen, Shilei, Qi, Yan, Wang, Song, Xu, Yang, Shen, Mingqiang, Hu, Mengjia, Du, Changhong, Chen, Fang, Chen, Mo, Lu, Yukai, Zhang, Zihao, Quan, Yong, Wang, Cheng, Wang, Fengchao, and Wang, Junping

Subjects
TREATMENT effectiveness, PINEAL gland, MELATONIN, BLOOD platelets
Abstract

Melatonin (MT), endogenously secreted by the pineal gland, is closely related to multiple biological processes; however, its effect on thrombopoiesis is still not well illustrated. Here, we demonstrate that MT administration can elevate peripheral platelet levels. Analysis of different stages in thrombopoiesis reveals that MT has the capacity to promote the expansion of CD34+ and CD41+ cells, and accelerate proplatelet formation (PPF) and platelet production. Furthermore, in vivo experiments show that MT has a potential therapeutic effect on radiation‐induced thrombocytopenia. The underlying mechanism suggests that both extracellular signal‐regulated kinase 1/2 (ERK1/2) and Akt signaling are involved in the processes of thrombopoiesis facilitated by MT. Interestingly, in addition to the direct regulation of Akt signaling by its upstream phosphoinositide 3‐kinase (PI3K), ERK1/2 signaling is also regulated by PI3K via its effector, dual adaptor for phosphotyrosine and 3‐phosphoinositides (DAPP1), in megakaryocytes after MT treatment. Moreover, the expression level of DAPP1 during megakaryocyte differentiation is closely related to the activation of ERK1/2 and Akt at different stages of thrombopoiesis. In conclusion, our data suggest that MT treatment can promote thrombopoiesis, which is modulated by the DAPP1‐orchestrated activation of ERK1/2 and Akt signaling. [ABSTRACT FROM AUTHOR]

Published
2020
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23. dTMP-GH Fusion Protein Therapy Improves Survival after Radiation Injury Combined with Skin-Burn Trauma in Mice.

Author

Long, Shuang, Wang, Guojian, Shen, Mingqiang, Zhao, Na, Wan, Huimin, Xu, Yang, Wang, Song, Wang, Cheng, Gao, Jining, Hao, Yuhui, Wang, Aiping, Li, Rong, Ran, Xinze, Su, Yongping, Wang, Junping, and Wang, Tao

Subjects
RADIATION injuries, CHIMERIC proteins, SOMATOTROPIN, HUMAN growth hormone, SKIN wound treatment, IONIZING radiation
Abstract

Exposure to ionizing radiation combined with traumatic tissue injury is an important life-threatening condition found in the civilian populations after nuclear and radiological events. The significance feature of radiation combined injury (RCI) is the severe combined effect, which makes the injury more complicated. At present, there are limited measures available to treat RCI. Here we show that a chimeric protein dTMP-GH, fusing human growth hormone (hGH) with a tandem dimer of thrombopoietin mimetic peptide (dTMP), could be an effective therapy agent for RCI in a mice model. In this study, using a RCI mouse model exposed to 60Co γ-ray photons (6.0 Gy, 0.3 Gy/min) followed by a 20% total-body-surface-area burns (henceforth called: RB-CI) was established. Administration of dTMP-GH (200 ug/kg) for 10 consecutive days beginning at 24 h after injury improved survival rate during a 30-day observation period compared with the control vehicle group. dTMP-GH treatment also showed enhanced bone marrow hematopoiesis recovery determined by peripheral blood analysis and bone marrow histopathology. Meanwhile, dTMP-GH treatment accelerated skin wound closure and mitigated ileum injury in the RCI model. These results suggest that dTMP-GH may prove to be an effective therapeutic drug for RCI. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Dopamine induces platelet production from megakaryocytes via oxidative stress-mediated signaling pathways.

Author

Chen, Shilei, Hu, Mengjia, Shen, Mingqiang, Xu, Yang, Wang, Cheng, Wang, Xinmiao, Li, Fengju, Zeng, Dongfeng, Chen, Fang, Zhao, Gaomei, Chen, Mo, Wang, Fengchao, Cheng, Tianmin, Su, Yongping, Zhao, Jinghong, Wang, Song, and Wang, Junping

Subjects
DOPAMINE, BLOOD platelets, MEGAKARYOCYTES, OXIDATIVE stress, CATECHOLAMINES, NEUROTRANSMITTERS, HEMATOPOIESIS
Abstract

Dopamine (DA), a catecholamine neurotransmitter, is known to for its diverse roles on hematopoiesis, yet its function in thrombopoiesis remains poorly understood. This study shows that DA stimulation can directly induce platelet production from megakaryocytes (MKs) in the final stages of thrombopoiesis via a reactive oxygen species (ROS)-dependent pathway. The mechanism was suggested by the results that DA treatment could significantly elevate the ROS levels in MKs, and time-dependently activate oxidative stress-mediated signaling, including p38 mitogen-activated protein kinase, c-Jun NH2-terminal kinase, and caspase-3 signaling pathways, while the antioxidants N-acetylcysteine and L-glutathione could effectively inhibit the activation of these signaling pathways, as well as the ROS increase and platelet production triggered by DA. Therefore, our data revealed that the direct role and mechanism of DA in thrombopoiesis, which provides new insights into the function recognition of DA in hematopoiesis. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Gut Microbial Dysbiosis May Predict Diarrhea and Fatigue in Patients Undergoing Pelvic Cancer Radiotherapy: A Pilot Study.

Author

Wang, Aiping, Ling, Zongxin, Yang, Zhixiang, Kiela, Pawel R., Wang, Tao, Wang, Cheng, Cao, Le, Geng, Fang, Shen, Mingqiang, Ran, Xinze, Su, Yongping, Cheng, Tianmin, and Wang, Junping

Subjects
DIARRHEA, FATIGUE (Physiology), CANCER radiotherapy, PILOT projects, DRUG side effects, CANCER patients, PATIENTS
Abstract

Fatigue and diarrhea are the most frequent adverse effects of pelvic radiotherapy, while their etiologies are largely unknown. The aim of this study is to investigate the correlations between fatigue, diarrhea, and alterations in gut microbiota induced by pelvic radiotherapy. During the 5-week treatment of pelvic radiotherapy in 11 cancer patients, the general fatigue score significantly increased and was more prominent in the patients with diarrhea. The fatigue score was closely correlated with the decrease of serum citrulline (an indicator of the functional enterocyte mass) and the increases of systemic inflammatory proteins, including haptoglobin, orosomuoid, α1-antitrypsin and TNF-α. Serum level of lipopolysaccharide (LPS) was also elevated, especially in the patients with diarrhea indicating epithelial barrier breach and endotoxemia. Pyrosequencing analysis of 16S rRNA gene revealed that microbial diversity, richness, and the Firmicutes/Bacteroidetes ratio were significantly altered prior to radiotherapy in patients who later developed diarrhea. Pelvic radiotherapy induced further changes in fecal microbial ecology, some of which were specific to the patients with or without diarrhea. Our results indicate that gut microbial dysbiosis prior to radiation therapy may be exploited to predict development of diarrhea and to guide preventive treatment options. Radiation-induced dysbiosis may contribute to pelvic radiation disease, including mucositis, diarrhea, systemic inflammatory response, and pelvic radiotherapy-associated fatigue in cancer patients. [ABSTRACT FROM AUTHOR]

Published
2015
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27. Grape seed proanthocyanidin extract ameliorates ionizing radiation-induced hematopoietic stem progenitor cell injury by regulating Foxo1 in mice.

Author

Qi, Yan, Chen, Shilei, Lu, Yukai, Zhang, Zihao, Wang, Song, Chen, Naicheng, Shen, Mingqiang, Chen, Fang, Chen, Mo, Quan, Yong, Yang, Lijing, Xu, Yang, Su, Yongping, Hu, Mengjia, and Wang, Junping

Subjects
*GRAPE seed extract, *HEMATOPOIETIC stem cells, *IONIZING radiation, *RADIATION tolerance, *HEMATOPOIETIC system, *FORKHEAD transcription factors
Abstract

Ionizing radiation (IR)-induced excessive reactive oxygen species (ROS) is an important contributor of the injury of hematopoietic system. Grape seed proanthocyanidin extract (GSPE) is a new type of antioxidant, whereas whether it could ameliorate IR-induced hematopoietic injury remains unclear. Here, we show that GSPE treatment improves the survival of irradiated mice and alleviates IR-induced myelosuppression. Meanwhile, the hematopoietic reconstituting ability of hematopoietic stem cells (HSCs) in mice following irradiation exposure is significantly increased after GSPE treatment. Furthermore, GSPE treatment can reduce IR-induced ROS production and relieve DNA damage and apoptosis in hematopoietic stem progenitor cells (HSPCs). Interestingly, we find that a critical antioxidant-associated gene fokhead box transcription factor O1 (Foxo1) is significantly decreased in HSPCs after irradiation. Consistently, hematopoietic specific deletion of Foxo1 increases the radiosensitivity of mice. Further investigations reveal that GSPE treatment specifically upregulates the expression of Foxo1, as well as its target genes superoxide dismutase 1 (SOD1), superoxide dismutase 2 (SOD2) and catalase (CAT). Importantly, Foxo1 deficiency largely abolishes the radioprotection of GSPE on HSPCs. Collectively, our data demonstrate that GSPE plays an important role in ameliorating IR-induced HSPC injury via the Foxo1-mediated pathway. Therefore, GSPE may be used as a promising radioprotective agent. [Display omitted] • GSPE can mitigate IR-induced hematopoietic injury. • GSPE reduces ROS level and DNA damage in irradiated HSPCs. • Foxo1 deficiency leads to increased sensitivity of HSPCs to irradiation. • GSPE specifically upregulates the expression of Foxo1 to decrease IR-induced injury in HSPCs. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Oxymatrine boosts hematopoietic regeneration by modulating MAPK/ERK phosphorylation after irradiation-induced hematopoietic injury.

Author

Yang, Lijing, Lu, Yukai, Zhang, Zihao, Chen, Yin, Chen, Naicheng, Chen, Fang, Qi, Yan, Han, Changhao, Xu, Yang, Chen, Mo, Shen, Mingqiang, Wang, Song, Zeng, Hao, Su, Yongping, Hu, Mengjia, and Wang, Junping

Subjects
*MITOGEN-activated protein kinases, *HEMATOPOIETIC stem cells, *IONIZING radiation, *PHOSPHORYLATION, *CELL proliferation, *OCCUPATIONAL hazards, CAUSE of death statistics
Abstract

Hematopoietic toxicity due to ionizing radiation (IR) is a leading cause of death in nuclear incidents, occupational hazards, and cancer therapy. Oxymatrine (OM), an extract originating from the root of Sophora flavescens (Kushen), possesses extensive pharmacological properties. In this study, we demonstrate that OM treatment accelerates hematological recovery and increases the survival rate of mice subjected to irradiation. This outcome is accompanied by an increase in functional hematopoietic stem cells (HSCs), resulting in enhanced hematopoietic reconstitution abilities. Mechanistically, we observed significant activation of the MAPK signaling pathway, accelerated cellular proliferation, and decreased cell apoptosis. Notably, we identified marked increases in the cell cycle transcriptional regulator Cyclin D1 (Ccnd1) and the anti-apoptotic protein BCL2 in HSCs after OM treatment. Further investigation revealed that the expression of Ccnd1 transcript and BCL2 levels were reversed upon specific inhibition of ERK1/2 phosphorylation, effectively negating the rescuing effect of OM. Moreover, we determined that targeted inhibition of ERK1/2 activation significantly counteracted the regenerative effect of OM on human HSCs. Taken together, our results suggest a crucial role for OM in hematopoietic reconstitution following IR via MAPK signaling pathway-mediated mechanisms, providing theoretical support for innovative therapeutic applications of OM in addressing IR-induced injuries in humans. • Oxymatrine (OM) mitigates hematopoietic injury caused by ionizing radiation (IR). • OM boosts the recovery of HSCs quantitatively and functionally post-IR. • The MAPK signaling pathway is activated in HSCs following OM treatment after IR. • OM primarily fosters HSC regeneration and survival via Ccnd1 and BCL2 activation. • OM facilitates the recovery and survival of human HSCs following IR. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Transcription factor Nkx2-3 maintains the self-renewal of hematopoietic stem cells by regulating mitophagy.

Author

Hu M, Chen N, Chen M, Chen F, Lu Y, Xu Y, Yang L, Zeng H, Shen M, Chen X, Chen S, Wang F, Wang S, and Wang J

Subjects
Animals, Humans, Mice, Transcription Factors genetics, Transcription Factors metabolism, Hematopoietic Stem Cells metabolism, Mitophagy
Abstract

Hematopoietic stem cells (HSCs) reside at the top of the hematopoietic hierarchy, exhibiting a unique capacity to self-renew and differentiate into all blood cells throughout the lifetime. However, how to prevent HSC exhaustion during long-term hematopoietic output is not fully understood. Here, we show that the homeobox transcription factor Nkx2-3 is required for HSC self-renewal by preserving metabolic fitness. We found that Nkx2-3 is preferentially expressed in HSCs with excessive regenerative potential. Mice with conditional deletion of Nkx2-3 displayed a reduced HSC pool and long-term repopulating capacity as well as increased sensitivity to irradiation and 5-flurouracil treatment due to impaired HSC quiescence. In contrast, overexpression of Nkx2-3 improved HSC function both in vitro and in vivo. Furthermore, mechanistic studies revealed that Nkx2-3 can directly control the transcription of the critical mitophagy regulator ULK1, which is essential for sustaining metabolic homeostasis in HSCs by clearing activated mitochondria. More importantly, a similar regulatory role of NKX2-3 was observed in human cord blood-derived HSCs. In conclusion, our data demonstrate an important role of the Nkx2-3/ULK1/mitophagy axis in regulating the self-renewal of HSCs, therefore providing a promising strategy to improve the function of HSCs in the clinic., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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30. Altered brain networks and connections in chronic heart failure patients complicated with cognitive impairment.

Author

Wang M, Xu B, Hou X, Shi Q, Zhao H, Gui Q, Wu G, Dong X, Xu Q, Shen M, Cheng Q, and Feng H

Abstract

Objective: Accumulating evidence shows that cognitive impairment (CI) in chronic heart failure (CHF) patients is related to brain network dysfunction. This study investigated brain network structure and rich-club organization in chronic heart failure patients with cognitive impairment based on graph analysis of diffusion tensor imaging data., Methods: The brain structure networks of 30 CHF patients without CI and 30 CHF patients with CI were constructed. Using graph theory analysis and rich-club analysis, changes in global and local characteristics of the subjects' brain network and rich-club organization were quantitatively calculated, and the correlation with cognitive function was analyzed., Results: Compared to the CHF patients in the group without CI group, the CHF patients in the group with CI group had lower global efficiency, local efficiency, clustering coefficient, the small-world attribute, and increased shortest path length. The CHF patients with CI group showed lower nodal degree centrality in the fusiform gyrus on the right (FFG.R) and nodal efficiency in the orbital superior frontal gyrus on the left (ORB sup. L), the orbital inferior frontal gyrus on the left (ORB inf. L), and the posterior cingulate gyrus on the right (PCG.R) compared with CHF patients without CI group. The CHF patients with CI group showed a smaller fiber number of edges in specific regions. In CHF patients with CI, global efficiency, local efficiency and the connected edge of the orbital superior frontal gyrus on the right (ORB sup. R) to the orbital middle frontal gyrus on the right (ORB mid. R) were positively correlated with Visuospatial/Executive function. The connected edge of the orbital superior frontal gyrus on the right to the orbital inferior frontal gyrus on the right (ORB inf. R) is positively correlated to attention/calculation. Compared with the CHF patients without CI group, the connection strength of feeder connection and local connection in CHF patients with CI group was significantly reduced, although the strength of rich-club connection in CHF patients complicated with CI group was decreased compared with the control, there was no statistical difference. In addition, the rich-club connection strength was related to the orientation (direction force) of the Montreal cognitive assessment (MoCA) scale, and the feeder and local connection strength was related to Visuospatial/Executive function of MoCA scale in the CHF patients with CI., Conclusion: Chronic heart failure patients with CI exhibited lower global and local brain network properties, reduced white matter fiber connectivity, as well as a decreased strength in local and feeder connections in key brain regions. The disrupted brain network characteristics and connectivity was associated with cognitive impairment in CHF patients. Our findings suggest that impaired brain network properties and decreased connectivity, a feature of progressive disruption of brain networks, predict the development of cognitive impairment in patients with chronic heart failure., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer MZ declared a shared parent affiliation with the authors to the handling editor at the time of review., (Copyright © 2023 Wang, Xu, Hou, Shi, Zhao, Gui, Wu, Dong, Xu, Shen, Cheng and Feng.)

Published
2023
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31. Brain diffusion tensor imaging reveals altered connections and networks in epilepsy patients.

Author

Wang M, Cheng X, Shi Q, Xu B, Hou X, Zhao H, Gui Q, Wu G, Dong X, Xu Q, Shen M, Cheng Q, Xue S, Feng H, and Ding Z

Abstract

Introduction: Accumulating evidence shows that epilepsy is a disease caused by brain network dysfunction. This study explored changes in brain network structure in epilepsy patients based on graph analysis of diffusion tensor imaging data., Methods: The brain structure networks of 42 healthy control individuals and 26 epilepsy patients were constructed. Using graph theory analysis, global and local network topology parameters of the brain structure network were calculated, and changes in global and local characteristics of the brain network in epilepsy patients were quantitatively analyzed., Results: Compared with the healthy control group, the epilepsy patient group showed lower global efficiency, local efficiency, clustering coefficient, and a longer shortest path length. Both healthy control individuals and epilepsy patients showed small-world attributes, with no significant difference between groups. The epilepsy patient group showed lower nodal local efficiency and nodal clustering coefficient in the right olfactory cortex and right rectus and lower nodal degree centrality in the right olfactory cortex and the left paracentral lobular compared with the healthy control group. In addition, the epilepsy patient group showed a smaller fiber number of edges in specific regions of the frontal lobe, temporal lobe, and default mode network, indicating reduced connection strength., Discussion: Epilepsy patients exhibited lower global and local brain network properties as well as reduced white matter fiber connectivity in key brain regions. These findings further support the idea that epilepsy is a brain network disorder., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Wang, Cheng, Shi, Xu, Hou, Zhao, Gui, Wu, Dong, Xu, Shen, Cheng, Xue, Feng and Ding.)

Published
2023
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32. Study of brain network alternations in non-lesional epilepsy patients by BOLD-fMRI.

Author

Li Z, Hou X, Lu Y, Zhao H, Wang M, Xu B, Shi Q, Gui Q, Wu G, Shen M, Zhu W, Xu Q, Dong X, Cheng Q, Zhang J, and Feng H

Abstract

Objective: To investigate the changes of brain network in epilepsy patients without intracranial lesions under resting conditions., Methods: Twenty-six non-lesional epileptic patients and 42 normal controls were enrolled for BOLD-fMRI examination. The differences in brain network topological characteristics and functional network connectivity between the epilepsy group and the healthy controls were compared using graph theory analysis and independent component analysis., Results: The area under the curve for local efficiency was significantly lower in the epilepsy patients compared with healthy controls, while there were no differences in global indicators. Patients with epilepsy had higher functional connectivity in 4 connected components than healthy controls (orbital superior frontal gyrus and medial superior frontal gyrus, medial superior frontal gyrus and angular gyrus, superior parietal gyrus and paracentral lobule, lingual gyrus, and thalamus). In addition, functional connectivity was enhanced in the default mode network, frontoparietal network, dorsal attention network, sensorimotor network, and auditory network in the epilepsy group., Conclusion: The topological characteristics and functional connectivity of brain networks are changed in in non-lesional epilepsy patients. Abnormal functional connectivity may suggest reduced brain efficiency in epilepsy patients and also may be a compensatory response to brain function early at earlier stages of the disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Li, Hou, Lu, Zhao, Wang, Xu, Shi, Gui, Wu, Shen, Zhu, Xu, Dong, Cheng, Zhang and Feng.)

Published
2023
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33. Simulation investigation on marine exhaust gas SO 2 absorption by seawater scrubbing.

Author

Li W, Zhang Y, Zhao Z, Liu C, Wang Y, Shen M, Dai H, Yang Y, Zheng C, and Gao X

Subjects
Chemical Phenomena, Gases, Ships, Seawater, Vehicle Emissions analysis
Abstract

Ships have become an important source of SO 2 emission in coastal areas with the rapid development of maritime transport. It is of great significance to develop a marine scrubber for reducing SO 2 emission of ships. In this study, numerical simulation of a full-scale marine spray scrubber is conducted to investigate two-phase flow pattern and SO 2 absorption process in the scrubber. A desulfurization model based on seawater absorbent is coupled into the simulation, which considers the mass transfer between phases and seawater aqueous phase chemistry simultaneously. A distribution ring is introduced in the scrubber to enhance the desulfurization performance of the scrubber. The result of simulation shows that the distribution ring can optimize effectively the distribution of gas-liquid phases and enhance the SO 2 absorption. Under vertical condition, the desulfurization efficiency could be promoted approximate 6% after installing a distribution ring. The inclined condition resulting from the ship swinging could lead to the uneven distribution of droplets and an obvious decrease (8.7%) of desulfurization efficiency, whereas the desulfurization performance of the scrubber could be ensured with a distribution ring installed even under an inclined condition. Finally, a spray scrubber design scheme has been developed and successfully applied in the exhaust gas cleaning system (EGCS) of a container ship. Test result shows the outlet average value of SO 2 /CO 2 can be reduced to 3.55. Meanwhile, the consistency of test data and calculation result indicates the applicability of the numerical model established for the simulation and optimization of the scrubber in industrial applications also. Implications : EGCS is an effective method to reduce SO 2 emission of marine industry. However, different from a land desulfurization tower, the application of a spray scrubber in EGCS faces more problems due to the different application scenarios and complex sea conditions (inclined condition resulting from ships swinging and so on) during sailing. In this work, a numerical model capable of investigating physical and chemical phenomena in the scrubber simultaneously is established, which can produce a great amount of data for the operation instruction of EGCS and the design and optimization of the marine spray scrubber. The distribution ring is introduced in the marine spray scrubber to intensify the SO 2 absorption and enhance the desulfurization performance of the scrubber under different working conditions.

Published
2022
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34. Srebf1c preserves hematopoietic stem cell function and survival as a switch of mitochondrial metabolism.

Author

Lu Y, Zhang Z, Wang S, Qi Y, Chen F, Xu Y, Shen M, Chen M, Chen N, Yang L, Chen S, Wang F, Su Y, Hu M, and Wang J

Subjects
Animals, Cell Division, Mammals metabolism, Mice, Mitochondria metabolism, Sirolimus pharmacology, Sterol Regulatory Element Binding Protein 1, Hematopoietic Stem Cells metabolism, TOR Serine-Threonine Kinases metabolism
Abstract

Mitochondria are fundamental but complex determinants for hematopoietic stem cell (HSC) maintenance. However, the factors involved in the regulation of mitochondrial metabolism in HSCs and the underlying mechanisms have not been fully elucidated. Here, we identify sterol regulatory element binding factor-1c (Srebf1c) as a key factor in maintaining HSC biology under both steady-state and stress conditions. Srebf1c knockout (Srebf1c -/- ) mice display increased phenotypic HSCs and less HSC quiescence. In addition, Srebf1c deletion compromises the function and survival of HSCs in competitive transplantation or following chemotherapy and irradiation. Mechanistically, SREBF1c restrains the excessive activation of mammalian target of rapamycin (mTOR) signaling and mitochondrial metabolism in HSCs by regulating the expression of tuberous sclerosis complex 1 (Tsc1). Our study demonstrates that Srebf1c plays an important role in regulating HSC fate via the TSC1-mTOR-mitochondria axis., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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35. MicroRNA-21 maintains hematopoietic stem cell homeostasis through sustaining the NF-κB signaling pathway in mice.

Author

Hu M, Lu Y, Zeng H, Zhang Z, Chen S, Qi Y, Xu Y, Chen F, Tang Y, Chen M, Du C, Shen M, Wang F, Su Y, Wang S, and Wang J

Subjects
Animals, Hematopoietic Stem Cells metabolism, Homeostasis, Mice, Mice, Knockout, Signal Transduction, MicroRNAs genetics, NF-kappa B genetics, NF-kappa B metabolism
Abstract

Long-term hematopoietic output is dependent on hematopoietic stem cell (HSC) homeostasis which is maintained by a complex molecular network. Among these, microRNAs play crucial roles, while the underlying molecular basis has not been fully elucidated. Here, we show that miR-21 is enriched in murine HSCs, and mice with conditional knockout of miR-21 exhibit an obvious perturbation in normal hematopoiesis. Moreover, significant loss of HSC quiescence and long-term reconstituting ability are observed in the absence of miR-21. Further studies reveal that miR-21 deficiency markedly decreases the NF-κB pathway, accompanied by increased expression of PDCD4, a direct target of miR-21, in HSCs. Interestingly, overexpression of PDCD4 in wild-type HSCs generates similar phenotypes as those of miR-21-deficient HSCs. More importantly, knockdown of PDCD4 can significantly rescue the attenuation of NF-κB activity, thereby improving the defects in miR-21-null HSCs. On the other hand, we find that miR-21 is capable of preventing HSCs from ionizing radiation-induced DNA damage via activation of the NF-κB pathway. Collectively, our data demonstrate that miR-21 is involved in maintaining HSC homeostasis and function, at least in part, by regulating the PDCD4-mediated NF-κB pathway and provide a new insight into the radioprotection of HSCs.

Published
2021
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36. Long-noncoding RNA Peg13 alleviates epilepsy progression in mice via the miR-490-3p/Psmd11 axis to inactivate the Wnt/β-catenin pathway.

Author

Feng H, Gui Q, Zhu W, Wu G, Dong X, Shen M, Luo H, Xue S, and Cheng Q

Abstract

Epilepsy, one of the most common neurological diseases with spontaneous recurrent seizures, is a severe health problem globally. The present study aimed to study the role and upstream mechanism of 26S proteasome non-ATPase regulatory subunit 11 (Psmd11) in epilepsy. In the current paper, epileptic mice models were successfully established. Hematoxylin and eosin (HE) staining was performed to reveal morphology of hippocampal tissues. Nissl's staining was performed for detection of neuron injury. Enzyme-linked immunosorbent assay (ELISA) was conducted to detect concentrations of pro-inflammatory cytokines. The expression of Psmd11 was downregulated in the hippocampal tissues of epileptic mice, and overexpression of Psmd11 improved the spatial learning and memory of epileptic mice. Further, upregulation of Psmd11 protected epileptic hippocampal neurons from injury. Moreover, Psmd11 overexpression inhibited cell apoptosis, suppressed the activities of microglia and astrocytes, as well as reduced inflammatory response in epileptic hippocampi. Psmd11 was a downstream target of miR-490-3p. Long noncoding RNA (lncRNA) Peg13 bound with miR-490-3p to upregulate Psmd11. Subsequently, rescue experiments revealed that Peg13 suppressed the progression of epilepsy via upregulating Psmd11. Furthermore, Psmd11 was verified to inactivate the Wnt/β-catenin pathway. Peg13 repressed the Wnt/β-catenin pathway via upregulation of Peg13. In conclusion, this paper illuminated the function and upstream mechanism of Psmd11 in epilepsy. Psmd11 was upregulated by Peg13 at a miR-490-3p dependent way, thus inactivating the Wnt/β-catenin pathway and alleviating epilepsy course in mice, which may be a promising approach for epilepsy treatment., Competing Interests: None., (AJTR Copyright © 2020.)

Published
2020

37. SRC-3 Functions as a Coactivator of T-bet by Regulating the Maturation and Antitumor Activity of Natural Killer Cells.

Author

Hu M, Lu Y, Qi Y, Zhang Z, Wang S, Xu Y, Chen F, Tang Y, Chen S, Chen M, Du C, Shen M, Wang F, Su Y, Deng Y, and Wang J

Subjects
Animals, Cell Line, Tumor, Disease Models, Animal, Humans, Melanoma, Experimental immunology, Mice, Mice, Inbred C57BL, Mice, Knockout, Nuclear Receptor Coactivator 3 deficiency, Killer Cells, Natural immunology, Nuclear Receptor Coactivator 3 immunology
Abstract

Natural killer (NK)-cell development and maturation is a well-organized process. The steroid receptor coactivator 3 (SRC-3) is a regulator of the hematopoietic and immune systems; however, its role in NK cells is poorly understood. Here, SRC-3 displayed increased nuclear translocation in NK cells during terminal differentiation and upon inflammatory cytokine stimulation. Targeted deletion of SRC-3 altered normal NK-cell distribution and compromised NK-cell maturation. SRC-3 deficiency led to significantly impaired NK-cell functions, especially their antitumor activity. The expression of several critical T-bet target genes, including Zeb2, Prdm1 , and S1pr5 , but not T-bet itself, was markedly decreased in NK cells in the absence of SRC-3. There was a physiologic interaction between SRC-3 and T-bet proteins, where SRC-3 was recruited by T-bet to regulate the transcription of the aforementioned genes. Collectively, our findings unmask a previously unrecognized role of SRC-3 as a coactivator of T-bet in NK-cell biology and indicate that targeting SRC-3 may be a promising strategy to increase the tumor surveillance function of NK cells., (©2020 American Association for Cancer Research.)

Published
2020
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38. Megakaryocytes promote bone formation through coupling osteogenesis with angiogenesis by secreting TGF-β1.

Author

Tang Y, Hu M, Xu Y, Chen F, Chen S, Chen M, Qi Y, Shen M, Wang C, Lu Y, Zhang Z, Zeng H, Quan Y, Wang F, Su Y, Zeng D, Wang S, and Wang J

Subjects
Animals, Bone Marrow physiopathology, Bone and Bones drug effects, Bone and Bones injuries, Bone and Bones radiation effects, Cell Differentiation, Disease Models, Animal, Homeostasis, Humans, Mice, Mice, Inbred C57BL, Neovascularization, Physiologic, Osteoblasts, Osteoporosis metabolism, Radiotherapy adverse effects, Megakaryocytes metabolism, Osteogenesis physiology, Thrombopoietin pharmacology, Transforming Growth Factor beta1 metabolism
Abstract

Rationale : The hematopoietic system and skeletal system have a close relationship, and megakaryocytes (MKs) may be involved in maintaining bone homeostasis. However, the exact role and underlying mechanism of MKs in bone formation during steady-state and stress conditions are still unclear. Methods : We first evaluated the bone phenotype with MKs deficiency in bone marrow by using c-Mpl-deficient mice and MKs-conditionally deleted mice. Then, osteoblasts (OBs) proliferation and differentiation and CD31 hi Emcn hi tube formation were assessed. The expression of growth factors related to bone formation in MKs was detected by RNA-sequencing and enzyme-linked immunosorbent assays (ELISAs). Mice with specific depletion of TGF-β1 in MKs were used to further verify the effect of MKs on osteogenesis and angiogenesis. Finally, MKs treatment of irradiation-induced bone injury was tested in a mouse model. Results : We found that MKs deficiency significantly impaired bone formation. Further investigations revealed that MKs could promote OBs proliferation and differentiation, as well as CD31 hi Emcn hi vessels formation, by secreting high levels of TGF-β1. Consistent with these findings, mice with specific depletion of TGF-β1 in MKs displayed significantly decreased bone mass and strength. Importantly, treatment with MKs or thrombopoietin (TPO) substantially attenuated radioactive bone injury in mice by directly or indirectly increasing the level of TGF-β1 in bone marrow. MKs-derived TGF-β1 was also involved in suppressing apoptosis and promoting DNA damage repair in OBs after irradiation exposure. Conclusions : Our findings demonstrate that MKs contribute to bone formation through coupling osteogenesis with angiogenesis by secreting TGF-β1, which may offer a potential therapeutic strategy for the treatment of irradiation-induced osteoporosis., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2020
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39. MicroRNA 34a promotes ionizing radiation-induced DNA damage repair in murine hematopoietic stem cells.

Author

Zeng H, Hu M, Lu Y, Zhang Z, Xu Y, Wang S, Chen M, Shen M, Wang C, Chen F, Du C, Tang Y, Su Y, Chen S, and Wang J

Subjects
Animals, Hematopoietic Stem Cells pathology, Mice, Mice, Knockout, MicroRNAs genetics, DNA Damage, DNA Repair, Gamma Rays adverse effects, Hematopoietic Stem Cells metabolism, MicroRNAs biosynthesis
Abstract

Hematopoietic stem cells (HSCs) establish the entire hematopoietic system and maintain lifelong hematopoiesis. Previous studies have reported the significance of microRNAs (miRNAs) in the regulation of self-renewal and differentiation of HSCs. In this study, we show that the expression of miRNA 34a (miR-34a) is markedly up-regulated in HSCs from mice subjected to ionizing radiation (IR). Reduced numbers and DNA damage repair, as well as increased apoptosis, are observed in HSCs from miR-34a-deficient mice induced by irradiation, although miR-34a is dispensable for steady-state hematopoiesis. Further investigations show that HSCs deficient in miR-34a exhibit decreased expressions of DNA repair-associated genes involved in homologous recombination and nonhomologous end joining. Competitive transplantation confirms that loss of miR-34a leads to more severe impairment of the long-term hematopoietic function of HSCs after irradiation exposure. Consistently, treating mice with an miR-34a agomir can significantly alleviate irradiation-induced DNA damage in HSCs. Our findings demonstrate that miR-34a contributes to promoting HSCs' survival after irradiation, which provides a promising approach for protecting HSCs from IR.-Zeng, H., Hu, M., Lu, Y., Zhang, Z., Xu, Y., Wang, S., Chen, M., Shen, M., Wang, C., Chen, F., Du, C., Tang, Y., Su,Y., Chen, S., Wang, J. MicroRNA 34a promotes ionizing radiation-induced DNA damage repair in murine hematopoietic stem cells.

Published
2019
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40. Effect of radiation-induced endothelial cell injury on platelet regeneration by megakaryocytes.

Author

Chen F, Shen M, Zeng D, Wang C, Wang S, Chen S, Tang Y, Hu M, Chen M, Su Y, Ran X, Xu Y, and Wang J

Subjects
Animals, Apoptosis radiation effects, Cell Adhesion radiation effects, Cell Movement radiation effects, Cell Shape radiation effects, Human Umbilical Vein Endothelial Cells metabolism, Human Umbilical Vein Endothelial Cells pathology, Humans, Male, Mice, Inbred BALB C, Thrombocytopenia pathology, Vascular Endothelial Growth Factor A administration & dosage, Vascular Endothelial Growth Factor A metabolism, X-Rays, Blood Platelets radiation effects, Human Umbilical Vein Endothelial Cells radiation effects, Megakaryocytes radiation effects, Regeneration radiation effects
Abstract

Thrombocytopenia is an important cause of hemorrhage and death after radiation injury, but the pathogenesis of radiation-induced thrombocytopenia has not been fully characterized. Here, we investigated the influence of radiation-induced endothelial cell injury on platelet regeneration. We found that human umbilical vein endothelial cells (HUVECs) underwent a high rate of apoptosis, accompanied by a significant reduction in the expression of vascular endothelial growth factor (VEGF) at 96 h after radiation. Subsequent investigations revealed that radiation injury lowered the ability of HUVECs to attract migrating megakaryocytes (MKs). Moreover, the adhesion of MKs to HUVECs was markedly reduced when HUVECs were exposed to radiation, accompanied by a decreased production of platelets by MKs. In vivo study showed that VEGF treatment significantly promoted the migration of MKs into the vascular niche and accelerated platelet recovery in irradiated mice. Our studies demonstrate that endothelial cell injury contributes to the slow recovery of platelets after radiation, which provides a deeper insight into the pathogenesis of thrombocytopenia induced by radiation., (© The Author 2017. Published by Oxford University Press on behalf of The Japan Radiation Research Society and Japanese Society for Radiation Oncology.)

Published
2017
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41. Design of a potent antibiotic peptide based on the active region of human defensin 5.

Author

Wang C, Shen M, Gohain N, Tolbert WD, Chen F, Zhang N, Yang K, Wang A, Su Y, Cheng T, Zhao J, Pazgier M, and Wang J

Subjects
Animals, Anti-Bacterial Agents chemical synthesis, Arginine, Catalytic Domain, Crystallography, X-Ray, Drug Design, Drug Evaluation, Preclinical methods, Erythrocytes drug effects, Escherichia coli drug effects, Mice, Models, Molecular, Peptides chemical synthesis, Peptides genetics, Peptides pharmacology, Protein Conformation, Protein Multimerization, Staphylococcus aureus drug effects, Structure-Activity Relationship, alpha-Defensins metabolism, alpha-Defensins pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacokinetics, Peptides chemistry, alpha-Defensins chemistry
Abstract

Human defensin 5 (HD5) is a broad-spectrum antibacterial peptide with a C-terminal active region. To promote the development of this peptide into an antibiotic, we initially substituted Glu21 with Arg because it is an electronegative residue located around the active region. Although detrimental to dimer formation, the E21R substitution markedly enhanced the antibacterial activity of HD5 and increased its ability to penetrate cell membranes, demonstrating that increasing the electropositive charge compensated for the effect of dimer disruption. Subsequently, a partial Arg scanning mutagenesis was performed, and Thr7 was selected for replacement with Arg to further strengthen the antibacterial activity. The newly designed peptide, T7E21R-HD5, exhibited potent antibacterial activity, even in saline and serum solutions. In contrast to monomeric E21R-HD5, T7E21R-HD5 assembled into an atypical dimer with parallel β strands, thus expanding the role of increasing electropositive charge in bactericidal activity and providing a useful guide for further defensin-derived antibiotic design.

Published
2015
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42. Enhancement of antiviral activity of human alpha-defensin 5 against herpes simplex virus 2 by arginine mutagenesis at adaptive evolution sites.

Author

Wang A, Chen F, Wang Y, Shen M, Xu Y, Hu J, Wang S, Geng F, Wang C, Ran X, Su Y, Cheng T, and Wang J

Subjects
Amino Acid Sequence, Animals, Anti-HIV Agents pharmacology, Capsid Proteins drug effects, Capsid Proteins metabolism, Chlorocebus aethiops, Evolution, Molecular, Female, HIV Infections prevention & control, HIV-1 drug effects, Herpes Simplex prevention & control, Herpesvirus 2, Human physiology, Humans, Mice, Mice, Inbred BALB C, Mutagenesis, Mutation, Sequence Alignment, Vero Cells, Viral Load, Antiviral Agents pharmacology, HIV Infections drug therapy, Herpes Simplex drug therapy, Herpesvirus 2, Human drug effects, Virus Attachment drug effects, alpha-Defensins chemistry, alpha-Defensins genetics, alpha-Defensins metabolism, alpha-Defensins pharmacology
Abstract

Herpes simplex virus 2 (HSV-2) infection is still one of the common causes of sexually transmitted diseases worldwide. The prevalence of HSV strains resistant to traditional nucleoside antiviral agents has led to the development of novel antiviral drugs. Human alpha-defensin 5 (HD5), a kind of endogenous antimicrobial peptide expressed in the epithelia of the small intestine and urogenital tract, displays natural antiviral activity. Based on arginine-rich features and adaptive evolution characteristics of vertebrate defensins, we conducted a screen for HD5 derivatives with enhanced anti-HSV-2 activity by a single arginine substitution at the adaptive evolution sites. Cell protection assay and temporal antiviral studies showed that HD5 and its mutants displayed affirmatory but differential anti-HSV-2 effects in vitro by inhibiting viral adhesion and entry. Inspiringly, the E21R-HD5 mutant had significantly higher antiviral activity than natural HD5, which is possibly attributed to the stronger binding affinity of the E21R-HD5 mutant with HSV-2 capsid protein gD, indicating that E21R mutation can increase the anti-HSV-2 potency of HD5. In a mouse model of lethal HSV-2 infection, prophylactic and/or therapeutic treatment with E21R-HD5 via intravaginal instillation remarkably alleviated the symptoms and delayed disease progress and resulted in about a 1.5-fold-higher survival rate than in the HD5 group. Furthermore, the E21R variant exhibited a 2-fold-higher antiviral potency against HIV-1 over parental HD5 in vitro. This study demonstrates that arginine mutagenesis at appropriate evolution sites may significantly enhance the antiviral activity of HD5, which also paves a facile way to search for potent antiviral drugs based on natural antimicrobial peptides.

Published
2013
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43. Subcutaneous administration of rhIGF-I post irradiation exposure enhances hematopoietic recovery and survival in BALB/c mice.

Author

Chen S, Xu Y, Wang S, Shen M, Chen F, Chen M, Wang A, Cheng T, Su Y, and Wang J

Subjects
Animals, Apoptosis, Cell Proliferation, Cell Survival, Flow Cytometry methods, Injections, Subcutaneous, Leukocytes, Mononuclear pathology, Leukocytes, Mononuclear radiation effects, Male, Mice, Mice, Inbred BALB C, Radiation Tolerance, Radiation, Ionizing, Thrombopoiesis drug effects, Thrombopoiesis radiation effects, Time Factors, Hematopoietic Stem Cells cytology, Insulin-Like Growth Factor I administration & dosage, Recombinant Proteins administration & dosage
Abstract

It is unclear how to effectively mitigate against irradiation injury. In this study, we studied the capacity of recombinant human insulin-like growth factor-I (rhIGF-I) on hematologic recovery in irradiated BALB/c mice and its possible mechanism. BALB/c mice were injected with rhIGF-I subcutaneously at a dose of 100 μg/kg twice daily for 7 days after total body irradiation. Compared with a saline control group, treatment with rhIGF-I significantly improved the survival of mice after lethal irradiation (7.5 Gy). It was found that treatment with rhIGF-I not only could increase the frequency of Sca-1(+) cells in bone marrow harvested at Day 14 after irradiation, but also it could decrease the apoptosis of mononuclear cells induced by irradiation as measured by flow cytometry, suggesting that rhIGF-I may mediate its effects primarily through promoting hematopoietic stem cell/progenitor survival and protecting mononuclear cells from apoptosis after irradiation exposure. Moreover, we have found that rhIGF-I might facilitate thrombopoiesis in an indirect way. Our data demonstrated that rhIGF-I could promote overall hematopoietic recovery after ionizing radiation and reduce the mortality when administered immediately post lethal irradiation exposure.

Published
2012
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