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1. Enhancing Electrotransfection Efficiency through Improvement in Nuclear Entry of Plasmid DNA

Author

Lisa D. Cervia, Chun-Chi Chang, Liangli Wang, Mao Mao, and Fan Yuan

Subjects
electrotransfection, electroporation, nuclear import, nuclear entry, Therapeutics. Pharmacology, RM1-950
Abstract

The nuclear envelope is a physiological barrier to electrogene transfer. To understand different mechanisms of the nuclear entry for electrotransfected plasmid DNA (pDNA), the current study investigated how manipulation of the mechanisms could affect electrotransfection efficiency (eTE), transgene expression level (EL), and cell viability. In the investigation, cells were first synchronized at G2-M phase prior to electrotransfection so that the nuclear envelope breakdown (NEBD) occurred before pDNA entered the cells. The NEBD significantly increased the eTE and the EL while the cell viability was not compromised. In the second experiment, the cells were treated with a nuclear pore dilating agent (i.e., trans-1,2-cyclohexanediol). The treatment could increase the EL, but had only minor effects on eTE. Furthermore, the treatment was more cytotoxic, compared with the cell synchronization. In the third experiment, a nuclear targeting sequence (i.e., SV40) was incorporated into the pDNA prior to electrotransfection. The incorporation was more effective than the cell synchronization for enhancing the EL, but not the eTE, and the effectiveness was cell type dependent. Taken together, the data described above suggested that synchronization of the NEBD could be a practical approach to improving electrogene transfer in all dividing cells.

Published
2018
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2. Distinct effects of endosomal escape and inhibition of endosomal trafficking on gene delivery via electrotransfection.

Author

Lisa D Cervia, Chun-Chi Chang, Liangli Wang, and Fan Yuan

Subjects
Medicine, Science
Abstract

A recent theory suggests that endocytosis is involved in uptake and intracellular transport of electrotransfected plasmid DNA (pDNA). The goal of the current study was to understand if approaches used previously to improve endocytosis of gene delivery vectors could be applied to enhancing electrotransfection efficiency (eTE). Results from the study showed that photochemically induced endosomal escape, which could increase poly-L-lysine (PLL)-mediated gene delivery, decreased eTE. The decrease could not be blocked by treatment of cells with endonuclease inhibitors (aurintricarboxylic acid and zinc ion) or antioxidants (L-glutamine and ascorbic acid). Chemical treatment of cells with an endosomal trafficking inhibitor that blocks endosome progression, bafilomycin A1, resulted in a significant decrease in eTE. However, treatment of cells with lysosomotropic agents (chloroquine and ammonium chloride) had little effects on eTE. These data suggested that endosomes played important roles in protecting and intracellular trafficking of electrotransfected pDNA.

Published
2017
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3. Core needle biopsy for the diagnosis of primary soft tissue lesions: Accuracy and diagnostic challenges

Author

Lester J. Layfield, Paul Stegelmeier, Liangli Wang, and Magda Esebua

Subjects
Histology, Databases, Factual, Biopsy, Fine-Needle, Humans, Biopsy, Large-Core Needle, General Medicine, Sensitivity and Specificity, Retrospective Studies, Pathology and Forensic Medicine
Abstract

Core needle biopsy (CNB) and fine needle aspiration (FNA) are currently the most common biopsy methods for investigation of soft tissue lesions. Selection of the method to be used depends on a number of factors including diagnostic accuracy, local expertise with the techniques and the need for ancillary testing. We investigated the diagnostic accuracy of CNB and factors influencing the selection of CNB or FNA.An electronic search of the surgical pathology records for all core needle biopsies of soft tissue lesions with subsequent incisional biopsies or excisions between January 1, 2015 and December 31, 2021 was performed. Searches of the literature for publications documenting diagnostic accuracy of core biopsy and FNA were performed using the Pub Med literature data base.The electronic search yielded 177 CNBs with appropriate follow-up. Six cases were non-diagnostic. The remaining 171 cases showed an accuracy of 90% for separation of benign from malignant with two false-positive and 17 false-negative diagnoses. The literature search revealed 11 series of CNBs with a diagnostic accuracy of 74% to 97%. The literature search revealed 20 series of FNAs with an accuracy of 84.8% to 100% for separation of benign from malignant.Core needle biopsy is a highly accurate diagnostic technique with an accuracy of 90% for separation of benign from malignant lesions. The percentage of non-diagnostic cases is low (3.4%). No significant biopsy related complications were seen in this study.

Published
2022

4. Enhancing Cell Viability and Efficiency of Plasmid DNA Electrotransfer Through Reducing Plasma Membrane Permeabilization

Author

Yanhua Wang, Fan Yuan, Liangli Wang, and Chun-Chi Chang

Subjects
Transplantation, Membrane permeabilization, Plasmid dna, Chemistry, Electroporation, Biomedical Engineering, Biophysics, Medicine (miscellaneous), Viability assay, Plasma, Electrical and Electronic Engineering, Article
Abstract

BACKGROUND: Pulsed electric field has been widely used to facilitate molecular cargo transfer into cells. However, the cell viability is often decreased when trying to increase the electrotransfer efficiency. We hypothesize that the decrease is due to electropermeabilization of cell membrane that disrupts homeostasis of intracellular microenvironment. Thus, a reduction in the membrane permeabilization may increase the cell viability. MATERIALS AND METHODS: Different compounds were supplemented into the pulsing buffer prior to electrotransfer for reduction of cell membrane damage. Extent of the damage was quantified by leakiness of the membrane to a fluorescent dye, calcein, preloaded into cells. At 24 hours post electrotransfer, cell viability and electrotransfer efficiency were quantified with flow cytometry. RESULTS: The cell viability could be substantially increased by supplementation of either type B gelatin or bovine serum albumin (BSA), without compromising the electrotransfer efficiency. The supplementation also decreased the amount of calcein leaking out of the cells, suggesting that the improvement in cell viability was due to the reduction in electrotransfer-induced membrane damage. CONCLUSION: Data from the study demonstrate that type B gelatin and BSA can be used as inexpensive supplements for improving cell viability in electrotransfer.

Published
2020

5. Inhibition of Caspases Improves Non-Viral T Cell Receptor Editing

Author

Fan Yuan, Chunxi Wang, Chun-Chi Chang, and Liangli Wang

Subjects
0301 basic medicine, Cancer Research, caspase-3, T cell, Caspase 3, lcsh:RC254-282, Jurkat cells, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Viability assay, Caspase, electrotransfer, cell viability, biology, Chemistry, T-cell receptor, apoptosis, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Chimeric antigen receptor, Cell biology, CAR-T, 030104 developmental biology, medicine.anatomical_structure, Oncology, Apoptosis, 030220 oncology & carcinogenesis, biology.protein
Abstract

T cell receptor (TCR) knockout is a critical step in producing universal chimeric antigen receptor T cells for cancer immunotherapy. A promising approach to achieving the knockout is to deliver the CRISPR/Cas9 system into cells using electrotransfer technology. However, clinical applications of the technology are currently limited by the low cell viability. In this study, we attempt to solve the problem by screening small molecule drugs with an immortalized human T cell line, Jurkat clone E6-1, for inhibition of apoptosis. The study identifies a few caspase inhibitors that could be used to simultaneously enhance the cell viability and the efficiency of plasmid DNA electrotransfer. Additionally, we show that the enhancement could be achieved through knockdown of caspase 3 expression in siRNA treated cells, suggesting that the cell death in electrotransfer experiments was caused mainly by caspase 3-dependent apoptosis. Finally, we investigated if the caspase inhibitors could improve TCR gene-editing with electrotransferred ribonucleoprotein, a complex of Cas9 protein and a T cell receptor-&alpha, constant (TRAC)-targeting single guide RNA (sgRNA). Our data showed that inhibition of caspases post electrotransfer could significantly increase cell viability without compromising the TCR disruption efficiency. These new findings can be used to improve non-viral T cell engineering.

Published
2020
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6. Redirecting Vesicular Transport to Improve Nonviral Delivery of Molecular Cargo

Author

Fan Yuan, Liangli Wang, Jing Ji, Lisa D. Cervia, Adrian Pickar-Oliver, Charles A. Gersbach, Chun-Chi Chang, Mao Mao, and Paloma B. Liton

Subjects
Sucrose, Cell, Biomedical Engineering, Gene delivery, General Biochemistry, Genetics and Molecular Biology, Article, Viral vector, Biomaterials, chemistry.chemical_compound, Drug Delivery Systems, Raffinose, Plasmid dna, medicine, Humans, RNA, Messenger, RNA, Small Interfering, Electroporation, Trehalose, Biological Transport, Genetic Therapy, Sleeping Beauty transposon system, Cell biology, Vesicular transport protein, medicine.anatomical_structure, HEK293 Cells, chemistry, Ribonucleoproteins, DNA Transposable Elements, CRISPR-Cas Systems, Lysosomes, Microtubule-Associated Proteins, Plasmids
Abstract

Cell engineering relies heavily on viral vectors for the delivery of molecular cargo into cells due to their superior efficiency compared to nonviral ones. However, viruses are immunogenic and expensive to manufacture, and have limited delivery capacity. Nonviral delivery approaches avoid these limitations but are currently inefficient for clinical applications. This work demonstrates that the efficiency of nonviral delivery of plasmid DNA, mRNA, Sleeping Beauty transposon, and ribonucleoprotein can be significantly enhanced through pretreatment of cells with the nondegradable sugars (NDS), such as sucrose, trehalose, and raffinose. The enhancement is mediated by the incorporation of the NDS into cell membranes, causing enlargement of lysosomes and formation of large (>500 nm) amphisome-like bodies (ALBs). The changes in subcellular structures redirect transport of cargo to ALBs rather than to lysosomes, reducing cargo degradation in cells. The data indicate that pretreatment of cells with NDS is a promising approach to improve nonviral cargo delivery in biomedical applications.

Published
2020

7. Ultrastructural Analysis of Vesicular Transport in Electrotransfection

Author

Sara E. Miller, Liangli Wang, and Fan Yuan

Subjects
0301 basic medicine, Digoxin, Endosome, Immunoelectron microscopy, Endocytic cycle, Cell Cycle Proteins, GPI-Linked Proteins, Transfection, Endocytosis, Article, Cell Line, Veins, 03 medical and health sciences, Electricity, Caveolae, Humans, Microscopy, Immunoelectron, Transport Vesicles, Instrumentation, Tissue Embedding, Chemistry, Pinocytosis, Gene Transfer Techniques, Endothelial Cells, Biological Transport, DNA, Receptor-mediated endocytosis, Clathrin, Cell biology, Vesicular transport protein, 030104 developmental biology, Plasmids
Abstract

Emerging evidence from various studies indicates that plasmid DNA (pDNA) is internalized by cells through an endocytosis-like process when it is used for electrotransfection. To provide morphological evidence of the process, we investigated ultrastructures in cells that were associated with the electrotransfected pDNA, using immunoelectron microscopy. The results demonstrate that four endocytic pathways are involved in the uptake of the pDNA, including caveolae- and clathrin-mediated endocytosis, macropinocytosis, and the clathrin-independent carrier/glycosylphosphatidylinositol-anchored protein-enriched early endosomal compartment (CLIC/GEEC) pathway. Among them, macropinocytosis is the most common pathway utilized by cells having various pDNA uptake capacities, and the CLIC/GEEC pathway is observed primarily in human umbilical vein endothelial cells. Quantitatively, the endocytic pathways are more active in easy-to-transfect cells than in hard-to-transfect ones. Taken together, our data provide ultrastructural evidence showing that endocytosis plays an important role in cellular uptake and intracellular transport of electrotransfected pDNA.

Published
2018

8. Enhancing Electrotransfection Efficiency through Improvement in Nuclear Entry of Plasmid DNA

Author

Mao Mao, Chun-Chi Chang, Liangli Wang, Lisa D. Cervia, and Fan Yuan

Subjects
electroporation, 0301 basic medicine, Cell type, Transgene, Biophysics, Article, nuclear entry, 03 medical and health sciences, 0302 clinical medicine, Plasmid dna, Drug Discovery, Cytotoxic T cell, Viability assay, electrotransfection, Nuclear pore, Cell synchronization, 030304 developmental biology, 0303 health sciences, Chemistry, Electroporation, lcsh:RM1-950, nuclear import, Cell biology, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Molecular Medicine, Nuclear transport, 030217 neurology & neurosurgery
Abstract

The nuclear envelope is a physiological barrier to electrogene transfer. To understand different mechanisms of the nuclear entry for electrotransfected plasmid DNA (pDNA), the current study investigated how manipulation of the mechanisms could affect electrotransfection efficiency (eTE), transgene expression level (EL), and cell viability. In the investigation, cells were first synchronized at G2-M phase prior to electrotransfection so that the nuclear envelope breakdown (NEBD) occurred before pDNA entered the cells. The NEBD significantly increased the eTE and the EL while the cell viability was not compromised. In the second experiment, the cells were treated with a nuclear pore dilating agent (i.e., trans-1,2-cyclohexanediol). The treatment could increase the EL, but had only minor effects on eTE. Furthermore, the treatment was more cytotoxic, compared with the cell synchronization. In the third experiment, a nuclear targeting sequence (i.e., SV40) was incorporated into the pDNA prior to electrotransfection. The incorporation was more effective than the cell synchronization for enhancing the EL, but not the eTE, and the effectiveness was cell type dependent. Taken together, the data described above suggested that synchronization of the NEBD could be a practical approach to improving electrogene transfer in all dividing cells.

Published
2018

9. Involvement of a Rac1-Dependent Macropinocytosis Pathway in Plasmid DNA Delivery by Electrotransfection

Author

Jianyong Huang, Katheryn E. Rothenberg, Chun-Chi Chang, Yingxiao Wang, Liangli Wang, Brenton D. Hoffman, Mao Mao, Fan Yuan, and Paloma B. Liton

Subjects
rac1 GTP-Binding Protein, 0301 basic medicine, Endocytic cycle, Gene Expression, Biology, Transfection, Endocytosis, Cell Line, Cell membrane, Mice, 03 medical and health sciences, Chlorocebus aethiops, Drug Discovery, Genetics, medicine, Animals, Humans, Molecular Biology, Pharmacology, Electroporation, Pinocytosis, Gene Transfer Techniques, Actins, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, Cell culture, COS Cells, Molecular Medicine, Original Article, Intracellular, Plasmids
Abstract

Electrotransfection is a widely used method for delivering genes into cells with electric pulses. Although different hypotheses have been proposed, the mechanism of electrotransfection remains controversial. Previous studies have indicated that uptake and intracellular trafficking of plasmid DNA (pDNA) are mediated by endocytic pathways, but it is still unclear which pathways are directly involved in the delivery. To this end, the present study investigated the dependence of electrotransfection on macropinocytosis. Data from the study demonstrated that electric pulses induced cell membrane ruffling and actin cytoskeleton remodeling. Using fluorescently labeled pDNA and a macropinocytosis marker (i.e., dextran), the study showed that electrotransfected pDNA co-localized with dextran in intracellular vesicles. Furthermore, electrotransfection efficiency could be decreased significantly by reducing temperature or treatment of cells with a pharmacological inhibitor of Rac1 and could be altered by changing Rac1 activity. Taken together, the findings suggested that electrotransfection of pDNA involved Rac1-dependent macropinocytosis.

Published
2017

10. Elastic hydrogel as a sensor for detection of mechanical stress generated by single cells grown in three-dimensional environment

Author

Fan Yuan, Liangli Wang, Chunyang Xiong, and Jianyong Huang

Subjects
0301 basic medicine, Materials science, Cell, Cell Culture Techniques, Biophysics, Bioengineering, Hydrogel, Polyethylene Glycol Dimethacrylate, Cell Line, Biomaterials, Stress (mechanics), Mice, 03 medical and health sciences, Mechanobiology, Microscopy, medicine, Animals, Mechanotransduction, Cell Proliferation, Cell growth, Stiffness, Elasticity, 030104 developmental biology, medicine.anatomical_structure, Mechanics of Materials, Self-healing hydrogels, Ceramics and Composites, Methacrylates, Stress, Mechanical, medicine.symptom, Biomedical engineering
Abstract

Cell volume growth occurs in all living tissues. The growth exerts mechanical stresses on surrounding tissues that may alter tissue microenvironment, and have significant implications in health and diseases. However, the level of growth stress generated by single cells in three-dimensional (3D) environment remains to be determined. To this end, we developed a growth force microscopy technique to determine 3D distribution of the stress. The technique was based on encapsulation of cells in elastic hydrogels, and involved 3D particle tracking and mechanical analysis of gel deformation. Data from the study demonstrated that the growth stress was dynamic, and the stress distribution at the gel-cell interface was correlated inversely to the mean surface curvature or the distance to the geometric center of the cell. The stress averaged over the cell surface increased with increasing gel stiffness, suggesting that cells could alter growth stress in response to stiffness change in microenvironment. These findings suggested that the elastic hydrogel-based microscopy technique had a potential to provide new insights into mechanisms of mechanical interactions between cell and its microenvironment.

Published
2016

11. Neuron-specific Sumo1–3 knockdown in mice impairs episodic and fear memories

Author

Shengli Zhao, William C. Wetsel, Xiaozhi Liu, Wulf Paschen, Huaxin Sheng, Ramona M. Rodriguiz, Wei Yang, and Liangli Wang

Subjects
Male, Reflex, Startle, Emotions, SUMO protein, Fluorescent Antibody Technique, Mice, Transgenic, Anxiety, Neuropsychological Tests, Amygdala, Mice, Memory, Conditioning, Psychological, Neuroplasticity, medicine, Gene Knockdown Techniques, Animals, Gene silencing, Pharmacology (medical), Gene Silencing, Fear conditioning, Episodic memory, In Situ Hybridization, Biological Psychiatry, Neurons, Gene knockdown, Brain, Fear, Research Papers, Mice, Inbred C57BL, MicroRNAs, Psychiatry and Mental health, medicine.anatomical_structure, Cues, Psychology, Neuroscience
Abstract

Background: Growing evidence suggests that small ubiquitin-like modifier (SUMO) conjugation plays a key role in brain plasticity by modulating activity-dependent synaptic transmission. However, these observations are based largely on cell culture experiments. We hypothesized that episodic and fear memories would be affected by silencing SUMO1–3 expression. Methods: To investigate the role of SUMO conjugation in neuronal functioning in vivo, we generated a novel Sumo transgenic mouse model in which a Thy1 promoter drives expression of 3 distinct microRNAs to silence Sumo1–3 expression, specifically in neurons. Wild-type and Sumo1–3 knockdown mice were subjected to a battery of behavioural tests to elucidate whether Sumoylation is involved in episodic and emotional memory. Results: Expression of Sumo1–3 microRNAs and the corresponding silencing of Sumo expression were particularly pronounced in hippocampal, amygdala and layer V cerebral cortex neurons. The Sumo knockdown mice displayed anxiety-like responses and were impaired in episodic memory processes, contextual and cued fear conditioning and fear-potentiated startle. Limitations: Since expression of Sumo1–3 was silenced in this mouse model, we need to verify in future studies which of the SUMO paralogues play the pivotal role in episodic and emotional memory. Conclusion: Our results indicate that a functional SUMO conjugation pathway is essential for emotionality and cognition. This novel Sumo knockdown mouse model and the technology used in generating this mutant may help to reveal novel mechanisms that underlie a variety of neuropsychiatric conditions associated with anxiety and impairment of episodic and emotional memory.

Published
2014

12. Small Ubiquitin-Like Modifier 3–Modified Proteome Regulated by Brain Ischemia in Novel Small Ubiquitin-Like Modifier Transgenic Mice

Author

Xiaozhi Liu, Pei Miao, Liangli Wang, Wei Yang, J. Will Thompson, Shengli Zhao, Huaxin Sheng, M. Arthur Moseley, and Wulf Paschen

Subjects
Advanced and Specialized Nursing, Genetically modified mouse, SUMO-1 Protein, biology, business.industry, SUMO protein, SUMO2, Proteomics, Cell biology, Ubiquitin, Small Ubiquitin-Related Modifier Proteins, Proteome, biology.protein, Medicine, Neurology (clinical), Cardiology and Cardiovascular Medicine, business
Abstract

Background and Purpose— Small ubiquitin-like modifier (SUMO) conjugation is a post-translational modification associated with many human diseases. Characterization of the SUMO-modified proteome is pivotal to define the mechanistic link between SUMO conjugation and such diseases. This is particularly evident for SUMO2/3 conjugation, which is massively activated after brain ischemia/stroke, and is believed to be a protective response. The purpose of this study was to perform a comprehensive analysis of the SUMO3-modified proteome regulated by brain ischemia using a novel SUMO transgenic mouse. Methods— To enable SUMO proteomics analysis in vivo, we generated transgenic mice conditionally expressing tagged SUMO1-3 paralogues. Transgenic mice were subjected to 10 minutes forebrain ischemia and 1 hour of reperfusion. SUMO3-conjugated proteins were enriched by anti-FLAG affinity purification and analyzed by liquid chromatography–tandem mass spectrometry. Results— Characterization of SUMO transgenic mice demonstrated that all 3 tagged SUMO paralogues were functionally active, and expression of exogenous SUMOs did not modify the endogenous SUMOylation machinery. Proteomics analysis identified 112 putative SUMO3 substrates of which 91 candidates were more abundant in the ischemia group than the sham group. Data analysis revealed processes/pathways with putative neuroprotective functions, including glucocorticoid receptor signaling, RNA processing, and SUMOylation-dependent ubiquitin conjugation. Conclusions— The identified proteins/pathways modulated by SUMOylation could be the key to understand the mechanisms linking SUMOylation to neuroprotection, and thus provide new promising targets for therapeutic interventions. The new transgenic mouse will be an invaluable platform for analyzing the SUMO-modified proteome in models of human disorders and thereby help to mechanistically link SUMOylation to the pathological processes.

Published
2014

14. Heat shock protein 70 (Hsp70) inhibits oxidative phosphorylation and compensates ATP balance through enhanced glycolytic activity

Author

Olga Prokopchuk, Uwe Schumann, Liangli Wang, Yuefei Liu, and Jürgen M. Steinacker

Subjects
Physiology, Citric Acid Cycle, Citrate (si)-Synthase, Oxidative phosphorylation, Biology, Mitochondrion, Transfection, Oxidative Phosphorylation, Electron Transport Complex III, chemistry.chemical_compound, Adenosine Triphosphate, Physiology (medical), Humans, HSP70 Heat-Shock Proteins, Glycolysis, Lactic Acid, Heat shock, Electron Transport Complex I, L-Lactate Dehydrogenase, Articles, Adaptation, Physiological, Mitochondria, Cell biology, Hsp70, Citric acid cycle, Glucose, Gene Expression Regulation, Phosphofructokinases, chemistry, Biochemistry, Adenosine triphosphate, HeLa Cells
Abstract

To address possible effects of heat shock protein 70 (Hsp70) on energy metabolism, we established a cell line expressing different levels of Hsp70 and evaluated changes in glucose and lactate metabolites, as well as ATP levels accordingly. In addition, activities of enzymes involved in glycolysis [phosphofructokinase (PFK) and lactate dehydrogenase (LDH)], Krebs cycle [citric synthase (CS)], and oxidative phosphorylation {NADH dehydrogenase [ complex I (CI)] and ubiquinol:cytochrome-c reductase [ complex III (CIII)]} were analyzed. The results show that both glucose consumption and lactate excretion were elevated significantly in cells expressing increased levels of Hsp70. Simultaneously, the activities of glycolytic enzymes PFK and LDH were increased markedly in cells overexpressing Hsp70. Activities of enzymes CI and CIII, both involved in oxidative phosphorylation, decreased upon increased expression of Hsp70. These findings were supported by nonsignificant reductions of CS activities in cells that overexpressed Hsp70, whereas intracellular ATP levels remained constant over a wide range of Hsp70 expression. In conclusion, overexpression of Hsp70 in HeLa cells results in downregulation of oxidative phosphorylation, in particular, multiprotein CIII, the main source of reactive oxygen species. In exchange, upregulation of the glycolytic pathway compensates for the homeostasis of cellular ATP supply.

Published
2012

15. Small ubiquitin-like modifier 1-3 is activated in human astrocytic brain tumors and is required for glioblastoma cell survival

Author

Christoph Harms, Roland Goldbrunner, Wulf Paschen, Liangli Wang, Wei Yang, Francis Ali-Osman, Matthew Krantz, Gabriele Roehn, Robert D. Pearlstein, and Hongjie Pan

Subjects
Cancer Research, DNA Repair, Cell Survival, DNA repair, SUMO-1 Protein, SUMO protein, SUMO2, Astrocytoma, Histones, Ubiquitin, Small Ubiquitin-Related Modifier Proteins, Gene expression, Tumor Cells, Cultured, Humans, Phosphorylation, Ubiquitins, Transcription factor, biology, Brain Neoplasms, Sumoylation, Original Articles, Cell Cycle Checkpoints, General Medicine, Molecular biology, Cell biology, MicroRNAs, Histone, Oncology, Ubiquitin-Conjugating Enzymes, biology.protein, RNA Interference, Glioblastoma
Abstract

Small ubiquitin‐like modifier (SUMO1–3) constitutes a group of proteins that conjugate to lysine residues of target proteins thereby modifying their activity, stability, and subcellular localization. A large number of SUMO target proteins are transcription factors and other nuclear proteins involved in gene expression. Furthermore, SUMO conjugation plays key roles in genome stability, quality control of newly synthesized proteins, proteasomal degradation of proteins, and DNA damage repair. Any marked increase in levels of SUMO‐conjugated proteins is therefore expected to have a major impact on the fate of cells. We show here that SUMO conjugation is activated in human astrocytic brain tumors. Levels of both SUMO1‐ and SUMO2/3‐conjugated proteins were markedly increased in tumor samples. The effect was least pronounced in low‐grade astrocytoma (WHO Grade II) and most pronounced in glioblastoma multiforme (WHO Grade IV). We also found a marked rise in levels of Ubc9, the only SUMO conjugation enzyme identified so far. Blocking SUMO1–3 conjugation in glioblastoma cells by silencing their expression blocked DNA synthesis, cell growth, and clonogenic survival of cells. It also resulted in DNA‐dependent protein kinase‐induced phosphorylation of H2AX, indicative of DNA double‐strand damage, and G 2/M cell cycle arrest. Collectively, these findings highlight the pivotal role of SUMO conjugation in DNA damage repair processes and imply that the SUMO conjugation pathway could be a new target of therapeutic intervention aimed at increasing the sensitivity of glioblastomas to radiotherapy and chemotherapy. (Cancer Sci 2013; 104: 70–77)

Published
2012

16. Analysis of Oxygen/Glucose-Deprivation-Induced Changes in SUMO3 Conjugation Using SILAC-Based Quantitative Proteomics

Author

M. Arthur Moseley, Liangli Wang, Wei Yang, J. Will Thompson, Wulf Paschen, Matthew W. Foster, Zhengfeng Wang, and Huaxin Sheng

Subjects
Proteomics, SUMO protein, SUMO2, Biology, Biochemistry, Article, Mice, Neuroblastoma, Ubiquitin, Stress, Physiological, Small Ubiquitin-Related Modifier Proteins, Cell Line, Tumor, Stable isotope labeling by amino acids in cell culture, Animals, Protein Interaction Maps, Ubiquitination, Proteins, General Chemistry, Cell Hypoxia, Protein ubiquitination, Oxygen, Glucose, nervous system, Isotope Labeling, biology.protein, Signal transduction
Abstract

Transient cerebral ischemia dramatically activates small ubiquitin-like modifier (SUMO2/3) conjugation. In cells exposed to 6 h of transient oxygen/glucose deprivation (OGD), a model of ischemia, SUMOylation increases profoundly between 0 and 30 min following re-oxygenation. To elucidate the effect of transient OGD on SUMO conjugation of target proteins, we exposed neuroblastoma B35 cells expressing HA-SUMO3 to transient OGD and used stable isotope labeling with amino acids in cell culture (SILAC) to quantify OGD-induced changes in levels of specific SUMOylated proteins. Lysates from control and OGD-treated cells were mixed equally, and HA-tagged proteins were immunoprecipitated and analyzed by 1D-SDS-PAGE-LC-MS/MS. We identified 188 putative SUMO3-conjugated proteins, including numerous transcription factors and coregulators, and PIAS2 and PIAS4 SUMO ligases, of which 22 were increased or decreased more than ±2-fold. In addition to SUMO3, the levels of protein-conjugated SUMO1 and SUMO2, as well as ubiquitin, were all increased. Importantly, protein ubiquitination induced by OGD was completely blocked by gene silencing of SUMO2/3. Collectively, these results suggest several mechanisms for OGD-modulated SUMOylation, point to a number of signaling pathways that may be targets of SUMO-based signaling and recovery from ischemic stress, and demonstrate a tightly controlled crosstalk between the SUMO and ubiquitin conjugation pathways.

Published
2011

17. Different skeletal muscle HSP70 responses to high-intensity strength training and low-intensity endurance training

Author

W. Lormes, Liangli Wang, Jürgen M. Steinacker, Yuefei Liu, and S Reissnecker

Subjects
Adult, Male, medicine.medical_specialty, Weight Lifting, Sports medicine, Physiology, Strength training, Physical Exertion, education, Rowing, Physical exercise, Oxygen Consumption, Endurance training, Physiology (medical), Internal medicine, medicine, Humans, HSP70 Heat-Shock Proteins, Orthopedics and Sports Medicine, Muscle, Skeletal, Exercise, Physical Education and Training, business.industry, Public Health, Environmental and Occupational Health, Skeletal muscle, General Medicine, Adaptation, Physiological, Hsp70, Intensity (physics), Endocrinology, medicine.anatomical_structure, Thigh, Physical Endurance, business
Abstract

Heat shock protein, e.g. HSP70, can be induced in human skeletal muscle undergoing exercise training, and plays important role in adaptation to stress. This study was designed to investigate the effects of high-intensity strength training and low-intensity endurance training on the HSP70 response to exercise, bearing in mind whether HSP70 is induced in the well-trained muscle during low-intensity endurance training. Six well-trained rowers (male, aged 18 years) underwent a training program which consisted of 3 weeks high-intensity training (HIT) and 3 weeks low-intensity endurance training (ET), followed by 1 week of recovery each (R1 and R2, respectively). HSP70 (2.5 microg total protein loaded) was determined by Western blot with reference to a series of known amount of standard HSP70. HSP70 mRNA was analyzed by RT-PCR, and the relative percentage change was referred to the baseline level (before training). HSP70 increased significantly at the end of HIT (from 51 to 73 ng), decreased at the end of R1(66 ng), and remained unchanged throughout ET and R2. HSP70 mRNA increased significantly after HIT (257%) and decreased gradually afterwards (194%, 166%, and 119% for R1, ET, and R2, respectively). It can be concluded that: (1) HSP70 was induced by high-intensity training, but not by endurance training at low intensity, and (2) there was a discrepancy in terms of HSP70 regulation between the protein and mRNA levels, suggesting that posttranscriptional regulation may play a role in HSP70 expression in human skeletal muscle in response to exercise.

Published
2004

19. SUMO2 is essential while SUMO3 is dispensable for mouse embryonic development

Author

Pei Miao, Liangli Wang, Shengli Zhao, Wei Yang, Wulf Paschen, and Carolien Wansleeben

Subjects
Gene isoform, Mice, Knockout, Genes, Essential, Embryogenesis, Mutant, Scientific Reports, Embryonic Development, Gene Expression, Embryo, SUMO2, Biology, Biochemistry, Embryonic stem cell, Molecular biology, Phenotype, Mice, Inbred C57BL, Gene expression, Genetics, Small Ubiquitin-Related Modifier Proteins, Animals, Female, Molecular Biology, Ubiquitins
Abstract

Small ubiquitin-like modifier (SUMO1-3) conjugation plays a critical role in embryogenesis. Embryos deficient in the SUMO-conjugating enzyme Ubc9 die at the early postimplantation stage. Sumo1(-/-) mice are viable, as SUMO2/3 can compensate for most SUMO1 functions. To uncover the role of SUMO2/3 in embryogenesis, we generated Sumo2- and Sumo3-null mutant mice. Here, we report that Sumo3(-/-) mice were viable, while Sumo2(-/-) embryos exhibited severe developmental delay and died at approximately embryonic day 10.5 (E10.5). We also provide evidence that SUMO2 is the predominantly expressed SUMO isoform. Furthermore, although Sumo2(+/-) and Sumo2(+/-);Sumo3(+/-) mice lacked any overt phenotype, only 2 Sumo2(+/-);Sumo3(-/-) mice were found at birth in 35 litters after crossing Sumo2(+/-);Sumo3(+/-) with Sumo3(-/-) mice, and these rare mice were considerably smaller than littermates of the other genotypes. Thus, our findings suggest that expression levels and not functional differences between SUMO2 and SUMO3 are critical for normal embryogenesis.

Published
2014

20. Abstract W P206: Analysis of SUMO3-Modified Proteome in Post-Ischemic Mouse Brain

Author

Huaxin Sheng, Wulf Paschen, Liangli Wang, Xiaozhi Liu, Shengli Zhao, William M. Thompson, and Wei Yang

Subjects
Advanced and Specialized Nursing, Genetically modified mouse, biology, business.industry, Transgene, Ischemia, SUMO protein, SUMO2, medicine.disease, Proteomics, Cell biology, Ubiquitin, Immunology, Proteome, medicine, biology.protein, Neurology (clinical), Cardiology and Cardiovascular Medicine, business
Abstract

Background and Purpose: Small ubiquitin-like modifier (SUMO) conjugation modulates many key cellular processes. Transient cerebral ischemia dramatically activates SUMO2/3 conjugation, and this is believed to be a protective stress response. It is, therefore, of tremendous clinical interest to characterize the SUMO-modified proteome regulated by transient ischemia. We generated a novel SUMO transgenic mouse and performed the first SUMO proteomics study using post-ischemic brain samples. Methods: CAG-loxP-STOP-loxP-SUMO (CAG-SUMO) mice were generated in which His-SUMO1, HA-SUMO2, and FLAG-SUMO3 were expressed from a single multicistronic transgene in a Cre-dependent manner. CAG-SUMO mice were mated with Emx1 Cre/Cre mice to generate double transgenic CAG-SUMO/Emx1-Cre mice as experimental mice and Emx1 Cre/+ mice as control mice. Double transgenic mice were subjected to 10 min global cerebral ischemia followed by 1 h reperfusion or sham operation. FLAG-SUMO3-conjugated proteins were enriched from cortical tissues and analyzed. Results: Characterization of double transgenic mice demonstrated that exogenous expressed tagged SUMO paralogues were functionally intact and did not perturb the endogenous SUMOylation machinery in the brain. FLAG pulldown of cortical samples from sham and ischemia mice followed by GeLC-MS/MS analysis identified 91 candidates whose SUMOylation states were up-regulated in ischemic samples. Data analysis revealed several potentially important processes in which SUMO3 conjugation may play a key role during ischemia/reperfusion, including the cross-talk between SUMOylation and ubiquitination, glucocorticoid receptor signaling, and modulation of posttranscriptional mRNA processing. Conclusions: SUMO proteomic analysis identified important processes and pathways modulated by SUMOylation in the post-ischemic brain that warrant future investigations, since they could be the key to understand the overall impact of SUMOylation on the fate and functions of post-ischemic neurons. The conditional SUMO transgenic mouse will be an invaluable tool for in-depth in vivo analysis of the SUMO-modified proteome in various pathological states.

Published
2014

21. Characterization of the ubiquitin-modified proteome regulated by transient forebrain ischemia

Author

David M. Gooden, JWill Thompson, Wei Yang, Laura G. Dubois, MArthur Moseley, Huaxin Sheng, Masahiro Iwabuchi, Wulf Paschen, and Liangli Wang

Subjects
Male, Proteomics, Proteome, Immunoprecipitation, Blotting, Western, Protein aggregation, Protein degradation, Tandem mass spectrometry, Mice, Prosencephalon, Ubiquitin, Tandem Mass Spectrometry, Animals, Microscopy, Confocal, biology, Ubiquitination, Ubiquitinated Proteins, Peptide Fragments, Blot, Mice, Inbred C57BL, Neurology, Biochemistry, Ischemic Attack, Transient, biology.protein, Original Article, Neurology (clinical), Cardiology and Cardiovascular Medicine, Chromatography, Liquid
Abstract

Ubiquitylation is a posttranslational protein modification that modulates various cellular processes of key significance, including protein degradation and DNA damage repair. In animals subjected to transient cerebral ischemia, ubiquitin-conjugated proteins accumulate in Triton-insoluble aggregates. Although this process is widely considered to modulate the fate of postischemic neurons, few attempts have been made to characterize the ubiquitin-modified proteome in these aggregates. We performed proteomics analyses to identify ubiquitylated proteins in postischemic aggregates. Mice were subjected to 10 minutes of forebrain ischemia and 4 hours of reperfusion. The hippocampi were dissected, aggregates were isolated, and trypsin-digested after spiking with GG-BSA as internal standard. K- ε-GG-containing peptides were immunoprecipitated and analyzed by label-free quantitative liquid chromatography tandem mass spectrometry (LC-MS/MS) analysis. We identified 1,664 peptides to 520 proteins containing at least one K- ε-GG. Sixty-six proteins were highly ubiquitylated, with 10 or more K- ε-GG peptides. Based on selection criteria of greater than fivefold increase and P

Published
2013

22. Moderate hypothermia induces marked increase in levels and nuclear accumulation of SUMO2/3-conjugated proteins in neurons

Author

Wei Yang, Qing Ma, Wulf Paschen, G. Burkhard Mackensen, and Liangli Wang

Subjects
Male, Primary Cell Culture, Active Transport, Cell Nucleus, Endogeny, SUMO2, Biology, Pharmacology, Biochemistry, Neuroprotection, Article, law.invention, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Western blot, In vivo, law, Hypothermia, Induced, medicine, Cardiopulmonary bypass, Animals, Neurons, medicine.diagnostic_test, Nuclear Proteins, Hypothermia, Rats, Anesthesia, Circulatory system, Ubiquitin-Conjugating Enzymes, Small Ubiquitin-Related Modifier Proteins, Female, medicine.symptom, Subcellular Fractions
Abstract

Deep hypothermia protects the brain from ischemic damage and is therefore used during major cardiovascular surgeries requiring cardiopulmonary bypass and a period of circulatory arrest. Here, we demonstrated that small ubiquitin-like modifier (SUMO1-3) conjugation is markedly activated in the brain during deep to moderate hypothermia. Animals were subjected to normothermic (37°C) or deep to moderate (18°C, 24°C, 30°C) hypothermic cardiopulmonary bypass, and the effects of hypothermia on SUMO conjugation were evaluated by Western blot and immunohistochemistry. Exposure to moderate 30°C hypothermia was sufficient to markedly increased levels and nuclear accumulation of SUMO2/3-conjugated proteins in these cells. Deep hypothermia induced nuclear translocation of the SUMO conjugating enzyme Ubc9, suggesting that the increase in nuclear levels of SUMO2/3-conjugated proteins observed in brains of hypothermic animals is an active process. Exposure of primary neuronal cultures to deep hypothermia induced only a moderate rise in levels of SUMO2/3-conjugated proteins. This suggests that neurons in vivo have a higher capacity than neurons in vitro to activate this endogenous potentially neuroprotective pathway upon exposure to hypothermia. Identifying proteins that are SUMO2/3 conjugated during hypothermia could help to design new strategies for preventive and therapeutic interventions to make neurons more resistant to a transient interruption of blood supply.

Published
2012

23. Pik3c3 deletion in pyramidal neurons results in loss of synapses, extensive gliosis and progressive neurodegeneration

Author

Liangli Wang, Fan Wang, and Katie Budolfson

Subjects
Dendritic spine, Hippocampus, Mice, Transgenic, Hippocampal formation, Biology, Article, Synapse, Mice, medicine, Animals, Gliosis, Cells, Cultured, Cerebral Cortex, Mice, Knockout, General Neuroscience, Pyramidal Cells, Neurodegeneration, medicine.disease, Class III Phosphatidylinositol 3-Kinases, Disease Models, Animal, medicine.anatomical_structure, nervous system, Cerebral cortex, Forebrain, Mutation, Nerve Degeneration, Synapses, Disease Progression, medicine.symptom, Neuroscience
Abstract

The lipid kinase PIK3C3 (also known as VPS34) regulates multiple aspects of endo-membrane trafficking processes. PIK3C3 is widely expressed by neurons in the central nervous system (CNS), and its catalytic product PI3P is enriched in dendritic spines. Here we generated a line of conditional mutant mouse in which Pik3c3 is specifically deleted in hippocampal and in small subsets of cortical pyramidal neurons using the CaMKII-Cre transgene. We found that Pik3c3-deficiency initially causes loss of dendritic spines accompanied with reactive gliosis, which is followed by progressive neuronal degeneration over a period of several months. Layers III and IV cortical neurons are more susceptible to Pik3c3-deletion than hippocampal neurons. Furthermore, in aged conditional Pik3c3 mutant animals, there are extensive gliosis and severe secondary loss of wildtype neurons. Our analyses show that Pik3c3 is essential for CNS neuronal homeostasis and Pik3c3flox/flox;CaMKII-Cre mouse is a useful model for studying pathological changes in progressive forebrain neurodegeneration.

Published
2010

24. Deletion of PIK3C3/Vps34 in sensory neurons causes rapid neurodegeneration by disrupting the endosomal but not the autophagic pathway

Author

You-Wen He, Xiang Zhou, Priyanka Amin, Fan Wang, Hiroshi Hasegawa, Liangli Wang, Shinjiro Kaneko, and Bao Xia Han

Subjects
Sensory Receptor Cells, Endosome, Blotting, Western, Fluorescent Antibody Technique, Vacuole, Biology, Autophagy-Related Protein 7, Inclusion bodies, Mice, Phosphatidylinositol 3-Kinases, medicine, Autophagy, In Situ Nick-End Labeling, Animals, In Situ Hybridization, Mice, Knockout, Multidisciplinary, Neurodegeneration, Biological Sciences, medicine.disease, Endocytosis, Cell biology, Microscopy, Electron, nervous system, Microtubule-Associated Proteins, Intracellular, Gene Deletion
Abstract

The lipid kinase PIK3C3 (also called Vps34) regulates both the endosomal and autophagic pathways. However, the effect of inactivating PIK3C3 on neuronal endosomal versus autophagic processes in vivo has not been studied. We generated mice in which Pik3c3 was conditionally deleted in differentiated sensory neurons. Within a few days after Pik3c3 deletion, mutant large-diameter myelinated neurons accumulated numerous enlarged vacuoles and ubiquitin-positive aggregates and underwent rapid degeneration. By contrast, Pik3c3 -deficient small-diameter unmyelinated neurons accumulated excessive numbers of lysosome-like organelles and degenerated more slowly. These differential degenerative phenotypes are unlikely caused by a disruption in the autophagy pathway, because inhibiting autophagy alone by conditional deletion of Atg7 results in a completely distinct phenotype in all sensory neurons (i.e., formation of very large intracellular inclusion bodies and slow degeneration over a period of several months). More surprisingly, a noncanonical PIK3C3-independent LC3-positive autophagosome formation pathway was activated in Pik3c3 -deficient small-diameter neurons. Analyses of Pik3c3/Atg7 double mutant neurons revealed that this unconventional initiation pathway still depends on ATG7. Our studies represent in vivo characterization of PIK3C3 functions in mammals and provide insights into the complexity of neuronal endo-lysosomal and autophagic pathways.

Published
2010

25. PGC-1alpha induces dynamic protein interactions on the ERRalpha gene multi-hormone response element nucleosome in kidney cells

Author

Peng Hu, Yin Li, Christina T. Teng, and Liangli Wang

Subjects
Small interfering RNA, Response element, Molecular Sequence Data, Kidney, Biochemistry, Cell Line, Nucleosome, Animals, Homeostasis, Humans, Promoter Regions, Genetic, Molecular Biology, Transcription factor, Heat-Shock Proteins, Regulation of gene expression, biology, Base Sequence, Cell Biology, Molecular biology, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Chromatin, Nucleosomes, Histone, PCAF, Gene Expression Regulation, Receptors, Estrogen, biology.protein, RNA Interference, RNA Polymerase II, Sequence Alignment, Transcription Factors
Abstract

ERR (oestrogen-related receptor)-alpha modulates the oestrogen signalling pathway and regulates genes participating in the physiological energy balance programme. Oestrogen and PGC-1alpha (peroxisome proliferator-activated receptor-gamma coactivator-1alpha), the master regulator of the energy homoeostasis programme, both regulate the expression of ERRalpha through the MHRE (multi-hormone response element) of the ERRalpha gene. Although the molecular mechanism of oestrogen action on ERRalpha regulation is well characterized, the mechanism of PGC-1alpha induction is unclear. In this study, we examine chromatin structural changes and protein interactions at the MHRE nucleosome in response to PGC-1alpha expression in HK2 human kidney cells. We mapped the nucleosome positions of the ERRalpha gene promoter and examined the changes of histone acetylation in response to PGC-1alpha expression. The interactions of DNA-binding proteins, ERRalpha and ERRgamma, co-activators {CBP [CREB (cAMP-response-element-binding protein)-binding protein], p300, PCAF (p300/CBP-associated factor)}, co-repressor [RIP140 (receptor-interacting protein of 140 kDa)] and RNA polymerase II at the MHRE nucleosome region were investigated over time before and after PGC-1alpha expression in the HK2 cells. We found a dynamic cyclic interaction of these proteins shortly after PGC-1alpha expression and a slower cycling interaction, with fewer proteins involved, 20 h later. By using the siRNA (small interfering RNA) knockdown approach, we discovered that ERRgamma was involved in the initial phase, but not in the later phase, of PGC-1alpha-induced ERRalpha expression.

Published
2008

26. Estrogen induces estrogen-related receptor alpha gene expression and chromatin structural changes in estrogen receptor (ER)-positive and ER-negative breast cancer cells

Author

Peng Hu, Trevor K. Archer, H. Karimi Kinyamu, Liangli Wang, Jessica Martin, and Christina T. Teng

Subjects
Estrogen receptor, Breast Neoplasms, Biology, Biochemistry, Models, Biological, Estrogen-related receptor alpha, Estrogen-related receptor, Cell Line, Tumor, Humans, Micrococcal Nuclease, skin and connective tissue diseases, Molecular Biology, Fulvestrant, Estrogen receptor beta, Estradiol, Models, Genetic, Estrogen Antagonists, Estrogens, Cell Biology, Chromatin, Nucleosomes, Gene Expression Regulation, Neoplastic, Nuclear receptor, Receptors, Estrogen, Cancer research, Estrogen receptor alpha, Chromatin immunoprecipitation, Signal Transduction
Abstract

Estrogen-related receptor alpha (ERRalpha), a member of the nuclear receptor superfamily, is closely related to the estrogen receptors (ERalpha and ERbeta). The ERRalpha gene is estrogen-responsive in several mouse tissues and cell lines, and a multiple hormone-response element (MHRE) in the promoter is an important regulatory region for estrogen-induced ERRalpha gene expression. ERRalpha was recently shown to be a negative prognostic factor for breast cancer survival, with its expression being highest in cancer cells lacking functional ERalpha. The contribution of ERRalpha in breast cancer progression remains unknown but may have important clinical implications. In this study, we investigated ERRalpha gene expression and chromatin structural changes under the influence of 17beta-estradiol in both ER-positive MCF-7 and ER-negative SKBR3 breast cancer cells. We mapped the nucleosome positions of the ERRalpha promoter around the MHRE region and found that the MHRE resides within a single nucleosome. Local chromatin structure of the MHRE exhibited increased restriction enzyme hypersensitivity and enhanced histone H3 and H4 acetylation upon estrogen treatment. Interestingly, estrogen-induced chromatin structural changes could be repressed by estrogen antagonist ICI 182 780 in MCF-7 cells yet were enhanced in SKBR3 cells. We demonstrated, using chromatin immunoprecipitation assays, that 17beta-estradiol induces ERRalpha gene expression in MCF-7 cells through active recruitment of co-activators and release of co-repressors when ERRalpha and AP1 bind and ERalpha is tethered to the MHRE. We also found that this estrogen effect requires the MAPK signaling pathway in both cell lines.

Published
2008

28. Blunted HSP70 Response to Acute Exercise in Well-Trained Skeletal Muscle

Author

Juergen M. Steinacker, Yuefei Liu, Katja Nething, Liangli Wang, and W. Lormes

Subjects
medicine.medical_specialty, Endocrinology, medicine.anatomical_structure, business.industry, Internal medicine, medicine, Skeletal muscle, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Hsp70, Muscle hypertrophy
Published
2004

30. Neuron-specific Sumo1-3 knockdown in mice impairs episodic and fear memories.

Author

Liangli Wang, Rodriguiz, Ramona M., Wetsel, William C., Huaxin Sheng, Shengli Zhao, Xiaozhi Liu, Paschen, Wulf, and Wei Yang

Subjects
*ANALYSIS of variance, *ANIMAL experimentation, *BIOLOGICAL models, *FEAR, *FLUORESCENT antibody technique, *MEMORY, *MICE, *NEUROPLASTICITY, *RESEARCH funding, *STATISTICS, *T-test (Statistics), *DATA analysis, *REPEATED measures design, *DATA analysis software, *DESCRIPTIVE statistics
Abstract

Background: Growing evidence suggests that small ubiquitin-like modifier (SUMO) conjugation plays a key role in brain plasticity by modulating activity-dependent synaptic transmission. However, these observations are based largely on cell culture experiments. We hypothesized that episodic and fear memories would be affected by silencing SUM01-3 expression. Methods: To investigate the role of SUMO conjugation in neuronal functioning in vivo, we generated a novel Sumo transgenic mouse model in which a Thy1 promoter drives expression of 3 distinct microRNAs to silence Sumol-3 expression, specifically in neurons. Wild-type and Sumo1-3 knockdown mice were subjected to a battery of behavioural tests to elucidate whether Sumoylation is involved in episodic and emotional memory. Results: Expression of Sumol-3 microRNAs and the corresponding silencing of Sumo expression were particularly pronounced in hippocampal, amygdala and layer V cerebral cortex neurons. The Sumo knockdown mice displayed anxiety-like responses and were impaired in episodic memory processes, contextual and cued fear conditioning and fear-potentiated startle. Limitations: Since expression of Sumol-3 was silenced in this mouse model, we need to verify in future studies which of the SUMO paralogues play the pivotal role in episodic and emotional memory. Conclusion: Our results indicate that a functional SUMO conjugation pathway is essential for emotionality and cognition. This novel Sumo knockdown mouse model and the technology used in generating this mutant may help to reveal novel mechanisms that underlie a variety of neuropsychiatric conditions associated with anxiety and impairment of episodic and emotional memory. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
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32. Deletion of PIK3C3/Vps34 in sensory neurons causes rapid neurodegeneration by disrupting the endosomal but not the autophagic pathway.

Author

Xiang Zhou, Liangli Wang, Hasegawa, Hiroshi, Amin, Priyanka, Bao-Xia Han, Shinjiro Kaneko, Youwen He, and Fan Wang

Subjects
*NEURODEGENERATION, *GENOTYPE-environment interaction, *PHENOTYPES, *SENSORY neurons, *AUTOPHAGY, *ENDOSOMES
Abstract

The lipid kinase PIK3C3 (also called Vps34) regulates both the endosomal and autophagic pathways. However, the effect of inactivating PIK3C3 on neuronal endosomal versus autophagic processes in vivo has not been studied. We generated mice in which Pik3c3 was conditionally deleted in differentiated sensory neurons. Within a few days after Pik3c3 deletion, mutant large-diameter myelinated neurons accumulated numerous enlarged vacuoles and ubiquitin-positive aggregates and underwent rapid degeneration. By contrast, Pik3c3-deficient small-diameter unmyelinated neurons accumulated excessive numbers of lysosome-like organelles and degenerated more slowly. These differential degenerative phenotypes are unlikely caused by a disruption in the autophagy pathway, because inhibiting autophagy alone by conditional deletion of Atg7 results in a completely distinct phenotype in all sensory neurons (i.e., formation of very large intracellular inclusion bodies and slow degeneration over a period of several months). More surprisingly, a noncanonical PIK3C3-independent LC3-positive autophagosome formation pathway was activated in Pik3c3-deficient small-diameter neurons. Analyses of Pik3c3/Atg7 double mutant neurons revealed that this unconventional initiation pathway still depends on ATG7. Our studies represent in vivo characterization of PIK3C3 functions in mammals and provide insights into the complexity of neuronal endo-lysosomal and autophagic pathways. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

33. PGC-1α induces dynamic protein interactions on the ERRα gene multi-hormone response element nucleosome in kidney cells.

Author

Liangli Wang, Yin Li, Peng Hu, and Christina T. Teng

Subjects
*PROTEIN-protein interactions, *ESTROGEN receptors, *GENETIC regulation, *PROMOTERS (Genetics), *DNA-binding proteins, *HISTONES, *ACETYLATION
Abstract

ERR (oestrogen-related receptor)-α modulates the oestrogen signalling pathway and regulates genes participating in the physiological energy balance programme. Oestrogen and PGC-1α (peroxisome proliferator-activated receptor-γ coactivator-1α), the master regulator of the energy homoeostasis programme, both regulate the expression of ERRα through the MHRE (multi-hormone response element) of the ERRα gene. Although the molecular mechanism of oestrogen action on ERRα regulation is well characterized, the mechanism of PGC-1α induction is unclear. In this study, we examine chromatin structural changes and protein interactions at the MHRE nucleosome in response to PGC-1α expression in HK2 human kidney cells. We mapped the nucleosome positions of the ERRα gene promoter and examined the changes of histone acetylation in response to PGC-1α expression. The interactions of DNA-binding proteins, ERRα and ERRγ, co-activators {CBP [CREB (cAMP-response-element-binding protein)-binding protein], p300, PCAF (p300/CBP-associated factor)}, co-repressor [RIP140 (receptor-interacting protein of 140 kDa)] and RNA polymerase II at the MHRE nucleosome region were investigated over time before and after PGC-1α expression in the HK2 cells. We found a dynamic cyclic interaction of these proteins shortly after PGC-1α expression and a slower cycling interaction, with fewer proteins involved, 20 h later. By using the siRNA (small interfering RNA) knockdown approach, we discovered that ERRγ was involved in the initial phase, but not in the later phase, of PGC-1α-induced ERRα expression. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

34. Estrogen Induces Estrogen-related Receptor Gene Expression and Chromatin Structural Changes in Estrogen Receptor (ER)-positive and ER-negative Breast Cancer Cells.

Author

Peng Hu, Kinyamu, H. Karimi, Liangli Wang, Martin, Jessica, Archer, Trevor K., and Teng, Christina

Subjects
*ESTROGEN, *GENE expression, *GENETIC regulation, *CHROMATIN, *CELL lines, *CELL culture, *BIOCHEMICAL research
Abstract

Estrogen-related receptor (ERRα), a member of the nuclear receptor superfamily, is closely related to the estrogen receptors (ERα and ERβ). The ERRα gene is estrogen-responsive in several mouse tissues and cell lines, and a multiple hormone-response element (MHRE) in the promoter is an important regulatory region for estrogen-induced ERRα gene expression. ERRα was recently shown to be a negative prognostic factor for breast cancer survival, with its expression being highest in cancer cells lacking functional ERα. The contribution of ERRα in breast cancer progression remains unknown but may have important clinical implications. In this study, we investigated ERRα gene expression and chromatin structural changes under the influence of 17β-estradiol in both ER-positive MCF-7 and ER-negative SKBR3 breast cancer cells. We mapped the nucleosome positions of the ERRα promoter around the MHRE region and found that the MHRE resides within a single nucleosome. Local chromatin structure of the MHRE exhibited increased restriction enzyme hypersensitivity and enhanced histone H3 and H4 acetylation upon estrogen treatment. Interestingly, estrogen-induced chromatin structural changes could be repressed by estrogen antagonist ICI 182 780 in MCF-7 cells yet were enhanced in SKBR3 cells. We demonstrated, using chromatin immunoprecipitation assays, that 17β-estradiol induces ERRα gene expression in MCF-7 cells through active recruitment of co-activators and release of co-repressors when ERR and AP1 bind and ERα is tethered to the MHRE. We also found that this estrogen effect requires the MAPK signaling pathway in both cell lines. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

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