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118. Characterization of PTPRG in Knockdown and Phosphatase-Inactive Mutant Mice and Substrate Trapping Analysis of PTPRG in Mammalian Cells.

Author

Zhang, Wandong, Savelieva, Katerina V., Tran, David T., Pogorelov, Vladimir M., Cullinan, Emily B., Baker, Kevin B., Platt, Kenneth A., Hu, Sean, Rajan, Indrani, Xu, Nianhua, Lanthorn, Thomas H., and Zhou, Renping

Subjects
PROTEIN-tyrosine phosphatase, NERVOUS system, LABORATORY mice, GENE expression, PHENOTYPES, MENTAL depression, DEPHOSPHORYLATION
Abstract

Receptor tyrosine phosphatase gamma (PTPRG, or RPTPγ) is a mammalian receptor-like tyrosine phosphatase which is highly expressed in the nervous system as well as other tissues. Its function and biochemical characteristics remain largely unknown. We created a knockdown (KD) line of this gene in mouse by retroviral insertion that led to 98-99% reduction of RPTPc gene expression. The knockdown mice displayed antidepressive-like behaviors in the tail-suspension test, confirming observations by Lamprianou et al. 2006. We investigated this phenotype in detail using multiple behavioral assays. To see if the antidepressive-like phenotype was due to the loss of phosphatase activity, we made a knock-in (KI) mouse in which a mutant, RPTPγ C1060S, replaced the wild type. We showed that human wild type RPTPγ protein, expressed and purified, demonstrated tyrosine phosphatase activity, and that the RPTPγ C1060S mutant was completely inactive. Phenotypic analysis showed that the KI mice also displayed some antidepressive-like phenotype. These results lead to a hypothesis that an RPTPγ inhibitor could be a potential treatment for human depressive disorders. In an effort to identify a natural substrate of RPTPγ for use in an assay for identifying inhibitors, "substrate trapping" mutants (C1060S, or D1028A) were studied in binding assays. Expressed in HEK293 cells, these mutant RPTPγs retained a phosphorylated tyrosine residue, whereas similarly expressed wild type RPTPγ did not. This suggested that wild type RPTPγ might auto-dephosphorylate which was confirmed by an in vitro dephosphorylation experiment. Using truncation and mutagenesis studies, we mapped the autodephosphorylation to the Y1307 residue in the D2 domain. This novel discovery provides a potential natural substrate peptide for drug screening assays, and also reveals a potential functional regulatory site for RPTPγ. Additional investigation of RPTPγ activity and regulation may lead to a better understanding of the biochemical underpinnings of human depression. [ABSTRACT FROM AUTHOR]

Published
2012
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119. WSC-1 and HAM-7 Are MAK-1 MAP Kinase Pathway Sensors Required for Cell Wall Integrity and Hyphal Fusion in Neurospora crassa.

Author

Maddi, Abhiram, Dettman, Anne, Ci Fu, Seiler, Stephan, Free, Stephen J., and Zhou, Renping

Subjects
CELLS, PROTEINS, NEUROSPORA crassa, GENES, DELETION mutation, DETECTORS
Abstract

A large number of cell wall proteins are encoded in the Neurospora crassa genome. Strains carrying gene deletions of 65 predicted cell wall proteins were characterized. Deletion mutations in two of these genes (wsc-1 and ham-7) have easily identified morphological and inhibitor-based defects. Their phenotypic characterization indicates that HAM-7 and WSC-1 function during cell-to-cell hyphal fusion and in cell wall integrity maintenance, respectively. wsc-1 encodes a transmembrane protein with extensive homology to the yeast Wsc family of sensor proteins. In N. crassa, WSC-1 (and its homolog WSC-2) activates the cell wall integrity MAK-1 MAP kinase pathway. The GPI-anchored cell wall protein HAM-7 is required for cell-to-cell fusion and the sexual stages of the N. crassa life cycle. Like WSC-1, HAM-7 is required for activating MAK-1. A Δwsc- 1;Δham-7 double mutant fully phenocopies mutants lacking components of the MAK-1 MAP kinase cascade. The data identify WSC-1 and HAM-7 as the major cell wall sensors that regulate two distinct MAK-1-dependent cellular activities, cell wall integrity and hyphal anastomosis, respectively. [ABSTRACT FROM AUTHOR]

Published
2012
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120. Abnormal Hippocampal Axon Bundling in EphB Receptor Mutant Mice.

Author

Zhi-Yong Chen, Chunhua Sun, Ned, Reuhl, Kenneth, Bergemann, Andrew, Henkemeyer, Mark, and Zhou, Renping

Subjects
AXONS, NEURONS, SYNAPSES, ERYTHROPOIETIN, HEMATOPOIETIC growth factors, CELL receptors, AXONAL transport
Abstract

Axons travel frequently in bundles to reach their target. After arriving at the target, axon terminals defasciculate, migrate to topographically defined positions, and form synapses with appropriate target neurons. Here we present evidence that the B-type receptors of the erythropoietin-producing hepatocellular (Eph) family and a ligand, ephrin-B3, influence hippocampal axon defasciculation. The EphB receptors are expressed in the hippocampus, and the ligand, ephrin-B3, is transcribed in the lateral septum, the major subcortical target ofhippocampal neurons. Ephrin-B3 promotes adhesion of hippocampal neurons to the ligand-expressing substrates in vitro, and the loss of the receptor EphB2 abrogates the effects of ephrin-B3. In mice deficient in EphB2 and EphB3, many hippocampal axons remain in bundles. This phenotype was also observed in mice that were specifically deleted for the cytoplasmic domain of EphB2. These observations indicate that the EphB receptors and their ligand regulate hippocampal axon defasciculation at the septal target, possibly through a receptor-mediated forward signaling mechanism. [ABSTRACT FROM AUTHOR]

Published
2004
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121. Corpus Callosum Deficiency in Transgenic Mice Expressing a Truncated Ephrin-A Receptor.

Author

Zhaoliang Hu, Eric S., Xin Yue, Guanfang Shi, Eric S., Yong Yue, Crockett, David P., Blair-Flynn, Jan, Reuhl, Kenneth, Tessarollo, Lino, and Zhou, Renping

Subjects
LIVER cancer, TYROSINE, LIGANDS (Biochemistry), TRANSGENIC mice, NEURONS
Abstract

The A-class of the erythropoietin-producing hepatocellular carcinoma cell-derived (EphA) tyrosine kinase receptors and their ligands, the A-ephrins, play critical roles in the specification of topographic axon projection maps during development. In this study, the role of the EphA subfamily in callosal projections was investigated using transgenic mice expressing a kinase deletion mutant of EphA5. In approximately half of these transgenic mice, cerebral cortical neurons in various cortical regions (primary and secondary somatosensory cortices and frontal as well as visual areas) failed to project to the contralateral cortex. When commissural axons were examined with DiI labeling, few callosal fibers were found to traverse the midline in both the adult and neonatal transgenic mice. This defect in callosal development correlates with the expression of the transgene, because neurons in the superficial layers of the motor cortex, where transgene expression is low, show normal contralateral projection through the corpus callosum. In addition, multiple EphA receptors are expressed in callosal neurons and ephrin-A5 stimulates neurite outgrowth of callosal neurons in vitro. The midline glia structures important for callosal axon midline crossing appear normal in the transgenic mice, suggesting that the defects are unrelated to defective guidance structures at the midline. These observations suggest critical functions for EphA receptor in establishing callosal connections during brain development. [ABSTRACT FROM AUTHOR]

Published
2003
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122. Regulation of topographic projection by the Eph family receptor Bsk (EphA5) and its ligands.

Author

Zhou, Renping

Abstract

Topographic projection is a general feature of brain architecture and is critical for appropriate information processing and coding. Nevertheless, little is known about the mechanisms that govern topographic organization. The Eph family receptor tyrosine kinases and ligands have recently been implicated in the specification of topographic maps. We have shown that Bsk, an Eph family receptor, and its ligands are expressed in a complementary fashion in neurons and targets, respectively, in several neural systems. For example, in the hippocampus, Bsk is expressed in an increasing lateral to medial gradient. In contrast, at least three different ligands, viz., Elf-1, LERK3/Ehk1-L, and AL-1/RAGS/LERK7, are transcribed in complementary (opposing) gradients in the hippocampal subcortical target, the lateral septum. However, the spatial and temporal distribution of the ligands are different, such that combinatorially they specify the full target region during development. Consistent with a key role in hippocamposeptal topographic projection, the ligands selectively inhibit the growth of the topographically inappropriate medial hippocampal neurites but sustain the growth of the appropriate lateral neurites. Our studies indicate that the interaction of Bsk and its ligands restricts the receptor-positive medial neurons to the topographically appropriate, ligand-poor dorsal septal target. In addition to the hippocamposeptal system, Bsk and its ligands are also expressed in afferents and targets of several other systems, including the olfactory and the retinotectal systems. Consequently, Bsk and its ligands may play important roles in neuron-target interactions in multiple neural circuits. [ABSTRACT FROM AUTHOR]

Published
1997
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124. Breakdown of interlocking domains may contribute to formation of membranous globules and lens opacity in ephrin-A5−/− mice.

Author

Biswas, Sondip, Son, Alexander, Yu, Qili, Zhou, Renping, and Lo, Woo-Kuen

Subjects
*OPHTHALMIC lenses, *EPHRIN receptors, *CADHERINS, *PROTEIN-tyrosine kinases, ANIMAL models of cataracts
Abstract

Ephrin-A5, a ligand of the Eph family of receptor tyrosine kinases, plays a key role in lens fiber cell packing and cell–cell adhesion, with approximately 87% of ephrin-A5 −/− mice develop nuclear cataracts. Here, we investigated the extensive formation of light-scattering globules associated with breakdown of interlocking protrusions during lens opacification in ephrin-A5 −/− mice. Lenses from wild-type (WT) and ephrin-A5 −/− mice between 2 and 21 weeks old were studied with light and electron microscopy, immunofluorescence labeling, freeze-fracture TEM and filipin cytochemistry for membrane cholesterol detection. Lens opacities with various densities were first observed in ephrin-A5 −/− mice at around 60 days old. Dense cataracts in the mutant lenses were seen primarily in the nuclear region surrounded by transparent cortices from all eyes examined. We confirmed that a majority of nuclear cataracts were dislocated posteriorly and ruptured the thinner posterior lens capsule. SEM analysis indicated that numerous interlocking protrusions and wavy ridge-and-valley membrane surfaces in deep cortical and nuclear fibers did not cause lens opacity in both transparent ephrin-A5 −/− and WT mice. In contrast, abundant isolated membranous globules of approximately 1000 nm in size were distributed randomly along the intact fiber cells during early stage of all ephrin-A5 −/− cataracts examined. A further examination using both SEM and TEM revealed that isolated globules were generated from the disintegrated interlocking protrusions originally located along the corners of hexagonal fiber cells. Freeze-fracture TEM further revealed the association of square-array aquaporin junctions with both isolated globules and interlocking membrane domains. This study reports for the first time that disrupted interlocking protrusions are the source of numerous large membranous globules that contribute to light scattering and nuclear cataracts in the ephrin-A5 −/− mice. Our results further suggest that dissociations of N-cadherin and adherens junctions in the associated interlocking domains may result in the formation of isolated globules and nuclear opacities in the ephrin-A5 −/− mice. [ABSTRACT FROM AUTHOR]

Published
2016
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125. Ephrin-A5 deficiency alters sensorimotor and monoaminergic development

Author

Sheleg, Michal, Yochum, Carrie L., Wagner, George C., Zhou, Renping, and Richardson, Jason R.

Subjects
*EPHRINS, *SENSORIMOTOR cortex, *DEVELOPMENTAL neurobiology, *BRAIN physiology, *DEVELOPMENTAL disabilities, *NEURAL pathways, *BRAIN function localization
Abstract

Abstract: The Eph receptors and their ligands, the ephrins, play an important role during neural development. In particular, ephrin-A5 is highly expressed in the developing nervous system in several brain regions including the olfactory bulb, frontal cortex, striatum and hypothalamus. Although a number of studies have characterized the expression of ephrin-A5 in these regions, very little is known about the functional consequences that might follow alterations in the expression of this ligand. Previously, we demonstrated that ephrin-A5 acts as a guidance molecule regulating the trajectory of the ascending midbrain dopaminergic pathways. In light of this finding and the critical role of dopamine in modulating a number of behaviors, we sought to determine whether loss of ephrin-A5 altered neurobehavioral development. Our results indicate that ephrin-A5-null mice exhibit delays in reaching developmental milestones and in the maturation of motor skills. In addition, they exhibit increased locomotor activity and reduced levels of brain monoamines. Therefore, we conclude that ephrin-A5 expression appears to be critical for proper development of central monoaminergic pathways and that its loss results in a number of neurodevelopmental abnormalities. Because alterations in monoamine function are associated with a variety of neurodevelopmental disorders, these data suggest that further study on the potential role of ephrin-A5 in such disorders is warranted. [Copyright &y& Elsevier]

Published
2013
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126. Loss of ephrin-A5 function disrupts lens fiber cell packing and leads to cataract.

Author

Cooper, Margaret A., Son, Alexander I., Komlos, Daniel, Sun, Yuhai, Kleiman, Norman J., and Zhou, Renping

Subjects
*CELL communication, *CELLULAR control mechanisms, *CELL morphology, *LIGANDS (Biochemistry), *LENS mounts
Abstract

Cell-cell interactions organize lens fiber cells into highly ordered structures to maintain transparency. However, signals regulating such interactions have not been well characterized. We report here that ephrin-A5, a ligand of the Eph receptor tyrosine kinases, plays a key role in lens fiber cell shape and cell-cell interactions. Lens fiber cells in mice lacking ephrin-A5 function appear rounded and irregular in cross-section, in contrast to their normal hexagonal appearance in WI lenses. Cataracts eventually develop in 87% of ephrin-A5 KO mice. We further demonstrate that ephrin-A5 interacts with the EphA2 receptor to regulate the adherens junction complex by enhancing recruitment of β-catenin to N-cadherin. These results indicate that the Eph receptors and their ligands are critical regulators of lens development and maintenance. [ABSTRACT FROM AUTHOR]

Published
2008
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127. Regulation of thalamic neurite outgrowth by the Eph ligand ephrin-A5: Implications in the...

Author

Gao, Pan-Pan, Yue, Yong, Jian-Hua Zhang, Cerretti, Douglas Pat, Levitt, Pat, and Zhou, Renping

Subjects
*RECEPTOR-ligand complexes
Abstract

Provides information on a study examining the role of Eph family receptors and ligands in the guidance of thalamocortical afferents to their correct target gene. Methodology and materials used to conduct the study; Indepth look at the expression of the Eph family receptor EphA5 in the thalamus; Results of the study.

Published
1998
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128. Zebrafish GDNF and its co-receptor GFRα1 activate the human RET receptor and promote the survival of dopaminergic neurons in vitro

Author

Saarenpää, T, Kogan, K, Sidorova, Y, Mahato, AK, Tascón, I, Kaljunen, H, Yu, L, Kallijärvi, J, Jurvansuu, J, Saarma, M, Goldman, A, and Zhou, Renping

Subjects
Cell signaling, endocrine system diseases, Dopamine, animal diseases, lcsh:Medicine, Signal transduction, Biochemistry, ddc:590, Animal Cells, Phosphorylation, Post-Translational Modification, lcsh:Science, Zebrafish, Neurons, Luciferase Assay, Fishes, Signaling cascades, Neurochemistry, Animal Models, Separation Processes, Bioassays and Physiological Analysis, Experimental Organism Systems, Osteichthyes, Vertebrates, Frogs, Cellular Types, Neurochemicals, Research Article, endocrine system, Glial Cell Line-Derived Neurotrophic Factor Receptors, MAPK signaling cascades, Cell Survival, Research and Analysis Methods, Amphibians, Model Organisms, Animals, Humans, Amino Acid Sequence, Glial Cell Line-Derived Neurotrophic Factor, Enzyme Assays, Sequence Homology, Amino Acid, urogenital system, Proto-Oncogene Proteins c-ret, lcsh:R, Organisms, Biology and Life Sciences, Proteins, Cell Biology, Elution, nervous system, Cellular Neuroscience, lcsh:Q, Biochemical Analysis, Dopaminergics, Neuroscience
Abstract

Glial cell line-derived neurotrophic factor (GDNF) is a ligand that activates, through co-receptor GDNF family receptor alpha-1 (GFRα1) and receptor tyrosine kinase “RET”, several signaling pathways crucial in the development and sustainment of multiple neuronal populations. We decided to study whether non-mammalian orthologs of these three proteins have conserved their function: can they activate the human counterparts? Using the baculovirus expression system, we expressed and purified Danio rerio RET, and its binding partners GFRα1 and GDNF, and Drosophila melanogaster RET and two isoforms of co-receptor GDNF receptor-like. Our results report high-level insect cell expression of post-translationally modified and dimerized zebrafish RET and its binding partners. We also found that zebrafish GFRα1 and GDNF are comparably active as mammalian cell-produced ones. We also report the first measurements of the affinity of the complex to RET in solution: at least for zebrafish, the Kd for GFRα1-GDNF binding RET is 5.9 μM. Surprisingly, we also found that zebrafish GDNF as well as zebrafish GFRα1 robustly activated human RET signaling and promoted the survival of cultured mouse dopaminergic neurons with comparable efficiency to mammalian GDNF, unlike E. coli-produced human proteins. These results contradict previous studies suggesting that mammalian GFRα1 and GDNF cannot bind and activate non-mammalian RET and vice versa.

Published
2017

129. (3E,5E)-3,5-Bis(pyridin-3-methylene)-tetrahydrothiopyran-4-one enhances the inhibitory effect of gemcitabine on pancreatic cancer cells.

Author

Wu, Panpan, Wang, Xiao, Ma, Yuran, Xu, Xuetao, Liu, Wenfeng, Sheng, Zhaojun, Chen, Min, Zhou, Renping, Zhang, Kun, Goodin, Susan, Zheng, Xi, and Li, Dongli

Subjects
*PANCREATIC cancer, *CANCER cells, *APOPTOSIS, *DRUG resistance in cancer cells, *CANCER chemotherapy
Abstract

• FN2 in combination with gemcitabine (GEM) to inhibit pancreatic cancer cells. • FN2 enhances GEM strongly to stimulate GEM resistant Panc-1 cells apoptosis. • The mechanism was associated with decreases in activation of NF-κB and Akt. • FN2 combined GEM can decrease the level of Bcl-2 and increase the level of Bax. Gemcitabine (GEM) is a commonly used treatment for advanced pancreatic cancer. However, chemoresistance and toxic side effect limits its clinical success. In an earlier study, our laboratory found that the curcumin analogue, (3 E ,5 E)-3,5-Bis(pyridin-3-methylene)-tetrahydrothiopyran-4-one (FN2) had strong inhibitory effect on human pancreatic cancer cells. In the present study, we investigated the effects of FN2 in combination with GEM on growth inhibition and apoptosis in human pancreatic cancer Panc-1 cells. The results showed that the combination of FN2 and GEM synergistically inhibited the growth of Panc-1 cells. Panc-1 cells survived the GEM treatment became partially resistant to the drug. Treatment with FN2 in combination with GEM strongly inhibited the growth and stimulated apoptosis in the GEM resistant Panc-1 cells. Mechanistic studies showed that inhibition of cell growth and induction of apoptosis in the GEM resistant Panc-1 cells were associated with decreases in activation of NF-κB and Akt. FN2 in combination with GEM also decreased the level of Bcl-2 and increased the level of Bax. Results of the present study indicate that GEM in combination with FN2 may represent an effective strategy for improving the efficacy of GEM and decreasing the resistance of pancreatic cancer to GEM chemotherapy. [ABSTRACT FROM AUTHOR]

Published
2020
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130. Detecting and Quantifying Topography in Neural Maps

Author

Khaleel A. Razak, Stuart Yarrow, Aaron R. Seitz, Peggy Seriès, and Zhou, Renping

Subjects
General Science & Technology, Models, Neurological, lcsh:Medicine, Bioengineering, Neuroimaging, Bioinformatics, 03 medical and health sciences, 0302 clinical medicine, Path length, Models, Humans, Pattern Formation, Statistical Methods, lcsh:Science, Biology, 030304 developmental biology, Computational Neuroscience, Physics, 0303 health sciences, Brain Mapping, Multidisciplinary, business.industry, Statistics, lcsh:R, Computational Biology, Sampling (statistics), Pattern recognition, Topographic map, Sensory Systems, Distance correlation, Azimuth, Neuroanatomy, Cortical map, Feature (computer vision), Neurological, lcsh:Q, Artificial intelligence, Scale (map), business, Mathematics, 030217 neurology & neurosurgery, Research Article, Developmental Biology, Neuroscience
Abstract

Topographic maps are an often-encountered feature in the brains of many species, yet there are no standard, objective procedures for quantifying topography. Topographic maps are typically identified and described subjectively, but in cases where the scale of the map is close to the resolution limit of the measurement technique, identifying the presence of a topographic map can be a challenging subjective task. In such cases, an objective topography detection test would be advantageous. To address these issues, we assessed seven measures (Pearson distance correlation, Spearman distance correlation, Zrehen's measure, topographic product, topological correlation, path length and wiring length) by quantifying topography in three classes of cortical map model: linear, orientation-like, and clusters. We found that all but one of these measures were effective at detecting statistically significant topography even in weakly-ordered maps, based on simulated noisy measurements of neuronal selectivity and sparse sampling of the maps. We demonstrate the practical applicability of these measures by using them to examine the arrangement of spatial cue selectivity in pallid bat A1. This analysis shows that significantly topographic arrangements of interaural intensity difference and azimuth selectivity exist at the scale of individual binaural clusters.

Published
2014

131. Frontal Lobe Contusion in Mice Chronically Impairs Prefrontal-Dependent Behavior

Author

Susanna Rosi, Josh M. Morganti, Austin Chou, and Zhou, Renping

Subjects
Male, 0301 basic medicine, Critical Care and Emergency Medicine, lcsh:Medicine, Hippocampus, Inbred C57BL, Mice, 0302 clinical medicine, Injury - Trauma - (Head and Spine), Medicine and Health Sciences, Medicine, Brain Damage, Aetiology, lcsh:Science, Prefrontal cortex, Trauma Medicine, Cerebral Cortex, Mammals, Cognitive Impairment, Multidisciplinary, Animal Behavior, Behavior, Animal, Cognitive Neurology, Cognitive flexibility, Brain, Executive functions, Frontal Lobe, Mental Health, Neurology, Frontal lobe, Vertebrates, Physical Sciences, Anxiety, social and economic factors, Anatomy, medicine.symptom, Research Article, General Science & Technology, Traumatic brain injury, Cognitive Neuroscience, Materials Science, Material Properties, Prefrontal Cortex, Brain damage, Basic Behavioral and Social Science, Rodents, 03 medical and health sciences, 2.3 Psychological, Memory, Behavioral and Social Science, Animals, Texture, Social Behavior, Behavior, Animal, business.industry, lcsh:R, Neurosciences, Organisms, Biology and Life Sciences, medicine.disease, Brain Disorders, Mice, Inbred C57BL, 030104 developmental biology, Brain Injuries, Injury (total) Accidents/Adverse Effects, Cognitive Science, lcsh:Q, Injury - Traumatic brain injury, business, Mind and Body, Zoology, Neuroscience, 030217 neurology & neurosurgery
Abstract

Traumatic brain injury (TBI) is a major cause of chronic disability in the world. Moderate to severe TBI often results in damage to the frontal lobe region and leads to cognitive, emotional, and social behavioral sequelae that negatively affect quality of life. More specifically, TBI patients often develop persistent deficits in social behavior, anxiety, and executive functions such as attention, mental flexibility, and task switching. These deficits are intrinsically associated with prefrontal cortex (PFC) functionality. Currently, there is a lack of analogous, behaviorally characterized TBI models for investigating frontal lobe injuries despite the prevalence of focal contusions to the frontal lobe in TBI patients. We used the controlled cortical impact (CCI) model in mice to generate a frontal lobe contusion and studied behavioral changes associated with PFC function. We found that unilateral frontal lobe contusion in mice produced long-term impairments to social recognition and reversal learning while having only a minor effect on anxiety and completely sparing rule shifting and hippocampal-dependent behavior.

Published
2016
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132. Phenotype selection reveals coevolution of muscle glycogen and protein and PTEN as a gate keeper for the accretion of muscle mass in adult female mice

Author

Anja Zeissler, Maximilian Bielohuby, Peggy Stock, Ulla Renne, Andreas Hoeflich, Mandy Sawitzky, Barbara J. M. Stoehr, Friedrich Metzger, Martina Langhammer, Bernhard G. Baumgartner, Harald M. Hammon, Martin Bidlingmaier, Bertram Brenig, Gerhard Binder, Cornelia C. Metges, Bruno Christ, Solvig Görs, Carolin Fromm-Dornieden, and Zhou, Renping

Subjects
Anatomy and Physiology, Mouse, lcsh:Medicine, Myostatin, Biochemistry, Substrate Specificity, chemistry.chemical_compound, Mice, 0302 clinical medicine, GSK-3, Molecular Cell Biology, Tensin, Insulin-Like Growth Factor I, lcsh:Science, Musculoskeletal System, Protein Metabolism, 0303 health sciences, Multidisciplinary, biology, Glycogen, Muscles, Muscle Biochemistry, Organ Size, Animal Models, Immunohistochemistry, Signaling Cascades, Cell biology, Phenotype, 030220 oncology & carcinogenesis, Ribosomal protein s6, Phosphorylation, Muscle, Medicine, Female, Signal Transduction, Research Article, Models, Biological, Evolution, Molecular, 03 medical and health sciences, Model Organisms, Insulin-Like Growth Factor II, Akt Signaling Cascade, PTEN, Animals, Protein kinase B, Biology, 030304 developmental biology, Tissue Extracts, lcsh:R, Body Weight, Mouse models, Muscle proteins, Cell membranes, Glycogens, Muscle protein synthesis, Cell signaling, Muscle biochemistry, PTEN Phosphohydrolase, Molecular biology, muscle mass, female mice, Enzyme Activation, Metabolism, chemistry, Protein Biosynthesis, Proteolysis, biology.protein, lcsh:Q, Proto-Oncogene Proteins c-akt
Abstract

We have investigated molecular mechanisms for muscle mass accretion in a non-inbred mouse model (DU6P mice) characterized by extreme muscle mass. This extreme muscle mass was developed during 138 generations of phenotype selection for high protein content. Due to the repeated trait selection a complex setting of different mechanisms was expected to be enriched during the selection experiment. In muscle from 29-week female DU6P mice we have identified robust increases of protein kinase B activation (AKT, Ser-473, up to 2-fold) if compared to 11- and 54-week DU6P mice or controls. While a number of accepted effectors of AKT activation, including IGF-I, IGF-II, insulin/IGF-receptor, myostatin or integrin-linked kinase (ILK), were not correlated with this increase, phosphatase and tensin homologue deleted on chromosome 10 (PTEN) was down-regulated in 29-week female DU6P mice. In addition, higher levels of PTEN phosphorylation were found identifying a second mechanism of PTEN inhibition. Inhibition of PTEN and activation of AKT correlated with specific activation of p70S6 kinase and ribosomal protein S6, reduced phosphorylation of eukaryotic initiation factor 2a (eIF2a) and higher rates of protein synthesis in 29-week female DU6P mice. On the other hand, AKT activation also translated into specific inactivation of glycogen synthase kinase 3ß (GSK3ß) and an increase of muscular glycogen. In muscles from 29-week female DU6P mice a significant increase of protein/DNA was identified, which was not due to a reduction of protein breakdown or to specific increases of translation initiation. Instead our data support the conclusion that a higher rate of protein translation is contributing to the higher muscle mass in mid-aged female DU6P mice. Our results further reveal coevolution of high protein and high glycogen content during the selection experiment and identify PTEN as gate keeper for muscle mass in mid-aged female DU6P mice. peerReviewed

Published
2012

133. WSC-1 and HAM-7 Are MAK-1 MAP Kinase Pathway Sensors Required for Cell Wall Integrity and Hyphal Fusion in Neurospora crassa

Author

Anne Dettman, Abhiram Maddi, Ci Fu, Stephan Seiler, Stephen J. Free, and Zhou, Renping

Subjects
Genetic Screens, Histidine Kinase, DNA Mutational Analysis, Mutant, lcsh:Medicine, Yeast and Fungal Models, cell wall proteins, Neurospora crassa genome, Signal transduction, Membrane Fusion, Molecular cell biology, Signal Initiation, Cell Wall, Signaling in Cellular Processes, lcsh:Science, Cellular Stress Responses, 0303 health sciences, Fungal protein, Multidisciplinary, Mechanisms of Signal Transduction, Signaling cascades, Cellular Structures, Transmembrane protein, Cell biology, Phenotype, Research Article, MAPK signaling cascades, MAP Kinase Signaling System, Hyphae, Mycology, Biology, Microbiology, Signaling Pathways, Cell Growth, Neurospora crassa, Fungal Proteins, Molecular Genetics, Cell wall, 03 medical and health sciences, Model Organisms, Reproduction, Asexual, Genetics, Gene Networks, Gene, 030304 developmental biology, 030306 microbiology, lcsh:R, Genetic Complementation Test, Histidine kinase, Crassa, biology.organism_classification, Enzyme Activation, lcsh:Q, Mutant Proteins, Gene Function, Protein Kinases, Gene Deletion
Abstract

A large number of cell wall proteins are encoded in the Neurospora crassa genome. Strains carrying gene deletions of 65 predicted cell wall proteins were characterized. Deletion mutations in two of these genes (wsc-1 and ham-7) have easily identified morphological and inhibitor-based defects. Their phenotypic characterization indicates that HAM-7 and WSC-1 function during cell-to-cell hyphal fusion and in cell wall integrity maintenance, respectively. wsc-1 encodes a transmembrane protein with extensive homology to the yeast Wsc family of sensor proteins. In N. crassa, WSC-1 (and its homolog WSC-2) activates the cell wall integrity MAK-1 MAP kinase pathway. The GPI-anchored cell wall protein HAM-7 is required for cell-to-cell fusion and the sexual stages of the N. crassa life cycle. Like WSC-1, HAM-7 is required for activating MAK-1. A Dwsc-1;Dham-7 double mutant fully phenocopies mutants lacking components of the MAK-1 MAP kinase cascade. The data identify WSC-1 and HAM-7 as the major cell wall sensors that regulate two distinct MAK-1-dependent cellular activities, cell wall integrity and hyphal anastomosis, respectively. peerReviewed

Published
2012
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134. Inhibitors of Keap1-Nrf2 protein-protein interaction reduce estrogen responsive gene expression and oxidative stress in estrogen receptor-positive breast cancer.

Author

Xie T, Zahid H, Ali AR, Joyce R, Yang G, Winz C, Le Y, Zhou R, Furmanski P, Hu L, and Suh N

Subjects
Humans, Female, Antioxidants pharmacology, Receptors, Estrogen metabolism, Kelch-Like ECH-Associated Protein 1 metabolism, NF-E2-Related Factor 2 metabolism, Oxidative Stress, Estrogens pharmacology, RNA, Messenger metabolism, Gene Expression, Breast Neoplasms metabolism
Abstract

Estrogen contributes to the development of breast cancer through estrogen receptor (ER) signaling and by generating genotoxic metabolites that cause oxidative DNA damage. To protect against oxidative stress, cells activate nuclear factor erythroid 2-related factor 2 (Nrf2) and its downstream cytoprotective genes that initiate antioxidant responses and detoxify xenobiotics. Nrf2 activation occurs by inhibiting the protein-protein interaction (PPI) between Nrf2 and its inhibitor Keap1, which otherwise targets Nrf2 for ubiquitination and destruction. In this study, we examined a series of novel direct inhibitors of Keap1-Nrf2 PPI in their role in promoting the availability of Nrf2 for antioxidant activity and attenuating estrogen-mediated responses in breast cancer. ER-positive human breast cancer cells MCF-7 were treated with 17β-estradiol (E2) in the presence or absence of selected Keap1-Nrf2 PPI inhibitors. Keap1-Nrf2 PPI inhibitors suppressed the mRNA and protein levels of estrogen responsive genes induced by E2 exposure, such as PGR. Keap1-Nrf2 PPI inhibitors caused significant activation of Nrf2 target genes. E2 decreased the mRNA and protein level of the Nrf2 target gene NQO1, and the Keap1-Nrf2 PPI inhibitors reversed this effect. The reversal of E2 action by these compounds was not due to binding to ER as ER antagonists. Further, a selected compound attenuated oxidative stress induced by E2, determined by the level of a biomarker 8-oxo-deoxyguanosine. These findings suggest that the Keap1-Nrf2 PPI inhibitors have potent antioxidant activity by activating Nrf2 pathways and inhibit E2-induced gene and protein expression. These compounds may serve as potential chemopreventive agents in estrogen-stimulated breast cancer., Competing Interests: Declaration of Competing Interest Some of the authors are inventors of a provisional patent application. Rutgers University is in the process of filing with the US Patent and Trademark Office on small molecule direct inhibitors of Keap1-Nrf2 interaction., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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135. Inducible motor neuron differentiation of human induced pluripotent stem cells in vivo.

Author

Chen M, Wang X, Li C, Lan T, Wei Y, Tang C, Zhou X, Zhou R, Rosa A, Zheng X, Ang S, Zhang K, Zou Q, and Lai L

Subjects
Humans, Mice, Animals, Motor Neurons metabolism, Cell Differentiation, Transcription Factors genetics, Transcription Factors metabolism, Induced Pluripotent Stem Cells, Teratoma metabolism
Abstract

Objectives: Transplantation of neural progenitor cells (NPCs) derived from human-induced pluripotent stem cells (hiPSCs) is one of the promising treatment strategies for motor neuron diseases (MNDs). However, the inefficiency in committed differentiation of NPCs in vivo limits its application. Here, we tried to establish a potential therapeutic strategy for MNDs by in vivo directional differentiation of hiPSCs engineered with motor neuron (MN) specific transcription factors and Tet-On system., Materials and Methods: We engineered hiPSCs with three MN-specific transcription factors and Tet-On system. The engineered cells were directly transplanted into immunodeficient mice through subcutaneous, intra-spinal cord and intracerebroventricular injections. Following doxycycline (Dox) induction, teratoma formation, and motor MN differentiation were evaluated., Results: We generated genetically engineered hiPSCs, in which the expression of Ngn2, Isl1, and Lhx3 was controlled by a drug-inducible transgenic system. These cells showed normal pluripotency and proliferative capacity, and were able to directionally differentiate into mature motor neurons (MNs) and NPCs with high efficiency in spinal cords and cerebral lateral ventricles under the induction of Dox. The grafts showed long-term survival in the recipient mice without formation of teratoma., Conclusions: The induced mature MNs and NPCs were expected to replace the damaged endogenous MNs directly, and play a role of de novo stem cell stock for long-term neuron damage repair, respectively. Therefore, in vivo directional differentiation of the hiPSCs engineered with MN-specific transcription factors and Tet-On system via Dox induction could be a potential therapeutic strategy for MNDs with high efficacy and safety., (© 2022 The Authors. Cell Proliferation published by Beijing Institute for Stem Cell and Regenerative Medicine and John Wiley & Sons Ltd.)

Published
2022
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136. CAR-NK Cells Effectively Target the D614 and G614 SARS-CoV-2-infected Cells.

Author

Ma M, Badeti S, Chen CH, Pinter A, Jiang Q, Shi L, Zhou R, Xu H, Li Q, Gause W, and Liu D

Abstract

Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) is highly contagious presenting a significant public health issue. Current therapies used to treat coronavirus disease 2019 (COVID-19) include monoclonal antibody cocktail, convalescent plasma, antivirals, immunomodulators, and anticoagulants, though the current therapeutic options remain limited and expensive. The vaccines from Pfizer and Moderna have recently been authorized for emergency use, which are invaluable for the prevention of SARS-CoV-2 infection. However, their long-term side effects are not yet to be documented, and populations with immunocompromised conditions (e.g., organ-transplantation and immunodeficient patients) may not be able to mount an effective immune response. In addition, there are concerns that wide-scale immunity to SARS-CoV-2 may introduce immune pressure that could select for escape mutants to the existing vaccines and monoclonal antibody therapies. Emerging evidence has shown that chimeric antigen receptor (CAR)- natural killer (NK) immunotherapy has potent antitumor response in hematologic cancers with minimal adverse effects in recent studies, however, the potentials of CAR-NK cells in preventing and treating severe cases of COVID-19 has not yet been fully exploited. Here, we improve upon a novel approach for the generation of CAR-NK cells for targeting SARS-CoV-2 and its D614G mutant. CAR-NK cells were generated using the scFv domain of S309 (henceforward, S309-CAR-NK), a SARS-CoV and SARS-CoV-2 neutralizing antibody that targets the highly conserved region of SARS-CoV-2 spike (S) glycoprotein, therefore would be more likely to recognize different variants of SARS-CoV-2 isolates. S309-CAR-NK cells can specifically bind to pseudotyped SARS-CoV-2 virus and its D614G mutant. Furthermore, S309-CAR-NK cells can specifically kill target cells expressing SARS-CoV-2 S protein in vitro and show superior killing activity and cytokine production, compared to that of the recently published CR3022-CAR-NK cells. Thus, these results pave the way for generating 'off-the-shelf' S309-CAR-NK cells for treatment in high-risk individuals as well as provide an alternative strategy for patients unresponsive to current vaccines.

Published
2021
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137. Ephrin-A5 Is Required for Optimal Fertility and a Complete Ovulatory Response to Gonadotropins in the Female Mouse.

Author

Buensuceso AV, Son AI, Zhou R, Paquet M, Withers BM, and Deroo BJ

Subjects
ADAM Proteins genetics, ADAM Proteins metabolism, ADAMTS4 Protein, Animals, Betacellulin genetics, Betacellulin metabolism, Cell Adhesion Molecules genetics, Cell Adhesion Molecules metabolism, Corpus Luteum pathology, Cumulus Cells pathology, Cyclooxygenase 2 genetics, Cyclooxygenase 2 metabolism, Ephrin-A5 metabolism, Epiregulin genetics, Epiregulin metabolism, Female, Gonadotropins, Granulosa Cells pathology, Infertility genetics, Luteinization, Mice, Mice, Knockout, Ovarian Follicle pathology, Ovary pathology, Ovulation genetics, Procollagen N-Endopeptidase genetics, Procollagen N-Endopeptidase metabolism, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Ephrin-A5 genetics, Fertility genetics, Ovary metabolism, RNA, Messenger metabolism, Superovulation genetics
Abstract

Follicle growth and ovulation involve the coordinated expression of many genes, driven by FSH and LH. Reports indicate that Eph receptors and ephrins are expressed in the ovary, suggesting roles in follicle growth and/or ovulation. We previously reported FSH-induced expression of ephrin-A5 (EFNA5) and 4 of its cognate Eph receptors in mouse granulosa cells. We now report that female mice lacking EFNA5 are subfertile, exhibit a compromised response to LH, and display abnormal ovarian histology after superovulation. Efna5(-/-) females litters were 40% smaller than controls, although no difference in litter frequency was detected. The ovarian response to superovulation was also compromised in Efna5(-/-) females, with 37% fewer oocytes ovulated than controls. These results corresponded with a reduction in ovarian mRNA levels of several LH-responsive genes, including Pgr, Ptgs2, Tnfaip6, Ereg, Btc, and Adamts4, suggesting that Efna5(-/-) ovaries exhibit a partially attenuated response to LH. Histopathological analysis indicated that superovulated Efna5(-/-) females exhibited numerous ovarian defects, including intraovarian release of cumulus oocyte complexes, increased incidence of oocytes trapped within luteinized follicles, granulosa cell and follicular fluid emboli, fibrin thrombi, and interstitial hemorrhage. In addition, adult Efna5(-/-) ovaries exhibited a 4-fold increase in multioocyte follicles compared with controls, although no difference was detected in 3-week-old mice, suggesting the possibility of follicle merging. Our observations indicate that loss of EFNA5 in female mice results in subfertility and imply that Eph-ephrin signaling may also play a previously unidentified role in the regulation of fertility in women.

Published
2016
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138. Ephrin-A5 regulates inter-male aggression in mice.

Author

Sheleg M, Yochum CL, Richardson JR, Wagner GC, and Zhou R

Subjects
Animals, Appetitive Behavior physiology, Ephrin-A5 genetics, Habituation, Psychophysiologic physiology, Male, Mice, 129 Strain, Mice, Inbred C57BL, Mice, Knockout, Olfactory Perception physiology, Pattern Recognition, Physiological physiology, Recognition, Psychology physiology, Testosterone blood, Aggression physiology, Ephrin-A5 metabolism
Abstract

The Eph family of receptor tyrosine kinases play key roles in both the patterning of the developing nervous system and neural plasticity in the mature brain. To determine functions of ephrin-A5, a GPI-linked ligand to the Eph receptors, in animal behavior regulations, we examined effects of its inactivation on male mouse aggression. When tested in the resident-intruder paradigm for offensive aggression, ephrin-A5-mutant animals (ephrin-A5(-/-)) exhibited severe reduction in conspecific aggression compared to wild-type controls. On the contrary, defensive aggression in the form of target biting was higher in ephrin-A5(-/-) mice, indicating that the mutant mice are capable of attacking behavior. In addition, given the critical role of olfaction in aggressive behavior, we examined the ability of the ephrin-A5(-/-) mice to smell and found no differences between the mutant and control animals. Testosterone levels in the mutant mice were also found to be within the normal range. Taken together, our data reveal a new role of ephrin-A5 in the regulation of aggressive behavior in mice., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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139. Cryosectioning.

Author

Son AI, Sokolowski K, and Zhou R

Subjects
Animals, Brain cytology, Mice, Paraffin Embedding, Tissue Fixation, Cryoultramicrotomy methods
Abstract

Cryosectioning, the sectioning of frozen specimens, has been an important histological tool for more than a century and continues to be extensively utilized today. However, the ability to produce high-quality sections is often a difficult process requiring extensive patience and experience. In this chapter, we have detailed an effective method for the embedding, mounting, and sectioning of frozen tissues, as well as have provided suggestions in producing high-quality sections.

Published
2013
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140. Growth cone collapse assay.

Author

Yue X, Son AI, and Zhou R

Subjects
Animals, Cells, Cultured, Cross-Linking Reagents pharmacology, Ephrins metabolism, Hippocampus cytology, Mice, Neurons cytology, Neurons drug effects, Rats, Rats, Sprague-Dawley, Staining and Labeling, Tissue Fixation, Biological Assay methods, Growth Cones metabolism
Abstract

Growth cone collapse is an easy and efficient test for detecting and characterizing axon guidance activities secreted or expressed by cells. It can also be used to dissect signaling pathways by axon growth inhibitors and to isolate therapeutic compounds that promote axon regeneration. Here, we describe a growth cone collapse assay protocol used to study signal transduction mechanisms of the repulsive axon guidance molecule ephrin-A5 in hippocampal neurons.

Published
2013
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141. The Golgi-Cox method.

Author

Das G, Reuhl K, and Zhou R

Subjects
Animals, Brain cytology, Color, Desiccation, Dissection, Neurons cytology, Staining and Labeling methods
Abstract

One of the best neurohistologic methods to reveal the cytoarchitecture of the brain and detailed morphology of neurons with unsurpassed clarity has been the Golgi staining. It is based on the principle of metallic impregnation of neurons, allowing visualization in their entirety including cell soma, axons, dendrites, and spines. In this chapter, we describe the Golgi-Cox protocol standardized in our laboratory that can be used to study experimental effects of different genetic manipulations on spatial distribution of neurons, dendrite density, spine number and morphology to elucidate gene functions during development and in adult brain.

Published
2013
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142. β-Galactosidase staining of lacZ fusion proteins in whole tissue preparations.

Author

Cooper MA and Zhou R

Subjects
Animals, Embryo, Mammalian, Mice, Lac Operon genetics, Recombinant Fusion Proteins metabolism, Staining and Labeling, Tissue Fixation methods, beta-Galactosidase metabolism
Abstract

The lacZ gene product, β-galactosidase, has classically been used as a reporter of gene expression. β-Galactosidase activity can be detected using a chromogenic substrate, X-gal, which leaves an intense blue precipitate when cleaved by the enzyme. Insertion of the lacZ coding DNA targeted into a specific gene creates a β-galactosidase-tagged fusion protein that is expressed under the endogenous promoter. Analysis of the hybrid protein takes advantage of the chromogenic detection system, as the distribution and relative abundance of the expressed protein can be efficiently visualized.

Published
2013
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143. The role of Eph receptors in lens function and disease.

Author

Son AI, Park JE, and Zhou R

Subjects
Animals, Humans, Mice, Eye Diseases physiopathology, Lens, Crystalline physiology, Receptor, EphA1 physiology
Abstract

Cataract is the single largest contributor to blindness in the world, with the disease having a strong genetic component. In recent years the Eph family of receptor tyrosine kinases has been identified as a key regulator in lens clarity. In this review we discuss the roles of the Eph receptors in lens biology and cataract development.

Published
2012
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144. Dietary intake of pterostilbene, a constituent of blueberries, inhibits the beta-catenin/p65 downstream signaling pathway and colon carcinogenesis in rats.

Author

Paul S, DeCastro AJ, Lee HJ, Smolarek AK, So JY, Simi B, Wang CX, Zhou R, Rimando AM, and Suh N

Subjects
Animals, Azoxymethane, Cyclin D1 analysis, Cyclooxygenase 2 analysis, Cytokines analysis, Cytokines antagonists & inhibitors, HT29 Cells, Humans, Male, Nitric Oxide Synthase Type II analysis, Phosphorylation, Proliferating Cell Nuclear Antigen analysis, Proto-Oncogene Proteins c-myc analysis, Rats, Rats, Inbred F344, Transcription Factor RelA physiology, beta Catenin analysis, beta Catenin physiology, Colonic Neoplasms prevention & control, Signal Transduction drug effects, Stilbenes administration & dosage, Transcription Factor RelA antagonists & inhibitors, beta Catenin antagonists & inhibitors
Abstract

Stilbenes are phytochemicals present in grapes, berries, peanuts and red wine. A widely studied stilbene, resveratrol (trans-3,5,4'-trihydroxystilbene), has been shown to exert antioxidant, anti-inflammatory, chemopreventive and antiaging effects in a number of biological systems. We reported earlier that pterostilbene (trans-3,5-dimethoxy-4'-hydroxystilbene), a structurally related stilbene found in blueberries, was effective in reducing the incidence and multiplicity of aberrant crypt foci formation in the colon of rats injected with azoxymethane (AOM). Our present study was to identify the chemopreventive potential of pterostilbene with colonic tumor formation as an end point and further to evaluate the mechanistic action of pterostilbene during colon carcinogenesis. F344 rats were given two AOM injections subcutaneously when they were 7 and 8 weeks old and continuously fed the control or 40 p.p.m. pterostilbene diet for 45 weeks. Overall analyses indicated that pterostilbene reduced colon tumor multiplicity of non-invasive adenocarcinomas, lowered proliferating cell nuclear antigen and downregulated the expression of beta-catenin and cyclin D1. Pterostilbene decreased mucosal levels of the proinflammatory cytokines, tumor necrosis factor-alpha, interleukin (IL)-1beta and IL-4. Colon tumors from pterostilbene-fed animals showed reduced expression of inflammatory markers as well as nuclear staining for phospho-p65, a key molecule in the nuclear factor-kappaB pathway. In HT-29 cells, pterostilbene reduced the protein levels of beta-catenin, cyclin D1 and c-MYC, altered the cellular localization of beta-catenin and inhibited the phosphorylation of p65. Our data with pterostilbene in suppressing colon tumorigenesis, cell proliferation as well as key inflammatory markers in vivo and in vitro suggest the potential use of pterostilbene for colon cancer prevention.

Published
2010
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145. Changes in attack behavior and activity in EphA5 knockout mice.

Author

Mamiya PC, Hennesy Z, Zhou R, and Wagner GC

Subjects
Animals, Body Weight physiology, Brain Chemistry genetics, Brain Chemistry physiology, Data Interpretation, Statistical, Electroshock, Hydroxyindoleacetic Acid metabolism, Hypothalamus metabolism, Mice, Mice, Knockout, Motor Activity physiology, Serotonin metabolism, Aggression physiology, Receptor, EphA5 genetics, Receptor, EphA5 physiology
Abstract

During development, Eph tyrosine kinase receptors and their ephrin ligands function as axon guidance molecules while, in adults, these molecules appear to be involved in the regulation of neural plasticity and emotion. The absence of EphA5 receptor mediated forward signaling may cause alterations in connectivity of neural networks and boundary formation during development, including central monoaminergic systems. In the present studies, we demonstrated altered aggressive responses by animals lacking functional EphA5 receptors. These behavioral changes were accompanied by altered concentrations of serotonin (5-HT) and the metabolite, 5-HIAA, in the hypothalamus. The changes of serotonin activity in hypothalamus also result in increase of body weight in EphA5 knockout mice. Furthermore, EphA5 knockout mice exhibited a significant decrease in activity levels following exposure to naïve intruders in their home cages. We conclude that the EphA5 receptor may be involved in mediation of aggressive behavior regulated, in part, by hypothalamic serotonin.

Published
2008
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