Your search keyword '"Hu, Mengyan"' showing total 7 results

1. Melatonin Offers Dual-Phase Protection to Brain Vessel Endothelial Cells in Prolonged Cerebral Ischemia-Recanalization Through Ameliorating ER Stress and Resolving Refractory Stress Granule.

Author

Lu, Danli, Liu, Yuxin, Huang, Huipeng, Hu, Mengyan, Li, Tiemei, Wang, Shisi, Shen, Shishi, Wu, Ruizhen, Cai, Wei, Lu, Tingting, and Lu, Zhengqi

Abstract

Ischemic-reperfusion injury limits the time window of recanalization therapy in cerebral acute ischemic stroke (AIS). Brain vessel endothelial cells (BVECs) form the first layer of the blood–brain barrier (BBB) and are thus the first sufferer of ischemic-reperfusion disorder. The current study demonstrates that melatonin can reduce infarct volume, alleviate brain edema, ameliorate neurological deficits, and protect BBB integrity in prolonged-stroke mice. Here, we demonstrate that endoplasmic reticulum (ER)–associated injury contributes to BVEC death in the dural phase of reperfusion after prolonged ischemia. When encountering ischemia, ER stress arises, specifically activating PERK-EIF2α signaling and the subsequent programmed cell death. Prolonged ischemia leads stress granules (SGs) to be refractory, which remain unresolved and accumulate in ER during recanalization. During reperfusion, refractory SGs activate PKR-EIF2α and further exacerbate BVEC injury. We report that melatonin treatment downregulates ER stress in the ischemic period and enhances dissociation of the refractory SGs during reperfusion, thus offering dual-phase protection to BVECs in prolonged cerebral stroke. Mechanistically, melatonin enhances autophagy in BVECs, which preserves ER function and resolves refractory SGs. We, therefore, propose that melatonin is a potential treatment to extend the time window of delayed recanalization therapy in AIS. [ABSTRACT FROM AUTHOR]

Published

2023

2. Macrophage lineage cells-derived migrasomes activate complement-dependent blood-brain barrier damage in cerebral amyloid angiopathy mouse model.

Author

Hu, Mengyan, Li, Tiemei, Ma, Xiaomeng, Liu, Sanxin, Li, Chunyi, Huang, Zhenchao, Lin, Yinyao, Wu, Ruizhen, Wang, Shisi, Lu, Danli, Lu, Tingting, Men, Xuejiao, Shen, Shishi, Huang, Huipeng, Liu, Yuxin, Song, Kangyu, Jian, Banghao, Jiang, Yuxuan, Qiu, Wei, and Liu, Quentin

Subjects

CEREBRAL amyloid angiopathy, BLOOD-brain barrier, LABORATORY mice, ANIMAL disease models, MACROPHAGES, BRAIN damage

Abstract

Accumulation of amyloid beta protein (Aβ) in brain vessels damages blood brain barrier (BBB) integrity in cerebral amyloid angiopathy (CAA). Macrophage lineage cells scavenge Aβ and produce disease-modifying mediators. Herein, we report that Aβ40-induced macrophage-derived migrasomes are sticky to blood vessels in skin biopsy samples from CAA patients and brain tissue from CAA mouse models (Tg-SwDI/B and 5xFAD mice). We show that CD5L is packed in migrasomes and docked to blood vessels, and that enrichment of CD5L impairs the resistance to complement activation. Increased migrasome-producing capacity of macrophages and membrane attack complex (MAC) in blood are associated with disease severity in both patients and Tg-SwDI/B mice. Of note, complement inhibitory treatment protects against migrasomes-mediated blood-brain barrier injury in Tg-SwDI/B mice. We thus propose that macrophage-derived migrasomes and the consequent complement activation are potential biomarkers and therapeutic targets in CAA. Migrasomes are recently discovered extracellular vesicles that are produced during cellular migration. Here, the authors show that macrophage-derived migrasomes are implicated in the progression of cerebral amyloid angiopathy (CAA) through increased complement signaling using skin biopsies from CAA patients and CAA mouse models. [ABSTRACT FROM AUTHOR]

Published

2023

3. Application of kNN and SVM to predict the prognosis of advanced schistosomiasis.

Author

Zhou, Xiaorong, Wang, He, Xu, Chuan, Peng, Li, Xu, Feng, Lian, Lifei, Deng, Gang, Ji, Suqiong, Hu, Mengyan, Zhu, Hong, Xu, Yi, and Li, Guo

Subjects

SCHISTOSOMIASIS, RECEIVER operating characteristic curves, SUPPORT vector machines, PROGNOSTIC models, PREDICTION models

Abstract

Predictive models for prognosis of small sample advanced schistosomiasis patients have not been well studied. We aimed to construct prognostic predictive models of small sample advanced schistosomiasis patients using two machine learning algorithms, k nearest neighbour (kNN) and support vector machine (SVM) utilising routinely available data under the government medical assistance programme. The predictive models were derived from 229 patients from Xiantao and externally validated by 77 patients of Jiayu, two county-level cities in Hubei province, China. Candidate predictors were selected according to expert opinions and literature reports, including clinical features, sociodemographic characteristics, and medical examinations results. An area under the receiver operating characteristic curve (AUC), sensitivity, and specificity were used to evaluate the models' predictive performances. The AUC values were 0.879 for the kNN model and 0.890 for the SVM model in the training set, 0.852 for the kNN model, and 0.785 for the SVM model in the external validation set. The kNN and SVM models can be used to improve the health services provided by healthcare planners, clinicians, and policymakers. [ABSTRACT FROM AUTHOR]

Published

2022

4. [18F]-mFBG imaging for COVID-19-induced cardiac sympathetic innervation impairment.

Author

Zhang, Xiao, Hu, Mengyan, Kang, Fei, Wang, Jing, and Lan, Xiaoli

Subjects

*CARDIAC imaging, *INNERVATION, *MAGNETIC resonance imaging, *CARDIAC magnetic resonance imaging, *CORONARY angiography, *DIFFUSION magnetic resonance imaging

Abstract

This article discusses a case study of a 20-year-old male patient who was admitted to the hospital with chest pain and elevated blood pressure. The patient underwent various tests, including echocardiography and coronary angiography, which were negative. To further investigate the cause of the symptoms, the patient underwent meta-[18F]-fluorobenzylguanidine ([18F]-mFBG) PET/MR imaging, which showed avid accumulation in the ventricular along with an uneven decrease in the inferior and lateral walls. The article suggests that these findings may be indicative of COVID-19-induced myocarditis-induced myocardial edema and sympathetic innervation impairment. The patient's symptoms were alleviated after treatment. The article also discusses the use of [18F]-mFBG in the early detection of COVID-19-induced myocardial sympathetic innervation impairment, which is more sensitive than echocardiography and coronary angiography. [Extracted from the article]

Published

2024

5. Functional Dynamics of Neutrophils After Ischemic Stroke.

Author

Cai, Wei, Liu, Sanxin, Hu, Mengyan, Huang, Feng, Zhu, Qiang, Qiu, Wei, Hu, Xiaoming, Colello, Jacob, Zheng, Song Guo, and Lu, Zhengqi

Abstract

Neutrophils are forerunners to brain lesions after ischemic stroke and exert elaborate functions. However, temporal alterations of cell count, polarity, extracellular trap formation, and clearance of neutrophils remain poorly understood. The current study was aimed at providing basic information of neutrophil function throughout a time course following stroke onset in patients and animal subjects. We found that neutrophil constitution in peripheral blood increased soon after stroke onset of patients, and higher neutrophil count indicated detrimental stroke outcomes. Comparably, neutrophil count in peripheral blood of stroke mice peaked at 12 h after cerebral ischemia, followed by a 1-2-day spike in brain lesions. In stroke lesion, clearance of neutrophils peaked at 2 days after stroke and extracellular traps were mostly detected at 2–3 days after stroke. In neutrophil infiltrated into stroke lesion, expression of the N2 marker CD206 was relatively stable. We found that the N2 phenotype facilitated neutrophil clearance by macrophage and did not further induce neuronal death after ischemic injury compared with N0 or N1 neutrophils. Skewing neutrophil toward the N2 phenotype before stroke reduced infarct volumes at 1 day after tMCAO. Conditioned medium of ischemic neurons drove neutrophils away from the protective N2 phenotype and increased the formation of extracellular traps. Conclusively, neutrophil function has an important impact on stroke outcomes. Neutrophil frequency in the peripheral blood could be an early indicator of stroke outcomes. N2 neutrophils facilitate macrophage phagocytosis and are less harmful to ischemic neurons. Directing neutrophils toward the N2 phenotype could be a promising therapeutic approach for ischemic stroke. [ABSTRACT FROM AUTHOR]

Published

2020

6. Cerebral small vessel disease: neuroimaging markers and clinical implication.

Author

Chen, Xiaodong, Wang, Jihui, Shan, Yilong, Cai, Wei, Liu, Sanxin, Hu, Mengyan, Liao, Siyuan, Huang, Xuehong, Zhang, Bingjun, Wang, Yuge, and Lu, Zhengqi

Subjects

BIOMARKERS, CEREBRAL small vessel diseases, CEREBROVASCULAR disease, MENTAL illness

Abstract

Cerebral small vessel disease (CSVD) is a broad category of cerebrovascular diseases which primarily affect the perforating arterioles, capillaries and venules with multiple distinct etiologies. In spite of distinctive pathogenesis, CSVD shares similar neuroimaging markers, including recent small subcortical infarct, lacune of presumed vascular origin, white matter hyperintensity of presumed vascular origin, perivascular space and cerebral microbleeds. The radiological features of neuroimaging markers are indicative for etiological analysis. Furthermore, in sporadic arteriosclerotic pathogenesis associated CSVD, the total CSVD burden is a significant predictor for stroke events, global cognitive impairment, psychiatric disorders and later life quality. This review aims to summarize the radiological characteristics as well as the clinical implication of CSVD markers and neuroimaging interpretation for CSVD symptomatology. [ABSTRACT FROM AUTHOR]

Published

2019

7. Post-stroke DHA Treatment Protects Against Acute Ischemic Brain Injury by Skewing Macrophage Polarity Toward the M2 Phenotype.

Author

Cai, Wei, Liu, Sanxin, Hu, Mengyan, Sun, Xiaobo, Qiu, Wei, Zheng, Songguo, Hu, Xiaoming, and Lu, Zhengqi

Abstract

Systemic docosahexaenoic acid (DHA) has been explored as a clinically feasible protectant in stroke models. However, the mechanism for DHA-afforded neuroprotection remains elusive. Transient middle cerebral artery occlusion (tMCAO) was induced for 1 h. DHA (i.p., 10 mg/kg) was administered immediately after reperfusion and repeated daily for 3 days. Stroke outcomes, systemic inflammatory status, and microglia/macrophage phenotypic alterations were assessed 3 days after stroke. Macrophage depletion was induced by clodronate liposomes injection. Primary macrophage cultures were used to evaluate the direct effect of DHA on macrophages. We demonstrated that post-stroke DHA injection efficiently reduced brain infarct and ameliorated neurological deficits 3 days after tMCAO. Systemic DHA treatment significantly inhibited immune cell infiltration (macrophages, neutrophils, T lymphocytes, and B lymphocytes) and promoted macrophage polarization toward an anti-inflammatory M2 phenotype in the ischemic brain. Meanwhile, systemic DHA administration inhibited the otherwise elevated pro-inflammatory factors in blood and shifted circulating macrophage polarity toward M2 phenotype after ischemic stroke. The numbers of circulating immune cells in blood and spleen, however, were equivalent between DHA- and vehicle-treated groups. The protective effects of DHA were macrophage-dependent, as macrophage depletion abolished DHA-afforded neuroprotection. In vitro studies confirmed that DHA suppressed production of chemokines and pro-inflammatory cytokines from macrophages under inflammatory stimulation. These data indicate that post-stroke DHA treatment ameliorated acute ischemic brain injury in a macrophage-dependent manner and DHA enhanced macrophage phenotypic shift toward an anti-inflammatory phenotype to reduced central and peripheral inflammation after stroke. [ABSTRACT FROM AUTHOR]

Published

2018