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8 results on '"Qinwen, Mao"'

1. Rutaecarpin reduces lipids by <scp>DGKθ</scp> ‐dependent activation of <scp>PPARα</scp>

Author

Di Wu, Jiheng Wang, Yongxing Chang, Shiyu Zhang, Jinfeng Liang, Junli Zhao, Peiyan Yang, Qinwen Mao, and Haibin Xia

Subjects
Mice, Inbred C57BL, Mice, Nutrition and Dietetics, Endocrinology, Endocrinology, Diabetes and Metabolism, Animals, Humans, Medicine (miscellaneous), PPAR alpha, Obesity, Lipid Metabolism, Lipids
Abstract

Lipid metabolic disorders pose a serious threat to human health, and currently no good treatments exist. In earlier studies by the authors, HepG2 cells with diacylglycerol kinase theta (DGKθ) knockout were found to cause significant lipid accumulation, suggesting that DGKθ may be a potential target for treating lipid metabolic disorders.A high-throughput screening of natural products targeting the potential signaling pathway of lipid metabolism was carried out in the DGKθ-T2A-luciferase knock-in HepG2 cell. RNA-sequencing and bioinformatic approaches were used to analyze the potential pathway by which rutaecarpin decreases lipids. Western blot and quantitative polymerase chain reaction were performed to investigate the mechanisms of rutaecarpin's reduction in lipid levels.Rutaecarpin was found to significantly enhance DGKθ expression, and the potential mechanisms by which rutaecarpin accelerates lipid metabolism by targeting DGKθ was explored in vitro and in vivo. The results indicated that rutaecarpin could markedly reduce lipid accumulation in oleic acid-induced HepG2 cells and in high-fat diet-induced obese C57BL/6J mice by targeting the hepatocyte nuclear factor 1-beta (HNF1B)-DGKθ-peroxisome proliferator-activated receptor alpha (PPARα)-apolipoprotein C3 (APOC3) pathway.Rutaecarpin is effective in reducing lipid accumulation, and the development of a high-throughput screening platform based on a reporter knock-in cell line may facilitate the discovery of effective drugs for lipid metabolic disorders based on the DGKθ target.

Published
2022

2. Progranulin deficiency promotes persistent neuroinflammation and causes regional pathology in the hippocampus following traumatic brain injury

Author

Xiaojing Zheng, Tiantian Mi, Rong Wang, Zihan Zhang, Wenyan Li, Junli Zhao, Peiyan Yang, Haibin Xia, and Qinwen Mao

Subjects
Mice, Inbred C57BL, Disease Models, Animal, Mice, Cellular and Molecular Neuroscience, Progranulins, Neurology, Brain Injuries, Traumatic, Neuroinflammatory Diseases, Animals, Gliosis, Microglia, Hippocampus
Abstract

Traumatic brain injury (TBI) can be progressive and can lead to the development of a long-term complication termed chronic traumatic encephalopathy. The mechanisms underlying the progressive changes are still unknown; however, studies have suggested that microglia-mediated neuroinflammation in response to TBI may play a fundamental role. This study aimed to determine whether progranulin (PGRN), a major modulator of microglial activity, plays a role in the progressive damage following TBI. PGRN-deficient and wild-type mice were subjected to controlled cortical impact and were observed neuropathologically after 3 days, 7 days, and 5 months. Compared to sham and wild-type mice, the PGRN-deficient mice showed overall stronger microgliosis and astrocytosis. The astrocytosis involved broader areas than the microgliosis and was more prominent in the basal ganglia, hippocampus, and internal capsule in PGRN-deficient mice. Ongoing neuronal death was uniquely observed in the hippocampal CA3 region of PGRN-deficient mice at 5 months after TBI, accompanying the regional chronic microgliosis and astrocytosis involving the CA3 commissural pathway. In addition, there was M1 microglial polarization in the pericontusional area with activated TLR4/MyD88/NF-κB signaling; however, the hippocampus showed only mild M1 polarization 7 days after TBI. Lastly, Morris water maze tests showed PGRN-deficient mice had poorer spatial learning and memory 5 months after TBI than wild-type or sham mice. The data indicated the PGRN deficiency caused TBI progression by promoting persistent microgliosis with microglial polarization and astrocytosis, as well as regional pathology in the hippocampus. The study suggests that PGRN should be evaluated as a potential therapy for TBI.

Published
2022

3. CRISPR/Cas9‐mediated grna gene knockout leads to neurodevelopmental defects and motor behavior changes in zebrafish

Author

Xiang Li, Qinwen Mao, Junli Zhao, Kwang Youn Kim, Haibin Xia, Xiaojing Zheng, Ning Wang, Huimin Xu, Hui Zhang, Hui Song, and Jiuling Zhu

Subjects
0301 basic medicine, animal structures, Genotype, Mice, Transgenic, Motor Activity, Biochemistry, Frameshift mutation, Gene Knockout Techniques, 03 medical and health sciences, Cellular and Molecular Neuroscience, Exon, 0302 clinical medicine, Genome editing, CRISPR-Associated Protein 9, Animals, CRISPR, Frameshift Mutation, Zebrafish, Gene knockout, Motor Neurons, Gene knockdown, Behavior, Animal, biology, Body Weight, Exons, Zebrafish Proteins, biology.organism_classification, Zinc finger nuclease, Axons, High-Throughput Screening Assays, Cell biology, 030104 developmental biology, Neurodevelopmental Disorders, embryonic structures, Intercellular Signaling Peptides and Proteins, CRISPR-Cas Systems, 030217 neurology & neurosurgery, RNA, Guide, Kinetoplastida
Abstract

Progranulin (PGRN) is a secreted glycoprotein with multiple biological functions in early embryogenesis, anti-inflammation, and neurodegeneration. A good model for the functional study of PGRN is the zebrafish with knockdown or knockout of grn, the gene encoding PGRN. Morpholino oligonucleotides (MOs) and zinc finger nucleases have been used to generate zebrafish grn models, yet they have shown inconsistent phenotypes due to either the neurotoxicity of the MOs or possible genetic compensation responses during gene editing. In this study, we generated stable grna (one of the major grn homologues of zebrafish) knockout zebrafish by using CRISPR/Cas9-mediated genome editing. A grna sgRNA was designed to target the similar repeated sequence shared by exon 13, exon 15, and exon 19 in zebrafish. The F1 generation with the frameshift mutation of + 4 bp (the addition of 4 bp to exon15), which causes a premature termination, was obtained and subjected to morphological and behavioral evaluation. The grna knockout zebrafish showed neurodevelopmental defects, including spinal motor neurons with shorter axons, decreased sensory hair cells, thinning of the outer nuclear layer and thickening of the inner nuclear layer of the retina, decreased expression of rhodopsin in the cone cells, and motor behavior changes. Moreover, the phenotypes of grna knockout zebrafish could be rescued with the Tol2 system carrying the grna gene. The grna knockout zebrafish model generated in this study provides a useful tool to study PGRN function and has potential for high-throughput drug screening for disease therapy.

Published
2021

4. Distinct cognitive and neuropsychiatric features of amnestic dementia with comorbid Alzheimer’s and TDP‐43 proteinopathies

Author

Makayla L Kochheiser, Allegra Kawles, Grace Minogue, Rachel M. Keszycki, Michaela Riley, Qinwen Mao, Margaret E Flanagan, Marsel Mesulam, Changiz Geula, Sandra Weintraub, and Tamar Gefen

Subjects
Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology
Published
2021

5. Cognitive trajectories and spectrum of neuropathology in <scp>S</scp> uper <scp>A</scp> gers: The first 10 cases

Author

Qinwen Mao, Sandra Weintraub, M.-Marsel Mesulam, Maureen Connelly, Emily Rogalski, Eileen H. Bigio, Tamar Gefen, and Changiz Geula

Subjects
Male, medicine.medical_specialty, Memory, Episodic, Cognitive Neuroscience, media_common.quotation_subject, Hippocampus, Context (language use), Neuropathology, Audiology, Article, 050105 experimental psychology, Healthy Aging, 03 medical and health sciences, Cognition, 0302 clinical medicine, medicine, Humans, Dementia, Personality, 0501 psychology and cognitive sciences, Episodic memory, media_common, Aged, 80 and over, business.industry, 05 social sciences, Brain, Entorhinal cortex, medicine.disease, Female, business, Neuroscience, 030217 neurology & neurosurgery
Abstract

On average, memory capacity is significantly higher in populations of 50-60 year olds than in populations of 80 year olds. We define SuperAgers as individuals 80 or older whose episodic memory capacity is at least as good as that of cognitively average individuals in their 50s and 60s. SuperAgers therefore have memory capacity that is superior for age. Previous work showed that SuperAgers have greater cortical volumes and greater resistance to age-related cortical atrophy than "cognitively average" individuals of the same age. Here we report on the cognitive, personality, and neuropathologic characteristics of the first 10 autopsy cases in the Northwestern SuperAging Program. During the follow-up period, seven SuperAgers maintained episodic memory performance within or above the average range for 50-65 year-old norms and all 10 SuperAgers maintained episodic memory scores within normal limits for their own age. Extraversion scores tended to be high on the NEO-PI-R measure of personality. The 10 autopsy specimens showed variable findings within the spectrum of Alzheimer pathology. The hippocampus and entorhinal cortex contained neurofibrillary degeneration mostly in the Braak II-III stages. However, even these limbic areas contained many healthy appearing neurons and the neocortex was generally free of neurofibrillary degeneration. In contrast, neocortical areas in at least five of the cases contained moderate to high densities of neuritic plaques. These findings need to be placed in context by comparing them to the neuropathology of cognitively average individuals of the same age. Future research on SuperAgers is likely to offer insights into factors that either prevent the emergence of involutional changes in the brain or that makes cognitive function more resistant to their consequences.

Published
2018

6. Pineal chordoid meningioma complicated by repetitive hemorrhage during pregnancy: Case report and literature review

Author

Rohan R. Lall, Qinwen Mao, James P. Chandler, Kyung Hwa Lee, and Eileen H. Bigio

Subjects
endocrine system, Pathology, medicine.medical_specialty, Pregnancy, business.industry, General Medicine, medicine.disease, Chordoid meningioma, nervous system diseases, Pathology and Forensic Medicine, Hydrocephalus, Meningioma, Lesion, Pineal gland, medicine.anatomical_structure, Eosinophilic, Medicine, Neurology (clinical), medicine.symptom, business, Cytoplasmic Vacuolation
Abstract

Chordoid meningioma is an uncommon variant of meningioma, and is very rarely found in the pineal region. We report a case of pineal region chordoid meningioma occurring in a young woman complicated by repetitive hemorrhages in the setting of pregnancy. A 23-year-old woman, 28 weeks pregnant, was transferred to our hospital for further management of a multi-septated, hemorrhagic pineal region mass and hydrocephalus. MRI revealed a heterogeneous T2-hyperintense lesion measuring 1.7 × 1.7 cm in the pineal gland. Resection of the tumor through an occipital transtentorial approach was performed. Histopathologic examination of the lesion confirmed the diagnosis of chordoid meningioma demonstrating cords and clusters of eosinophilic cells with rare cytoplasmic vacuolation arranged in a mucinous stroma. Additionally, there was abundant lymphoplasmacytic infiltration within the tumor. The details of this case are presented with a review of the literature.

Published
2012

7. Frontotemporal lobar degeneration with TDP-43 proteinopathy and chromosome 9p repeat expansion inC9ORF72: clinicopathologic correlation

Author

Alfred Rademaker, Rakhee Ganti, M.-Marsel Mesulam, Qinwen Mao, Eileen H. Bigio, Matt Baker, Bing Bing Weitner, Saman S. Ahmadian, Sandra Weintraub, Kyung Hwa Lee, Rosa Rademakers, and Manjari Mishra

Subjects
Pathology, medicine.medical_specialty, Mutation, nutritional and metabolic diseases, General Medicine, Neuropathology, Frontotemporal lobar degeneration, Biology, medicine.disease_cause, medicine.disease, nervous system diseases, Pathology and Forensic Medicine, C9orf72 Protein, Gliosis, C9orf72, mental disorders, medicine, Neurology (clinical), Amyotrophic lateral sclerosis, medicine.symptom, Trinucleotide repeat expansion
Abstract

Mutations in C9ORF72 resulting in expanded hexanucleotide repeats were recently reported to be the underlying genetic abnormality in chromosome 9p-linked frontotemporal lobar degeneration with TAR DNA-binding protein of 43 kD (TDP-43) proteinopathy (FTLD-TDP), amyotrophic lateral sclerosis (ALS), and frontotemporal lobar degeneration with motor neuron disease (FTLD-MND). Several subsequent publications described the neuropathology as being similar to that of FTLD-TDP and ALS without C9ORF72 mutations, except that cases with mutations have p62 and ubiquitin positive, TDP-43 negative inclusions in cerebellum, hippocampus, neocortex, and basal ganglia. The identity of this protein is as yet unknown, and its significance is unclear. With the goal of potentially uncovering the significance of these inclusions, we compared the clinical, pathologic and genetic characteristics in cases with C9ORF72 mutations to those without. We confirmed the apparent specificity of p62 positive, TDP-43 negative inclusions to cases with C9ORF72 mutations. In hippocampus, these inclusions correlated with hippocampal atrophy. No additional correlations were uncovered. However, this is the first report to show that although most cases with C9ORF72 mutations were TDP type B, some of the pathologic characteristics in these cases were more similar to TDP types A and C than to type B cases. These include greater cortical and hippocampal atrophy, greater ventricular dilatation, more neuronal loss and gliosis in temporal lobe and striatum, and TDP-43 positive fine neuritic profiles in the hippocampus, implying that the C9ORF72 mutation modifies the pathologic phenotype of FTLD-TDP type B.

Published
2012

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