Your search keyword '"Dave Morgan"' showing total 193 results

1. Validation of a functional human AD model with four AD therapeutics utilizing patterned ipsc-derived cortical neurons integrated with microelectrode arrays

Author

Julbert Caneus, Kaveena Autar, Nesar Akanda, Marcella Grillo, Christopher J. Long, Max Jackson, Sarah Lindquist, Xiufang Guo, Dave Morgan, and James J. Hickman

Subjects

Alzheimer’s disease, Long-term potentiation, Human-on-a-Chip, Amyloid-beta42, Drug efficacy, Microelectrode arrays, Medicine, Science

Abstract

Abstract Preclinical methods are needed for screening potential Alzheimer’s disease (AD) therapeutics that recapitulate phenotypes found in the Mild Cognitive Impairment (MCI) stage or even before this stage of the disease. This would require a phenotypic system that reproduces cognitive deficits without significant neuronal cell death to mimic the clinical manifestations of AD during these stages. Long-term potentiation (LTP), which is a correlate of learning and memory, was induced in mature human iPSC-derived cortical neurons cultured on microelectrode arrays utilizing circuit patterns connecting two adjacent electrodes. We demonstrated an LTP system that modeled the MCI and pre-MCI stages of Alzheimer’s and validated this functional system utilizing four AD therapeutics, which was also verified utilizing patch-clamp electrophysiology. LTP was induced by tetanic electrical stimulation, and LTP maintenance was significantly reduced in the presence of Amyloid-Beta 42 (Aβ42) oligomers compared to the controls, however, co-treatment with AD therapeutics (Donepezil, Memantine, Rolipram and Saracatinib) corrected Aβ42-induced LTP impairment. The results illustrate the utility of the system as a validated platform to model MCI AD pathology, and potentially for the pre-MCI phase before significant neuronal death. This system also has the potential to become an ideal platform for high-content therapeutic screening for other neurodegenerative diseases.

Published

2024

2. Brain structure and function: a multidisciplinary pipeline to study hominoid brain evolution

Author

Angela D. Friederici, Roman M. Wittig, Alfred Anwander, Cornelius Eichner, Tobias Gräßle, Carsten Jäger, Evgeniya Kirilina, Ilona Lipp, Ariane Düx, Luke J. Edwards, Cédric Girard-Buttoz, Anna Jauch, Kathrin S. Kopp, Michael Paquette, Kerrin J. Pine, Steve Unwin, Daniel B. M. Haun, Fabian H. Leendertz, Richard McElreath, Markus Morawski, Philipp Gunz, Nikolaus Weiskopf, Catherine Crockford, EBC Consortium, Daniel Ashoff, Karoline Albig, Bala Amarasekaran, Sam Angedakin, Caroline Asiimwe, Christian Bock, Birgit Blazey, Andreas Bernhard, Jacinta C Beehner, Laurent Bailanda, Raphael Belais, Thore J Bergman, Denny Böttcher, Tatiana Bortolato, Penelope Carlier, Julian Chantrey, Daniela Denk, Tobias Deschner, Dag Encke, Gelardine Escoubas, Malak Ettaj, Pawel Fedurek, Karina Flores, Alejandra Romero Florero, Richard Franke, Angela D Friederici, Cedric Girard-Buttoz, Jorge Gomez Fortun, Eva Gruber-Dujardin, Susan Hambrecht, Florian Hansmann, Jess Hartel, Daniel BM Haun, Michael Henshall, Catherine Hobaiter, Noémie Hofman, Jennifer E Jaffe, Stomy Karhemere, Evgenya Kirilina, Robert Klopfleisch, Tobias Knauf-Witzens, Kathrin Kopp, Bastian Lange, Kevin E Langergraber, Arne Lawrenz, Kevin Lee, Fabian H Leendertz, Illona Lipp, Matyas Liptovszky, Christelle Patricia Lumbu, Patrice Makouloutou Nzassi, Guy Landry Mamboundou Kouima, Kerstin Mätz-Rensing, Zoltan Mezö, Fanny Minesi, Sophie Moittie, Torsten Møller, Dave Morgan, Mathias Müller, Timothy Mugabe, Martin Muller, Karin Olofsson-Sannö, Alain Ondzie, Emily Otali, Simone Pika, Andrea Pizarro, Kamilla Pleh, Sandra Reichler-Danielowski, Jessica Rendel, Martha M Robbins, Konstantin Ruske, Liran Samuni, Crickette Sanz, Jan Schinköthe, André Schüle, Ingo Schwabe, Katarina Schwalm, Anistan Sebastiampillai, Lara Southern, Sheri Speede, Jonas Steiner, Mark F Stidworthy, Martin Surbeck, Claudia A. Szentiks, Tanguy Tanga, Tobias Loubser Theron, Reiner Ulrich, Erica van de Waal, Sue Walker, Gudrun Wibbelt, Navena Widulin, Hermann Will, Roman M Wittig, Kim Wood, Emiliano Zaccarella, and Klaus Zuberbühler

Subjects

non-human primates, behavior, structural MRI, histology, hominoid fossil, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

To decipher the evolution of the hominoid brain and its functions, it is essential to conduct comparative studies in primates, including our closest living relatives. However, strong ethical concerns preclude in vivo neuroimaging of great apes. We propose a responsible and multidisciplinary alternative approach that links behavior to brain anatomy in non-human primates from diverse ecological backgrounds. The brains of primates observed in the wild or in captivity are extracted and fixed shortly after natural death, and then studied using advanced MRI neuroimaging and histology to reveal macro- and microstructures. By linking detailed neuroanatomy with observed behavior within and across primate species, our approach provides new perspectives on brain evolution. Combined with endocranial brain imprints extracted from computed tomographic scans of the skulls these data provide a framework for decoding evolutionary changes in hominin fossils. This approach is poised to become a key resource for investigating the evolution and functional differentiation of hominoid brains.

Published

2024

3. Using Passing Trains as Seismic Sources for Refraction Microtremor Site Characterisation Surveys: Rugeley, Staffordshire, UK

Author

Raad Eissa, Nigel Cassidy, David Gunn, Ian Stimpson, Ben Dashwood, Dave Morgan, Jamie Pringle, and Jonathan Lee

Subjects

Geology, QE1-996.5

Abstract

Microtremor seismic surveys are routinely used to provide shear wave velocities that are converted to soil stiffness site profiles. In this paper, we look to assess the feasibility of using trains as seismic sources to characterize near-surface geology, define the optimum survey parameters to collect train-induced vibrations (i.e., array location and orientation to the railway) and find how the geology affects train-induced vibration characteristics. Three-component train-induced shear wave vibrations were recorded on short (44 m) and long (115 m) linear seismic arrays, both parallel and orthogonal to the nearby railway embankment, using standard seismic refraction recording equipment. The collected data were divided into short/long array size/orientation and seismic components for each survey configuration. 1D shear wave velocity-depth profiles were also generated for all data sets. Results showed thst long linear arrays with vertical components, parallel to the railway embankment, was optimal with the greater depth ranges. The vertical component amplitude of train-induced vibrations was found to be affected by the site geology, increasing with the thickening of Quaternary deposits and having different magnitudes for trains traveling in different directions. Results showed that different apparent shear-wave velocities were obtained from different train groups and different seismic components. The passenger trains (i.e. Virgin Trains Pendolino and British Midland 319 series) generate Rayleigh waves at higher frequencies than the freight trains.

Published

2023

4. Sediment Thickness Model of Andalusia’s Nearshore and Coastal Inland Topography

Author

Cristina Torrecillas, Andres Payo, Manuel Cobos, Helen Burke, Dave Morgan, Helen Smith, and Gareth Owen Jenkins

Subjects

unconsolidated sediments, subsurface sediments, coastal modeling, coastal management, Groundhog Desktop, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

This study represents the first attempt to map the sediment thickness spatial distribution along the Andalusian coastal zone by integrating various publicly available datasets. While prior studies have presented bedform- and sediment-type syntheses, none have attempted to quantify sediment thickness at the scale and resolution performed in this study. The study area has been divided into 18 physiographic zones, and we have used BGS Groundhog Desktop v2.6 software for 3D modeling and sediment thickness model calculations. We present here the modeling workflow, model results, and the challenges that we have encountered, including discrepancies in geological maps, difficulty managing data input for grain size/consolidation, and the need for additional geological information. We have compared the modeled sediment fractions of the unconsolidated material with 4194 seabed samples distributed along the study area and found that the differences between the modeled versus the sampled emphasized the importance of incorporating river contributions, particularly from the Guadalquivir River, into the model for more accurate results. The model intermediate and final outputs and the software routines used to query the sediment thickness model are provided as publicly accessible datasets and tools. The modeled sediment thickness could contribute to making quantitative predictions of morphological change at a scale that is relevant to longer-term strategic coastal management in Andalusia. The methodology and tools used for this study are transferable to any study area.

Published

2024

5. Immediate and long-term consequences of COVID-19 infections for the development of neurological disease

Author

Michael T. Heneka, Douglas Golenbock, Eicke Latz, Dave Morgan, and Robert Brown

Subjects

Systemic inflammation, NLRP3 inflammasome, Cytokine, Cognition, Neurodegeneration, Neuroinflammation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Increasing evidence suggests that infection with Sars-CoV-2 causes neurological deficits in a substantial proportion of affected patients. While these symptoms arise acutely during the course of infection, less is known about the possible long-term consequences for the brain. Severely affected COVID-19 cases experience high levels of proinflammatory cytokines and acute respiratory dysfunction and often require assisted ventilation. All these factors have been suggested to cause cognitive decline. Pathogenetically, this may result from direct negative effects of the immune reaction, acceleration or aggravation of pre-existing cognitive deficits, or de novo induction of a neurodegenerative disease. This article summarizes the current understanding of neurological symptoms of COVID-19 and hypothesizes that affected patients may be at higher risk of developing cognitive decline after overcoming the primary COVID-19 infection. A structured prospective evaluation should analyze the likelihood, time course, and severity of cognitive impairment following the COVID-19 pandemic.

Published

2020

6. Spermidine/spermine-N 1-acetyltransferase ablation impacts tauopathy-induced polyamine stress response

Author

Leslie A. Sandusky-Beltran, Andrii Kovalenko, Chao Ma, John Ivan T. Calahatian, Devon S. Placides, Mallory D. Watler, Jerry B. Hunt, April L. Darling, Jeremy D. Baker, Laura J. Blair, Mackenzie D. Martin, Sarah N. Fontaine, Chad A. Dickey, April L. Lussier, Edwin J. Weeber, Maj-Linda B. Selenica, Kevin R. Nash, Marcia N. Gordon, Dave Morgan, and Daniel C. Lee

Subjects

Tau, Polyamine dysregulation, Hippocampus, Alzheimer’s disease, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Tau stabilizes microtubules; however, in Alzheimer’s disease (AD) and tauopathies, tau becomes hyperphosphorylated, aggregates, and results in neuronal death. Our group recently uncovered a unique interaction between polyamine metabolism and tau fate. Polyamines exert an array of physiological effects that support neuronal function and cognitive processing. Specific stimuli can elicit a polyamine stress response (PSR), resulting in altered central polyamine homeostasis. Evidence suggests that elevations in polyamines following a short-term stressor are beneficial; however, persistent stress and subsequent PSR activation may lead to maladaptive polyamine dysregulation, which is observed in AD, and may contribute to neuropathology and disease progression. Methods Male and female mice harboring tau P301L mutation (rTg4510) were examined for a tau-induced central polyamine stress response (tau-PSR). The direct effect of tau-PSR byproducts on tau fibrillization and oligomerization were measured using a thioflavin T assay and a N2a split superfolder GFP-Tau (N2a-ssGT) cell line, respectively. To therapeutically target the tau-PSR, we bilaterally injected caspase 3-cleaved tau truncated at aspartate 421 (AAV9 Tau ΔD421) into the hippocampus and cortex of spermidine/spermine-N 1-acetyltransferase (SSAT), a key regulator of the tau-PSR, knock out (SSAT-/-), and wild type littermates, and the effects on tau neuropathology, polyamine dysregulation, and behavior were measured. Lastly, cellular models were employed to further examine how SSAT repression impacted tau biology. Results Tau induced a unique tau-PSR signature in rTg4510 mice, notably in the accumulation of acetylated spermidine. In vitro, higher-order polyamines prevented tau fibrillization but acetylated spermidine failed to mimic this effect and even promoted fibrillization and oligomerization. AAV9 Tau ΔD421 also elicited a unique tau-PSR in vivo, and targeted disruption of SSAT prevented the accumulation of acetylated polyamines and impacted several tau phospho-epitopes. Interestingly, SSAT knockout mice presented with altered behavior in the rotarod task, the elevated plus maze, and marble burying task, thus highlighting the impact of polyamine homeostasis within the brain. Conclusion These data represent a novel paradigm linking tau pathology and polyamine dysfunction and that targeting specific arms within the polyamine pathway may serve as new targets to mitigate certain components of the tau phenotype.

Published

2019

7. Myeloid Arginase 1 Insufficiency Exacerbates Amyloid-β Associated Neurodegenerative Pathways and Glial Signatures in a Mouse Model of Alzheimer’s Disease: A Targeted Transcriptome Analysis

Author

Chao Ma, Jerry B. Hunt, Andrii Kovalenko, Huimin Liang, Maj-Linda B. Selenica, Michael B. Orr, Bei Zhang, John C. Gensel, David J. Feola, Marcia N. Gordon, Dave Morgan, Paula C. Bickford, and Daniel C. Lee

Subjects

arginine metabolism, APP Tg2576, amyloidosis, neurodegeneration, neuroinflammation, infiltrating macrophage, Immunologic diseases. Allergy, RC581-607

Abstract

Brain myeloid cells, include infiltrating macrophages and resident microglia, play an essential role in responding to and inducing neurodegenerative diseases, such as Alzheimer’s disease (AD). Genome-wide association studies (GWAS) implicate many AD casual and risk genes enriched in brain myeloid cells. Coordinated arginine metabolism through arginase 1 (Arg1) is critical for brain myeloid cells to perform biological functions, whereas dysregulated arginine metabolism disrupts them. Altered arginine metabolism is proposed as a new biomarker pathway for AD. We previously reported Arg1 deficiency in myeloid biased cells using lysozyme M (LysM) promoter-driven deletion worsened amyloidosis-related neuropathology and behavioral impairment. However, it remains unclear how Arg1 deficiency in these cells impacts the whole brain to promote amyloidosis. Herein, we aim to determine how Arg1 deficiency driven by LysM restriction during amyloidosis affects fundamental neurodegenerative pathways at the transcriptome level. By applying several bioinformatic tools and analyses, we found that amyloid-β (Aβ) stimulated transcriptomic signatures in autophagy-related pathways and myeloid cells’ inflammatory response. At the same time, myeloid Arg1 deficiency during amyloidosis promoted gene signatures of lipid metabolism, myelination, and migration of myeloid cells. Focusing on Aβ associated glial transcriptomic signatures, we found myeloid Arg1 deficiency up-regulated glial gene transcripts that positively correlated with Aβ plaque burden. We also observed that Aβ preferentially activated disease-associated microglial signatures to increase phagocytic response, whereas myeloid Arg1 deficiency selectively promoted homeostatic microglial signature that is non-phagocytic. These transcriptomic findings suggest a critical role for proper Arg1 function during normal and pathological challenges associated with amyloidosis. Furthermore, understanding pathways that govern Arg1 metabolism may provide new therapeutic opportunities to rebalance immune function and improve microglia/macrophage fitness.

Published

2021

8. Arginase 1 Insufficiency Precipitates Amyloid-β Deposition and Hastens Behavioral Impairment in a Mouse Model of Amyloidosis

Author

Chao Ma, Jerry B. Hunt, Maj-Linda B. Selenica, Awa Sanneh, Leslie A. Sandusky-Beltran, Mallory Watler, Rana Daas, Andrii Kovalenko, Huimin Liang, Devon Placides, Chuanhai Cao, Xiaoyang Lin, Michael B. Orr, Bei Zhang, John C. Gensel, David J. Feola, Marcia N. Gordon, Dave Morgan, Paula C. Bickford, and Daniel C. Lee

Subjects

Alzheimer’s disease, neuroinflammation, arginine metabolism, macrophage, microglia, phagocytosis, Immunologic diseases. Allergy, RC581-607

Abstract

Alzheimer’s disease (AD) includes several hallmarks comprised of amyloid-β (Aβ) deposition, tau neuropathology, inflammation, and memory impairment. Brain metabolism becomes uncoupled due to aging and other AD risk factors, which ultimately lead to impaired protein clearance and aggregation. Increasing evidence indicates a role of arginine metabolism in AD, where arginases are key enzymes in neurons and glia capable of depleting arginine and producing ornithine and polyamines. However, currently, it remains unknown if the reduction of arginase 1 (Arg1) in myeloid cell impacts amyloidosis. Herein, we produced haploinsufficiency of Arg1 by the hemizygous deletion in myeloid cells using Arg1fl/fl and LysMcreTg/+ mice crossed with APP Tg2576 mice. Our data indicated that Arg1 haploinsufficiency promoted Aβ deposition, exacerbated some behavioral impairment, and decreased components of Ragulator-Rag complex involved in mechanistic target of rapamycin complex 1 (mTORC1) signaling and autophagy. Additionally, Arg1 repression and arginine supplementation both impaired microglial phagocytosis in vitro. These data suggest that proper function of Arg1 and arginine metabolism in myeloid cells remains essential to restrict amyloidosis.

Published

2021

9. Evidence of Former Sea Levels from a Passive Seismic Survey at a Sandy Beach; Perranporth, SW England, UK

Author

Andres Payo, Gareth O. Jenkins, Dave Morgan, Nieves G. Valiente, and Timothy Scott

Subjects

geology, isostatic rebound, sea level rise, beach thickness, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Since the end of the last glaciation, the United Kingdom’s land surface has been altered by isostatic rebound, rising in the north and sinking in the south. Numerous studies have been published documenting the impact of isostatic rebound on relative sea levels. However, due to the difficulties in acquiring evidence to prove former sea levels, locally, these data can be sparse or absent. In this work, we explored the suitability of the passive seismic survey (PSS) method to estimate the contemporaneous beach thickness in coastal environments where there is a high impedance contrast between the beach deposits and the underlying wave-cut platform. We conducted a three-day survey at Perran Beach, Cornwall, collected 149 measurements using PSS, and interpreted the observations supported by auxiliary topographical, geological, and independent geophysical observation in the study area. The study site is a contemporaneous beach mostly composed of sand underlain by a wave-cut platform composed of igneous and sedimentary rock, therefore high impedance contrast with the sandy beach is anticipated. The elevation of the bedrock relative to the topographical elevation suggests that the bedrock elevation is −15 m ± 5 m below the present day mean sea level, which is coherent with the observation of relative sea level rise along the region of the south-west. The present study contributes to our current limited understanding of land and sea level movements by providing further subsurface information to the coastal geological archive of south-west England, a region currently in need of more data to reconstruct land- and sea-level movements.

Published

2022

10. CCL2 Overexpression in the Brain Promotes Glial Activation and Accelerates Tau Pathology in a Mouse Model of Tauopathy

Author

Aurelie Joly-Amado, Jordan Hunter, Zainuddin Quadri, Frank Zamudio, Patricia V. Rocha-Rangel, Deanna Chan, Anisha Kesarwani, Kevin Nash, Daniel C. Lee, Dave Morgan, Marcia N. Gordon, and Maj-Linda B. Selenica

Subjects

monocyte chemoattractant protein-1 (MCP-1), neuroinflammation, Alzheimer's disease, tau, Aβ, gene therapy, Immunologic diseases. Allergy, RC581-607

Abstract

Innate immune activation is a major contributor to Alzheimer's Disease (AD) pathophysiology, although the mechanisms involved are poorly understood. Chemokine C-C motif ligand (CCL) 2 is produced by neurons and glial cells and is upregulated in the AD brain. Transgene expression of CCL2 in mouse models of amyloidosis produces microglia-induced amyloid β oligomerization, a strong indication of the role of these activation pathways in the amyloidogenic processes of AD. We have previously shown that CCL2 polarizes microglia in wild type mice. However, how CCL2 signaling contributes to tau pathogenesis remains unknown. To address this question, CCL2 was delivered via recombinant adeno-associated virus serotype 9 into both cortex and hippocampus of a mouse model with tau pathology (rTg4510). We report that CCL2 overexpression aggravated tau pathology in rTg4510 as shown by the increase in Gallyas stained neurofibrillary tangles as well as phosphorylated tau-positive inclusions. In addition, biochemical analysis showed a reduction in the levels of detergent-soluble tau species followed by increase in the insoluble fraction, indicating a shift toward larger tau aggregates. Indeed, increased levels of high molecular weight species of phosphorylated tau were found in the mice injected with CCL2. We also report that worsening of tau pathology following CCL2 overexpression was accompanied by a distinct inflammatory response. We report an increase in leukocyte common antigen (CD45) and Cluster of differentiation 68 (CD68) expression in the brain of rTg4510 mice without altering the expression levels of a cell-surface protein Transmembrane Protein 119 (Tmem119) and ionized calcium-binding adaptor molecule 1 (Iba-1) in resident microglia. Furthermore, the analysis of cytokines in brain extract showed a significant increase in interleukin (IL)-6 and CCL3, while CCL5 levels were decreased in CCL2 mice. No changes were observed in IL-1α, IL-1β, TNF-α. IL-4, Vascular endothelial growth factor-VEGF, IL-13 and CCL11. Taken together our data report for the first time that overexpression of CCL2 promotes the increase of pathogenic tau species and is associated with glial neuroinflammatory changes that are deleterious. We propose that these events may contribute to the pathogenesis of Alzheimer's disease and other tauopathies.

Published

2020

11. Up-regulation of Bcl-2 in APP transgenic mice is associated with neuroprotection

Author

Rachel Karlnoski, Donna Wilcock, Chad Dickey, Victoria Ronan, Marcia N. Gordon, Wenru Zhang, Dave Morgan, and Giulio Taglialatela

Subjects

Bax, APP+PS1 transgenic mice, Alzheimer's disease, Neurotoxicity, Aβ, Apoptosis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Aβ-induced neurodegeneration is limited in APP and APP+PS1 transgenic mice. In middle-aged APP+PS1 transgenic mice, we found significantly increased Bcl-2 expression. The increase in Bcl-2 is restricted to amyloid-containing brain regions and is not found at young ages, suggesting that Aβ deposition is the stimulus for increased Bcl-2. Western blot results were confirmed with immunohistochemistry and qRT-PCR. In addition, we found that APP transgenic mice were protected from neurotoxicity caused by an injection of bak BH3 fusion peptides, known to induce apoptosis by antagonizing bcl protein activity. Nissl and fluorojade-stained slides showed that the active bak BH3 peptide caused substantial neuronal loss in the dentate gyrus and CA3 regions of nontransgenic, but not APP mice. The inactive mutant bak BH3 peptide did not cause degeneration in any mice. These data demonstrate that the increased Bcl-2 expression in brain regions containing Aβ deposits is associated with neuroprotection.

Published

2007

12. Microglial activation facilitates Aβ plaque removal following intracranial anti-Aβ antibody administration

Author

Donna M Wilcock, Sanjay K Munireddy, Arnon Rosenthal, Kenneth E Ugen, Marcia N Gordon, and Dave Morgan

Subjects

Amyloid deposits, Anti-Aβ, Microglia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The mechanisms by which anti-Aβ antibodies clear amyloid plaques in Aβ depositing transgenic mice are unclear. In the current study, we demonstrate that inhibition of anti-Aβ antibody-induced microglial activation with anti-inflammatory drugs, such as dexamethasone, inhibits removal of fibrillar amyloid deposits. We also show that anti-Aβ F(ab′)2 fragments fail to activate microglia and are less efficient in removing fibrillar amyloid than the corresponding complete IgG. Diffuse Aβ deposits are cleared by antibodies under all circumstances. These data suggest that microglial activation is necessary for efficient removal of compact amyloid deposits with immunotherapy. Inhibition of this activation may result in an impaired clinical response to vaccination against Aβ.

Published

2004

13. Intracranial injection of AAV expressing NEP but not IDE reduces amyloid pathology in APP+PS1 transgenic mice.

Author

Nikisha Carty, Kevin R Nash, Milene Brownlow, Dana Cruite, Donna Wilcock, Maj-Linda B Selenica, Daniel C Lee, Marcia N Gordon, and Dave Morgan

Subjects

Medicine, Science

Abstract

The accumulation of β-amyloid peptides in the brain has been recognized as an essential factor in Alzheimer's disease pathology. Several proteases, including Neprilysin (NEP), endothelin converting enzyme (ECE), and insulin degrading enzyme (IDE), have been shown to cleave β-amyloid peptides (Aβ). We have previously reported reductions in amyloid in APP+PS1 mice with increased expression of ECE. In this study we compared the vector-induced increased expression of NEP and IDE. We used recombinant adeno-associated viral vectors expressing either native forms of NEP (NEP-n) or IDE (IDE-n), or engineered secreted forms of NEP (NEP-s) or IDE (IDE-s). In a six-week study, immunohistochemistry staining for total Aβ was significantly decreased in animals receiving the NEP-n and NEP-s but not for IDE-n or IDE-s in either the hippocampus or cortex. Congo red staining followed a similar trend revealing significant decreases in the hippocampus and the cortex for NEP-n and NEP-s treatment groups. Our results indicate that while rAAV-IDE does not have the same therapeutic potential as rAAV-NEP, rAAV-NEP-s and NEP-n are effective at reducing amyloid loads, and both of these vectors continue to have significant effects nine months post-injection. As such, they may be considered reasonable candidates for gene therapy trials in AD.

Published

2013

14. Ketogenic diet improves motor performance but not cognition in two mouse models of Alzheimer's pathology.

Author

Milene L Brownlow, Leif Benner, Dominic D'Agostino, Marcia N Gordon, and Dave Morgan

Subjects

Medicine, Science

Abstract

Dietary manipulations are increasingly viewed as possible approaches to treating neurodegenerative diseases. Previous studies suggest that Alzheimer's disease (AD) patients present an energy imbalance with brain hypometabolism and mitochondrial deficits. Ketogenic diets (KDs), widely investigated in the treatment and prevention of seizures, have been suggested to bypass metabolic deficits present in AD brain by providing ketone bodies as an alternative fuel to neurons. We investigated the effects of a ketogenic diet in two transgenic mouse lines. Five months old APP/PS1 (a model of amyloid deposition) and Tg4510 (a model of tau deposition) mice were offered either a ketogenic or a control (NIH-31) diet for 3 months. Body weight and food intake were monitored throughout the experiment, and blood was collected at 4 weeks and 4 months for ketone and glucose assessments. Both lines of transgenic mice weighed less than nontransgenic mice, yet, surprisingly, had elevated food intake. The ketogenic diet did not affect these differences in body weight or food consumption. Behavioral testing during the last two weeks of treatment found that mice offered KD performed significantly better on the rotarod compared to mice on the control diet independent of genotype. In the open field test, both transgenic mouse lines presented increased locomotor activity compared to nontransgenic, age-matched controls, and this effect was not influenced by KD. The radial arm water maze identified learning deficits in both transgenic lines with no significant differences between diets. Tissue measures of amyloid, tau, astroglial and microglial markers in transgenic lines showed no differences between animals fed the control or the ketogenic diet. These data suggest that ketogenic diets may play an important role in enhancing motor performance in mice, but have minimal impact on the phenotype of murine models of amyloid or tau deposition.

Published

2013

15. The Technology Toolbelt for Teaching

Author

Dave Morgan

Subjects

Theory and practice of education, LB5-3640

Published

2012

16. Diverse Inflammatory Responses in Transgenic Mouse Models of Alzheimer's Disease and the Effect of Immunotherapy on These Responses

Author

Donna M Wilcock, Qun Zhao, Dave Morgan, Marcia N Gordon, Angela Everhart, Joan G Wilson, Jennifer E Lee, and Carol A Colton

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

While the presence of an inflammatory response in AD (Alzheimer's disease) is well known, the data on inflammation are conflicting, suggesting that inflammation either attenuates pathology, exacerbates it or has no effect. Our goal was to more fully characterize the inflammatory response in APP (amyloid precursor protein) transgenic mice with and without disease progression. In addition, we have examined how anti-A β (amyloid β -peptide) immunotherapy alters this inflammatory response. We have used quantitative RT–PCR (reverse transcription–PCR) and protein analysis to measure inflammatory responses ranging from proinflammatory to anti-inflammatory and repair factors in transgenic mice that develop amyloid deposits only (APPSw) and amyloid deposits with progression to tau pathology and neuron loss [APPSw/NOS2 –/– (nitric oxide synthase 2 –/– )]. We also examined tissues from previously published immunotherapy studies. These studies were a passive immunization study in APPSw mice and an active vaccination study in APPSw/NOS2 –/– mice. Both studies have already been shown to lower amyloid load and improve cognition. We have found that amyloid deposition is associated with high expression of alternative activation and acquired deactivation genes and low expression of pro-inflammatory genes, whereas disease progression is associated with a mixed phenotype including increased levels of some classical activation factors. Immunotherapy targeting amyloid deposition in both mouse models resulted in decreased alternative inflammatory markers and, in the case of passive immunization, a transient increase in pro-inflammatory markers. Our results suggest that an alternative immune response favours retention of amyloid deposits in the brain, and switching away from this state by immunotherapy permits removal of amyloid.

Published

2011

17. Contrasting In Vivo Effects of Two Peptide-Based Amyloid-β Protein Aggregation Inhibitors in a Transgenic Mouse Model of Amyloid Deposition

Author

Qingyou Li, Marcia Gordon, Marcus A. Etienne, Robert P. Hammer, and Dave Morgan Ph.D.

Subjects

Medicine

Abstract

Previous studies have shown that 17,19,21-tri-N-methyl-Aβ16-22 peptide (Aβ16-22m), and a peptide analogue containing α,α-disubsituted amino acids (ααAA) in the hydrophobic core domain of Aβ, termed AMY-1, effectively inhibited full-length Aβ aggregation in vitro. To investigate the amyloid-modifying effects of these agents in vivo, we injected these compounds into the hippocampus of 13-month-old amyloid precursor protein (APP) transgenic mice, a model of amyloid deposition. After 7 days, brain tissues were stained for immunohistochemistry to detect total Aβ and thioflavine-S (THIO-S) to measure Aβ compact plaques. Both diffuse Aβ deposits and compact amyloid plaques were significantly increased when injecting 0.3 nmol Aβ16-22m compared to the PBS vehicle. The amyloid aggregation-modifying peptide AMY-1 showed a slight reduction of Aβ deposition in the injection area at a dose of 0.3 nmol, but neuronal toxicity, measured by Fluoro-Jade and Nissl stains, appeared when higher doses (3 nmol) were tested. Our data indicate that, unlike observations reported in vitro, the Aβ16-22m increased deposition of Aβ in the brain of APP transgenic mice in vivo. Possible explanations for this outcome include unique influences of the brain environment and/or modification of Aβ production or clearance by the administered agent. The AMY-1 peptide showed a trend for reducing Aβ deposits, but led to toxicity at higher doses. These data emphasize the need for evaluating potential Aβ aggregation inhibitors with in vivo models of amyloid deposition before assuming they will have benefit in treating Alzheimer's disease patients.

Published

2008

18. How to Grow Native Orchids in Gardens Large and Small: the comprehensive guide to cultivating local species

Author

Wilson Wall, Dave Morgan

Published

2019

19. A functional hiPSC-cortical neuron differentiation and maturation model and its application to neurological disorders

Author

Kaveena Autar, Xiufang Guo, John W. Rumsey, Christopher J. Long, Nesar Akanda, Max Jackson, Narasimhan S. Narasimhan, Julbert Caneus, Dave Morgan, and James J. Hickman

Subjects

Neurons, induced pluripotent stem cells, cortical neurons, maturation, Neurogenesis, Cell Culture Techniques, Cell- and Tissue-Based Therapy, Action Potentials, Cell Differentiation, Cell Biology, Biochemistry, Article, nervous system, Synapses, Genetics, Humans, epilepsy, Nervous System Diseases, Cells, Cultured, long-term potentiation, Developmental Biology

Abstract

Summary The maturation and functional characteristics of human induced pluripotent stem cell (hiPSC)-cortical neurons has not been fully documented. This study developed a phenotypic model of hiPSC-derived cortical neurons, characterized their maturation process, and investigated its application for disease modeling with the integration of multi-electrode array (MEA) technology. Immunocytochemistry analysis indicated early-stage neurons (day 21) were simultaneously positive for both excitatory (vesicular glutamate transporter 1 [VGlut1]) and inhibitory (GABA) markers, while late-stage cultures (day 40) expressed solely VGlut1, indicating a purely excitatory phenotype without containing glial cells. This maturation process was further validated utilizing patch clamp and MEA analysis. Particularly, induced long-term potentiation (LTP) successfully persisted for 1 h in day 40 cultures, but only achieved LTP in the presence of the GABAA receptor antagonist picrotoxin in day 21 cultures. This system was also applied to epilepsy modeling utilizing bicuculline and its correction utilizing the anti-epileptic drug valproic acid., Graphical abstract, Highlights • Characterization of human cortical neuronal differentiation to a mature phenotype • Microelectrode evaluation of development from a mixed to pure excitatory population • Utilization of defined culture stage to create an epilepsy model • Manipulation of immaturity with inhibitors for maintaining long-term potentiation, In this article, Hickman and colleagues used controlled hiPSC-cortical neuron maturation to develop models capable of evaluating functional deficits in long-term potentiation, which is the basis for many neurodegenerative diseases. This model has the potential for patient-specific personalized medicine and can be used for both the investigation of pathogenesis and subsequent preclinical assaying of potential drug treatments.

Published

2022

20. Evaluating the Utility of Existing Plasma Biomarkers in a Clinical Patient Cohort

Author

Kelly N. Dubois, Tessa Grabinski, Dave Morgan, and Nicholas M Kanaan

Subjects

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

Published

2022

21. Concentration and proteolysis of CX3CL1 may regulate the microglial response to CX3CL1

Author

Dylan Finneran, Qingyou Li, Meena S. Subbarayan, Aurelie Joly‐Amado, Siddharth Kamath, Daniela G. Dengler, Marcia N. Gordon, Michael R. Jackson, Dave Morgan, Paula C. Bickford, Layton H. Smith, and Kevin R. Nash

Subjects

Cellular and Molecular Neuroscience, Neurology

Abstract

Fractalkine (FKN) is a membrane-bound chemokine that can be cleaved by proteases such as ADAM 10, ADAM 17, and cathepsin S to generate soluble fragments. Studies using different forms of the soluble FKN yield conflicting results in vivo. These observations prompted us to investigate the function and pharmacology of two commonly used isoforms of FKN, a human full-length soluble FKN (sFKN), and a human chemokine domain only FKN (cdFKN). Both are prevalent in the literature and are often assumed to be functionally equivalent. We observed that recombinant sFKN and cdFKN exhibit similar potencies in a cell-based cAMP assay, but binding affinity for CX3CR1 was modestly different. There was a 10-fold difference in potency between sFKN and cdFKN when assessing their ability to stimulate β-arrestin recruitment. Interestingly, high concentrations of FKN, regardless of cleavage variant, were ineffective at reducing pro-inflammatory microglial activation and may induce a pro-inflammatory response. This effect was observed in mouse and rat primary microglial cells as well as microglial cell lines. The inflammatory response was exacerbated in aged microglia, which is known to exhibit age-related inflammatory phenotypes. We observed the same effects in Cx3cr1-/- primary microglia and therefore speculate that an alternative FKN receptor may exist. Collectively, these data provide greater insights into the function and pharmacology of these common FKN reagents, which may clarify conflicting reports and urge greater caution in the selection of FKN peptides for use in in vitro and in vivo studies and the interpretation of results obtained using these differing peptides.

Published

2022

22. Seeing inside flood embankments: combining electrical and seismic imaging

Author

Adrian White, Jonathan Chambers, Paul Wilkinson, James Wookey, J. Michael Kendall, Ben Dashwood, James Whiteley, James Boyd, Arnaud Watlet, Dave Morgan, John Ball, and Andrew Binley

Abstract

Flood embankments (levees or dykes) are used worldwide to protect homes, industry and farmland from flooding caused by extreme weather events and tidal surges. Their role is becoming increasingly important for two key reasons: climate change is causing larger and more frequent floods, and the number of people living on floodplains is increasing globally. Both these factors necessitate that flood defences are well maintained to minimise failure during flood events, and reduce disruption, damage, and even loss of life. There are more than 10,000 km of flood embankments in UK alone, so condition monitoring must be rapid. Current monitoring relies on qualitative walkover surveys every 6-12 months, but this can only detect the surface features that form in response to subsurface processes or characteristics. If we could detect subsurface properties and deterioration features directly it would enable us to identify areas at risk significantly earlier, minimising both risk and mitigation costs. Two complementary geophysical methods stand out: Electrical Resistivity Tomography (ERT) and Multi Channel Analysis of Surface Waves (MASW). These are sensitive to different hydro-mechanical properties of the materials that make up flood embankments and their foundations. ERT is sensitive to moisture content, clay content and porosity, whereas MASW is sensitive to elastic properties controlled by material strength, density, porosity and saturation. In this work we combine co-located ERT and MASW surveys with time-lapse airborne lidar on three contrasting embankments on the River Thames, River South Tyne, and the Humber Estuary. Each site was selected based on known anomalies or the availability of existing geotechnical information to ground truth the geophysical measurements. The three embankments represent a range of different soil types, ages and varying foundation materials, making an ideal suite of targets to test the different geophysical methods. In total c. 1 km of embankment was surveyed. Preliminary analysis shows good spatial agreement between units imaged by the ERT and those identified in the borehole data for each site. Areas of greatest settlement identified using time-lapse lidar also correlate with low resistivity anomalies indicating areas of soft clay and peat. Further data analysis will incorporate the MASW results and use clustering to quantitatively divide the subsurface into units with similar electrical and seismic properties. Geotechnical properties will then be attributed to each of the clusters, allowing more accurate fragility analysis of the embankment during flood conditions to be conducted.

Published

2022

23. Importance of shallow subsurface and built environment characterization on assessing coastal landscape morphological evolution from hours to decadal time scales: application to complex landforms along Andalucía (Spain) coastline

Author

Manuel Cobos, Andrés Payo, Dave Favis-Mortlock, Helen F. Burke, Dave Morgan, Gareth Jenkins, Helen Smith, Thomas J. Fletcher, Pedro Otíñar, Pedro Magaña, and Asunción Baquerizo

Published

2022

24. Spermidine/spermine-N 1-acetyltransferase ablation impacts tauopathy-induced polyamine stress response

Author

Devon Placides, Kevin Nash, Marcia N. Gordon, Mallory D. Watler, Dave Morgan, Andrii Kovalenko, April L. Lussier, Edwin J. Weeber, Sarah N. Fontaine, Laura J. Blair, Jerry B. Hunt, Leslie A. Sandusky-Beltran, Chad A. Dickey, Daniel C. Lee, Jeremy D. Baker, April L. Darling, John Ivan T. Calahatian, Maj-Linda B. Selenica, Chao Ma, and Mackenzie D. Martin

Subjects

0301 basic medicine, Cognitive Neuroscience, Spermine, Hippocampus, lcsh:RC346-429, lcsh:RC321-571, Polyamine dysregulation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, mental disorders, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Caspase, lcsh:Neurology. Diseases of the nervous system, biology, Chemistry, Wild type, medicine.disease, Cell biology, Spermidine, 030104 developmental biology, Neurology, Knockout mouse, biology.protein, Polyamine homeostasis, Neurology (clinical), Tauopathy, Tau, Polyamine, Alzheimer’s disease, 030217 neurology & neurosurgery

Abstract

Background Tau stabilizes microtubules; however, in Alzheimer’s disease (AD) and tauopathies, tau becomes hyperphosphorylated, aggregates, and results in neuronal death. Our group recently uncovered a unique interaction between polyamine metabolism and tau fate. Polyamines exert an array of physiological effects that support neuronal function and cognitive processing. Specific stimuli can elicit a polyamine stress response (PSR), resulting in altered central polyamine homeostasis. Evidence suggests that elevations in polyamines following a short-term stressor are beneficial; however, persistent stress and subsequent PSR activation may lead to maladaptive polyamine dysregulation, which is observed in AD, and may contribute to neuropathology and disease progression. Methods Male and female mice harboring tau P301L mutation (rTg4510) were examined for a tau-induced central polyamine stress response (tau-PSR). The direct effect of tau-PSR byproducts on tau fibrillization and oligomerization were measured using a thioflavin T assay and a N2a split superfolder GFP-Tau (N2a-ssGT) cell line, respectively. To therapeutically target the tau-PSR, we bilaterally injected caspase 3-cleaved tau truncated at aspartate 421 (AAV9 Tau ΔD421) into the hippocampus and cortex of spermidine/spermine-N 1-acetyltransferase (SSAT), a key regulator of the tau-PSR, knock out (SSAT-/-), and wild type littermates, and the effects on tau neuropathology, polyamine dysregulation, and behavior were measured. Lastly, cellular models were employed to further examine how SSAT repression impacted tau biology. Results Tau induced a unique tau-PSR signature in rTg4510 mice, notably in the accumulation of acetylated spermidine. In vitro, higher-order polyamines prevented tau fibrillization but acetylated spermidine failed to mimic this effect and even promoted fibrillization and oligomerization. AAV9 Tau ΔD421 also elicited a unique tau-PSR in vivo, and targeted disruption of SSAT prevented the accumulation of acetylated polyamines and impacted several tau phospho-epitopes. Interestingly, SSAT knockout mice presented with altered behavior in the rotarod task, the elevated plus maze, and marble burying task, thus highlighting the impact of polyamine homeostasis within the brain. Conclusion These data represent a novel paradigm linking tau pathology and polyamine dysfunction and that targeting specific arms within the polyamine pathway may serve as new targets to mitigate certain components of the tau phenotype.

Published

2019

25. Leveraging amino acid sensors as therapeutic targets for tauopathies and related dementias

Author

Daniel Sejer Pedersen, Mani Kallupurackal, Andrii Kovalenko, Huimin Liang, Shalini Pandey, Hans Bräuner-Osborne, Dave Morgan, Chao Ma, Paula C. Bickford, John Ivan T. Calahatian, Maj-Linda B. Selenica, Daniel C. Lee, Danielle M. Blazier, Trond Ulven, Jerry B. Hunt, Camilla Michalski, Margaret Fahnestock, and Leslie A. Sandusky-Beltran

Subjects

chemistry.chemical_classification, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, chemistry, Epidemiology, Health Policy, Neurology (clinical), Computational biology, Geriatrics and Gerontology, Amino acid

Published

2020

26. Utilizing a mobile clinical trials unit: Lessons learned from the first three years

Author

Amanda Smith, Juris Janavs, Melissa Andrade, Dave Morgan, Heather Wynne-Phillips, Patricia Lowe, Kelly Rodrigo, Myriam Vasquez-Ramos, Patricia Epstein, Ijeoma, Elisabeth Burnett, Beth Major, and Myrna DeJesus Flynn

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, medicine.medical_specialty, Developmental Neuroscience, Clinical trials unit, Epidemiology, business.industry, Health Policy, Medicine, Medical physics, Neurology (clinical), Geriatrics and Gerontology, business

Published

2020

27. CCL2 Overexpression in the Brain Promotes Glial Activation and Accelerates Tau Pathology in a Mouse Model of Tauopathy

Author

Anisha Kesarwani, Zainuddin Quadri, Deanna Chan, Patricia V Rocha-Rangel, Marcia N. Gordon, Daniel C. Lee, Jordan Hunter, Kevin Nash, Frank Zamudio, Maj-Linda B. Selenica, Dave Morgan, and Aurelie Joly-Amado

Subjects

Male, lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Chemokine, Transgene, Immunology, CCL3, Mice, Transgenic, tau Proteins, CCL5, neuroinflammation, Amyloid beta-Protein Precursor, 03 medical and health sciences, 0302 clinical medicine, monocyte chemoattractant protein-1 (MCP-1), Presenilin-1, medicine, Animals, Immunology and Allergy, tau, Chemokine CCL2, CCL11, Neuroinflammation, Original Research, Aβ, biology, Microglia, Chemistry, Brain, Alzheimer's disease, medicine.disease, gene therapy, Up-Regulation, Cell biology, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Tauopathies, Mutation, Disease Progression, biology.protein, Cytokines, Female, Tauopathy, Inflammation Mediators, lcsh:RC581-607, Neuroglia, Signal Transduction, 030215 immunology

Abstract

Innate immune activation is a major contributor to Alzheimer's Disease (AD) pathophysiology, although the mechanisms involved are poorly understood. Chemokine C-C motif ligand (CCL) 2 is produced by neurons and glial cells and is upregulated in the AD brain. Transgene expression of CCL2 in mouse models of amyloidosis produces microglia-induced amyloid β oligomerization, a strong indication of the role of these activation pathways in the amyloidogenic processes of AD. We have previously shown that CCL2 polarizes microglia in wild type mice. However, how CCL2 signaling contributes to tau pathogenesis remains unknown. To address this question, CCL2 was delivered via recombinant adeno-associated virus serotype 9 into both cortex and hippocampus of a mouse model with tau pathology (rTg4510). We report that CCL2 overexpression aggravated tau pathology in rTg4510 as shown by the increase in Gallyas stained neurofibrillary tangles as well as phosphorylated tau-positive inclusions. In addition, biochemical analysis showed a reduction in the levels of detergent-soluble tau species followed by increase in the insoluble fraction, indicating a shift toward larger tau aggregates. Indeed, increased levels of high molecular weight species of phosphorylated tau were found in the mice injected with CCL2. We also report that worsening of tau pathology following CCL2 overexpression was accompanied by a distinct inflammatory response. We report an increase in leukocyte common antigen (CD45) and Cluster of differentiation 68 (CD68) expression in the brain of rTg4510 mice without altering the expression levels of a cell-surface protein Transmembrane Protein 119 (Tmem119) and ionized calcium-binding adaptor molecule 1 (Iba-1) in resident microglia. Furthermore, the analysis of cytokines in brain extract showed a significant increase in interleukin (IL)-6 and CCL3, while CCL5 levels were decreased in CCL2 mice. No changes were observed in IL-1α, IL-1β, TNF-α. IL-4, Vascular endothelial growth factor-VEGF, IL-13 and CCL11. Taken together our data report for the first time that overexpression of CCL2 promotes the increase of pathogenic tau species and is associated with glial neuroinflammatory changes that are deleterious. We propose that these events may contribute to the pathogenesis of Alzheimer's disease and other tauopathies.

Published

2020

28. Active immunization with tau epitope in a mouse model of tauopathy induced strong antibody response together with improvement in short memory and pSer396-tau pathology

Author

H.J. Paek, David H. Cribbs, K. Serraneau, Tatevik Antonyan, P. Jules, Nikolai Petrovsky, Anahit Ghochikyan, A. Zitnyar, Marcia N. Gordon, Hayk Davtyan, Aurelie Joly-Amado, E. Pressman, Michael G. Agadjanyan, Karen Zagorski, Dave Morgan, and Armine Hovakimyan

Subjects

0301 basic medicine, Genetically modified mouse, Alzheimer Vaccines, Mice, Transgenic, tau Proteins, Active immunotherapy, Active immunization, Epitope, Article, lcsh:RC321-571, 03 medical and health sciences, Epitopes, Mice, 0302 clinical medicine, Immune system, Immunogenicity, Vaccine, Memory, Medicine, Animals, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, biology, business.industry, Immunogenicity, Vaccination, medicine.disease, Disease Models, Animal, 030104 developmental biology, Neurology, Tauopathies, Immunology, Antibody Formation, biology.protein, Tauopathy, Antibody, business, 030217 neurology & neurosurgery

Abstract

Abnormal tau hyperphosphorylation and its aggregation into neurofibrillary tangles are a hallmark of tauopathies, neurodegenerative disorders that include Alzheimer’s disease (AD). Active and passive Tau-immunotherapy has been proposed as a therapeutic approach to AD with mixed results. One of the limitations of active immunotherapy may be associated with the mediocre immunogenicity of vaccines that are not inducing therapeutically potent titers of antibodies. The aim of this study was to test the efficacy of an anti-tau vaccine, AV-1980R/A composed of N terminal peptide of this molecule fused with an immunogenic MultiTEP platform and formulated in a strong adjuvant, Advax(CpG) in a Tg4510 mouse model of tauopathy. Experimental mice were immunized with AV-1980R/A and a control group of mice were injected with adjuvant only. Nontransgenic and tetracycline transactivator (tTA) transgenic littermates were included as baseline controls to contrast with the tau phenotype. Active immunization with AV-1980R/A induced very strong anti-tau humoral immune responses in both nontransgenic and transgenic mice with evidence of IgG in brains of AV-1980R/A vaccinated mice. These experimental animals displayed an improvement in short-term memory during a novel object recognition test. However, impairments in other behavioral tasks were not prevented by AV-1980R/A vaccinations. At the same time, high titers of anti-tau antibodies reduced hyperphosphorylated pSer396 tau but did not lower the level of other phosphorylated tau species in the brains of AV-1980R/A vaccinated mice. These data indicate that active immunotherapy with an N-terminal Tau epitope was only partially effective in improving cognition and reducing pathology in the stringent Tg4510 mouse model of tauopathy.

Published

2020

29. CNS-Wide over Expression of Fractalkine Improves Cognitive Functioning in a Tauopathy Model

Author

Kevin Nash, Marcia N. Gordon, Dylan J. Finneran, and Dave Morgan

Subjects

Central Nervous System, Vascular Endothelial Growth Factor A, 0301 basic medicine, Chemokine, Immunology, Central nervous system, Neuroscience (miscellaneous), Neovascularization, Physiologic, Water maze, Hippocampus, Fractalkine, CX3CL1, Cerebral Ventricles, Mice, 03 medical and health sciences, Cognition, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, Cognitive decline, Neuroinflammation, Pharmacology, biology, Microglia, Chemokine CX3CL1, business.industry, medicine.disease, Tauopathy, 030104 developmental biology, medicine.anatomical_structure, Tauopathies, biology.protein, Leukocyte Common Antigens, Original Article, Cognition Disorders, business, Alzheimer’s disease, Neuroscience, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Accumulating evidence increasingly implicates regulation of neuroinflammation as a potential therapeutic target in Alzheimer's disease and other neurodegenerative disorders. Fractalkine (FKN) is a unique chemokine that is expressed and secreted by neurons and reduces expression of pro-inflammatory genes. To further demonstrate the utility of agents that increase FKN signaling throughout the central nervous system as possible therapies for AD, we assessed the impact of soluble FKN (sFKN) over expression on cognition in tau depositing rTg450 mice after the onset of cognitive deficits. Using adeno-associated virus serotype 4, we infected cells lining the ventricular system with soluble FKN to increase FKN signaling over a larger fraction of the brain than achieved with intraparenchymal injections. We found that soluble FKN over expression by cells lining the ventricles significantly improved cognitive performance on the novel mouse recognition and radial arm water maze tasks. These benefits were achieved without detectable reductions in tau hyperphosphorylation, hippocampal atrophy, or microglial CD45 expression. Utilizing qPCR, we report a significant increase in Vegfa expression, indicating an increase in trophic support and possible neovascularization in AAV-sFKN-injected mice. To our knowledge, this is the first demonstration that FKN over expression can rescue cognitive function in a tau depositing mouse line. Graphical Abstract Regulating neuroinflammation is an attractive therapeutic target for Alzheimer's disease. Microglial activation can not only drive pathology but also accelerate cognitive decline. The chemokine fractalkine regulates the microglial phenotype, increasing trophic support of neurons, and significantly improving cognitive functioning in the rTg4510 mouse model of tauopathy.

Published

2018

30. Evaluation of Holistic Treatment for ALS Reveals Possible Mechanism and Therapeutic Potential

Author

Andrea, Lavado, Xiufang, Guo, Alec St, Smith, Nesar, Akanda, Candace, Martin, Yunqing, Cai, Dan, Elbrecht, My, Tran, Jean-Paul, Bryant, Alisha, Colon, Christopher J, Long, Stephen, Lambert, Dave, Morgan, and James J, Hickman

Subjects

Article

Abstract

There has been a tremendous amount of research into the causes of Amyotrophic Lateral Sclerosis (ALS), but yet very few treatment options beyond amelioration of symptoms. A holistic approach has shown anecdotal evidence of slowing disease progression and this treatment, known as the Deanna protocol (DP), postulates that ALS is a metabolic disease caused by glutamate that induces toxicity. In this study, glutamate exposure to human motoneurons was investigated and found not to significantly affect cell viability or electrophysiological properties. However, varicosities were observed in axons suggestive of transport impairment that was dose dependent for glutamate exposure. Surprisingly, a subset of the components of the DP eliminated these varicosities. To verify this finding a human SOD1 patient-derived iPSC line was examined and significant numbers of varicosities were present without glutamate treatment, compared to the iPSC control, indicating the possibility of a common mechanism despite different origins for the varicosities. Importantly, the DP ameliorated these varicosities by over 70% in the patient derived cells as well. These results are consistent with much of the literature on ALS and give hope for treatment not only for arresting disease progression using compounds considered safe but also the potential for restoration of function.

Published

2019

31. Adeno associated viral-mediated intraosseous labeling of bone marrow derived cells for CNS tracking

Author

Daniel C. Lee, Patrick Reid, Gabriela Pena, Dave Morgan, Marcia N. Gordon, Jennifer Alvarez, Kevin Nash, Maj Linda B. Selenica, and Jerry B. Hunt

Subjects

0301 basic medicine, Chemokine, Myeloid, Genetic enhancement, Genetic Vectors, Green Fluorescent Proteins, Immunology, Bone Marrow Cells, Inflammation, Gene delivery, Article, 03 medical and health sciences, 0302 clinical medicine, Genes, Reporter, Transduction, Genetic, medicine, Animals, Immunology and Allergy, Bone Marrow Transplantation, CD11b Antigen, biology, Monocyte, Lentivirus, Brain, Genetic Therapy, Dependovirus, Mice, Inbred C57BL, Disease Models, Animal, Haematopoiesis, Phenotype, 030104 developmental biology, medicine.anatomical_structure, Cell Tracking, Cancer research, biology.protein, Bone marrow, medicine.symptom, Biomarkers, 030217 neurology & neurosurgery

Abstract

Inflammation, including microglial activation in the CNS, is an important hallmark in many neurodegenerative diseases. Microglial stimuli not only impact the brain microenvironment by production and release of cytokines and chemokines, but also influence the activity of bone marrow derived cells and blood born macrophage populations. In many diseases including brain disorders and spinal cord injury, researchers have tried to harbor the neuroprotective and repair properties of these subpopulations. Hematopoietic bone marrow derived cells (BMDCs) are of great interest, especially during gene therapy because certain hematopoietic cell subpopulations traffic to the sites of injury and inflammation. The aim of this study was to develop a method of labeling endogenous bone marrow derived cells through intraosseous impregnation of recombinant adeno-associated virus (rAAV) or lentivirus. We utilized rAAV serotype 9 (rAAV-9) or lentivirus for gene delivery of green florescence protein (GFP) to the mouse bone marrow cells. Flow cytometry showed that both viruses were able to efficiently transduce mouse bone marrow cells in vivo. However, the rAAV9-GFP viral construct transduced BMDCs more efficiently than the lentivirus (11.2% vs. 6.8%), as indicated by cellular GFP expression. We also demonstrate that GFP labeled cells correspond to bone marrow cells of myeloid origin using CD11b as a marker. Additionally, we characterized the ability of bone marrow derived, GFP labeled cells to extravasate into the brain parenchyma upon acute and subchronic neuroinflammatory stimuli in the mouse CNS. Viral mediated over expression of chemokine (C-C motif) ligand 2 (CCL2) or intracranial injection of lipopolysaccharide (LPS) recruited GFP labeled BMDCs from the periphery into the brain parenchyma compared to vehicle treated mice. Altogether our findings demonstrate a useful method of labeling endogenous BMDCs via viral transduction and the ability to track subpopulations throughout the body following insult or injury. Alternatively, this method might find utility in delivering therapeutic genes for neuroinflammatory conditions.

Published

2016

32. P1‐065: LATE STAGE ALZHEIMER'S DRUGS HIGHLIGHT INNOVATIONS IN TREATMENT: AN ANALYSIS OF THE PHASE 2 AND 3 ALZHEIMER'S DRUG PIPELINE

Author

Dave Morgan

Subjects

Oncology, medicine.medical_specialty, Epidemiology, business.industry, Health Policy, Late stage, Phase (combat), Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Internal medicine, medicine, Neurology (clinical), Geriatrics and Gerontology, Drug pipeline, business

Published

2018

33. P3‐028: UTILIZING A MOBILE CLINICAL TRIAL UNIT TO ENHANCE RECRUITMENT IN PREVENTION TRIALS FOR ALZHEIMER'S DISEASE

Author

Dave Morgan, Jill S. Smith, and Amanda Smith

Subjects

medicine.medical_specialty, Epidemiology, business.industry, Health Policy, Disease, Unit (housing), Clinical trial, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, medicine, Neurology (clinical), Geriatrics and Gerontology, Prevention trials, Intensive care medicine, business

Published

2018

34. P3‐176: AGE AS A PREDICTOR OF DIFFERENT PHYSIOLOGICAL FORMS OF TAU

Author

Dave Morgan, Aurélie Joly-Amado, Marcia N. Gordon, and Amber M. Tetlow

Subjects

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

Published

2018

35. Spermidine/spermine-N

Author

Leslie A, Sandusky-Beltran, Andrii, Kovalenko, Chao, Ma, John Ivan T, Calahatian, Devon S, Placides, Mallory D, Watler, Jerry B, Hunt, April L, Darling, Jeremy D, Baker, Laura J, Blair, Mackenzie D, Martin, Sarah N, Fontaine, Chad A, Dickey, April L, Lussier, Edwin J, Weeber, Maj-Linda B, Selenica, Kevin R, Nash, Marcia N, Gordon, Dave, Morgan, and Daniel C, Lee

Subjects

Male, Mice, Knockout, Research, tau Proteins, Hippocampus, Protein Aggregation, Pathological, Mice, Inbred C57BL, Polyamine dysregulation, Tauopathies, Acetyltransferases, Stress, Physiological, mental disorders, Polyamines, Animals, Female, Tau, Alzheimer’s disease

Abstract

Background Tau stabilizes microtubules; however, in Alzheimer’s disease (AD) and tauopathies, tau becomes hyperphosphorylated, aggregates, and results in neuronal death. Our group recently uncovered a unique interaction between polyamine metabolism and tau fate. Polyamines exert an array of physiological effects that support neuronal function and cognitive processing. Specific stimuli can elicit a polyamine stress response (PSR), resulting in altered central polyamine homeostasis. Evidence suggests that elevations in polyamines following a short-term stressor are beneficial; however, persistent stress and subsequent PSR activation may lead to maladaptive polyamine dysregulation, which is observed in AD, and may contribute to neuropathology and disease progression. Methods Male and female mice harboring tau P301L mutation (rTg4510) were examined for a tau-induced central polyamine stress response (tau-PSR). The direct effect of tau-PSR byproducts on tau fibrillization and oligomerization were measured using a thioflavin T assay and a N2a split superfolder GFP-Tau (N2a-ssGT) cell line, respectively. To therapeutically target the tau-PSR, we bilaterally injected caspase 3-cleaved tau truncated at aspartate 421 (AAV9 Tau ΔD421) into the hippocampus and cortex of spermidine/spermine-N1-acetyltransferase (SSAT), a key regulator of the tau-PSR, knock out (SSAT-/-), and wild type littermates, and the effects on tau neuropathology, polyamine dysregulation, and behavior were measured. Lastly, cellular models were employed to further examine how SSAT repression impacted tau biology. Results Tau induced a unique tau-PSR signature in rTg4510 mice, notably in the accumulation of acetylated spermidine. In vitro, higher-order polyamines prevented tau fibrillization but acetylated spermidine failed to mimic this effect and even promoted fibrillization and oligomerization. AAV9 Tau ΔD421 also elicited a unique tau-PSR in vivo, and targeted disruption of SSAT prevented the accumulation of acetylated polyamines and impacted several tau phospho-epitopes. Interestingly, SSAT knockout mice presented with altered behavior in the rotarod task, the elevated plus maze, and marble burying task, thus highlighting the impact of polyamine homeostasis within the brain. Conclusion These data represent a novel paradigm linking tau pathology and polyamine dysfunction and that targeting specific arms within the polyamine pathway may serve as new targets to mitigate certain components of the tau phenotype. Electronic supplementary material The online version of this article (10.1186/s13195-019-0507-y) contains supplementary material, which is available to authorized users.

Published

2018

36. Interpreting Mars ionospheric anomalies over crustal magnetic field regions using a 2‐D ionospheric model

Author

Michael Mendillo, Paul Withers, Majd Matta, and Dave Morgan

Subjects

Spacecraft, business.industry, Mars Exploration Program, Geophysics, Plasma, Physics::Geophysics, Magnetic field, Solar wind, Space and Planetary Science, Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics, Ionosphere, business, Geology

Abstract

The spatially inhomogeneous, small-scale crustal magnetic fields of Mars influence the escape of planetary atmospheric species and the interaction of the solar wind with the ionosphere. Understanding the plasma response to crustal magnetic field regions can therefore provide insight to ionospheric structure and dynamics. To date, several localized spatial structures in ionospheric properties that have been observed over regions of varying magnetic field at Mars have yet to be explained. In this study, a two-dimensional ionospheric model is used to simulate the effects of field-aligned plasma transport in regions of strong crustal magnetic fields. Resulting spatial and diurnal plasma distributions are analyzed and found to agree with observations from several spacecraft and offer compelling interpretations for many of the anomalous ionospheric behaviors observed at or near regions of strong crustal magnetic fields on Mars.

Published

2015

37. Partial rescue of memory deficits induced by calorie restriction in a mouse model of tau deposition

Author

Sana Azam, Brent J. Small, Maj Linda B. Selenica, Milene Brownlow, Dave Morgan, Colleen Pappas, Robert W. Engelman, Aurelie Joly-Amado, Marcia N. Gordon, and Mike Elza

Subjects

Genetically modified mouse, medicine.medical_specialty, Calorie, Calorie restriction, Mice, Transgenic, tau Proteins, Water maze, Open field, Developmental psychology, Eating, Mice, Behavioral Neuroscience, Cognition, Alzheimer Disease, Memory, Internal medicine, medicine, Animals, Novel object recognition, Caloric Restriction, Microglia, Body Weight, Disease Models, Animal, Treatment Outcome, Endocrinology, medicine.anatomical_structure, Conditioning, Psychology

Abstract

Calorie restriction (CR) was shown previously to improve cognition and decrease pathology in transgenic mouse models with Alzheimer-like amyloid deposition. In the present study, we investigated the effects of CR on the Tg4510 model of tau deposition. Mice in the calorie restriction group had food intake gradually decreased until they reached an average of 35% body weight reduction. Body weight and food intake were monitored throughout the study. After being on their respective diets for 3 months, all animals were submitted to behavioral testing. Tg4510 mice fed ad libitum showed lower body weight than nontransgenic littermates despite their increased food intake. Additionally, Tg4510 showed increased locomotor activity in the open field regardless of diet. Calorie restricted Tg4510 mice performed significantly better than ad libitum fed mice in the novel object recognition test, suggesting improved short-term memory. CR Tg4510 mice also performed significantly better in contextual fear conditioning than mice fed ad libitum. However, in a modified version of the novelty test that allows for interaction with other mice instead of inanimate objects, CR was not able to rescue the deficit found in Tg4510 mice in this ethologically more salient version of the task. No treatment differences in motor performance or spatial memory were observed in the rotarod or radial arm water maze tests, respectively. Histopathological and biochemical assessments showed no diet-induced changes in total or phospho-tau levels. Moreover, increased activation of both astrocytes and microglia in Tg4510 mice was not rescued by calorie restriction. Taken together, our data suggests that, despite an apparent rescue of associative memory, CR had no consistent effects on pathological outcomes of a mouse model of tau deposition.

Published

2014

38. P2-028: 2019 ALZHEIMER'S DRUG PIPELINE REPORT: THE PATH TO A CURE

Author

Dave Morgan and ResearchersAgainstAlzheimer's

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, business.industry, Computer science, Health Policy, Path (graph theory), Neurology (clinical), Geriatrics and Gerontology, Drug pipeline, business, Computer network

Published

2019

39. P2-077: HIPSC-DERIVED CORTICAL NEURON HUMAN-ON-A-CHIP SYSTEM TO STUDY Aβ- AND TAU-INDUCED NEUROTOXICITIES IN ALZHEIMER'S DISEASE WITH AN IMPLICATION FOR DRUG DISCOVERY

Author

Dave Morgan, Frank Sommerhage, Julbert Caneus, Nesar Akenda, John W. Rumsey, Xiufang Guo, James J. Hickman, Christopher J. Long, Saya Georgieva, and Max Jackson

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Cortical neuron, Drug discovery, Health Policy, Neurology (clinical), Disease, Geriatrics and Gerontology, Biology, Neuroscience

Published

2019

40. P4-158: CHANGES ACROSS THE LIFESPAN IN TG4510 MICE

Author

Amber M. Tetlow, Dave Morgan, Aurelie Joly-Amado, and Marcia N. Gordon

Subjects

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

Published

2019

41. Aging enhances classical activation but mitigates alternative activation in the central nervous system

Author

Jerry B. Hunt, Rahil Rojiani, Daniel C. Lee, Lori Lebson, Claudia R. Ruiz, Sidharth Kammath, Kevin Nash, Maj Linda B. Selenica, Patrick Reid, Chad A. Dickey, Justin Rizer, Marcia N. Gordon, and Dave Morgan

Subjects

Aging, Microglia, Microarray analysis techniques, General Neuroscience, Central nervous system, Interleukin, Inflammation, Biology, medicine.anatomical_structure, Immunology, medicine, Tumor necrosis factor alpha, Neurology (clinical), Geriatrics and Gerontology, medicine.symptom, CXCL13, Neuroinflammation, Developmental Biology

Abstract

The roles of microglia and macrophages during neuroinflammation and neurodegenerative diseases remain controversial. To date, at least 2 activations states have been suggested, consisting of a classical response (M1) and the alternative response (M2). Identifying selective biomarkers of microglia that representative their functional activation states may help elucidate disease course and enable a better understanding of repair mechanisms. Two cocktails containing either tumor necrosis factor (TNF)-α, interleukin (IL)-12, and IL-1β (referred to as CKT-1) or IL-13 and IL-4 (referred to CKT-2) were injections into the hippocampus of mice aged 6, 12, or 24 months. Microarray analysis was performed on hippocampal tissue 3 days postinjection. Gene transcripts were compared between CKT-1 versus CKT-2 stimulator cocktails. Several selective transcripts expressed for the CKT-1 included CXCL13, haptoglobin, MARCO, and calgranulin B, whereas a smaller subset of genes was selectively induced by the CKT-2 and consisted of FIZZ1, IGF-1, and EAR 11. Importantly, selective transcripts were induced at all ages by CKT-1, whereas selective gene transcripts induced by CKT-2 decreased with age suggesting an age-related reduction in the IL-4/ IL-13 signaling pathway.

Published

2013

42. Review: Experimental manipulations of microglia in mouse models of Alzheimer's pathology: activation reduces amyloid but hastens tau pathology

Author

Justin Rizer, Maj-Linda B. Selenica, Jerry B. Hunt, Marcia N. Gordon, Dave Morgan, and Daniel C. Lee

Subjects

medicine.medical_specialty, Pathology, Histology, Microglia, Amyloid, biology, business.industry, Neurodegeneration, Tau protein, Anatomical pathology, medicine.disease, Pathology and Forensic Medicine, medicine.anatomical_structure, Neurology, Physiology (medical), mental disorders, Immunology, medicine, biology.protein, Neuroglia, Neurology (clinical), Tauopathy, Alzheimer's disease, business

Abstract

The inflammation hypothesis of Alzheimer's pathogenesis has directed much scientific effort towards ameliorating this disease. The development of mouse models of amyloid deposition permitted direct tests of the proposal that amyloid-activated microglia could cause neurodegeneration in vivo. Many approaches to manipulating microglial activation have been applied to these mouse models, and are the subject of this review. In general, these results do not support a direct neuricidal action of microglia in mouse amyloid models under any activation state. Some of the manipulations cause both a reduction in pathology and a reduction in microglial activation. However, at least for agents like ibuprofen, this outcome may result from a direct action on amyloid production, and a reduction in the microglial-provoking amyloid deposits, rather than from reduced microglial activation leading to a decline in amyloid deposition. Instead, a surprising number of the experimental manipulations which increase microglial activation lead to enhanced clearance of the amyloid deposits. Both the literature and new data presented here suggest that either classical or alternative activation of microglia can lead to enhanced amyloid clearance. However, a limited number of studies comparing the same treatments in amyloid-depositing vs. tau-depositing mice find the opposite effects. Treatments that benefit amyloid pathology accelerate tau pathology. This observation argues strongly that potential treatments be tested for impact on both amyloid and tau pathology before consideration of testing in humans.

Published

2013

43. GRK5 Deficiency Leads to Selective Basal Forebrain Cholinergic Neuronal Vulnerability

Author

Longxuan Li, Jun Liu, Minchao He, Wei Peng, Russell H. Swerdlow, Richard T. Premont, Shaowu Cheng, Qiang Zhang, Prabhakar Singh, Xue-Feng Ding, Dave Morgan, William Z. Suo, and Jeffery M. Burns

Subjects

0301 basic medicine, G-Protein-Coupled Receptor Kinase 5, medicine.medical_specialty, Basal Forebrain, Mice, Transgenic, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Alzheimer Disease, Internal medicine, medicine, Animals, Humans, Cholinergic neuron, Mice, Knockout, Basal forebrain, Multidisciplinary, Neurodegeneration, Wild type, medicine.disease, Cholinergic Neurons, Disease Models, Animal, 030104 developmental biology, Endocrinology, Knockout mouse, Cholinergic, Dementia, Alzheimer's disease, Neuroscience, 030217 neurology & neurosurgery

Abstract

Why certain diseases primarily affect one specific neuronal subtype rather than another is a puzzle whose solution underlies the development of specific therapies. Selective basal forebrain cholinergic (BFC) neurodegeneration participates in cognitive impairment in Alzheimer’s disease (AD), yet the underlying mechanism remains elusive. Here, we report the first recapitulation of the selective BFC neuronal loss that is typical of human AD in a mouse model termed GAP. We created GAP mice by crossing Tg2576 mice that over-express the Swedish mutant human β-amyloid precursor protein gene with G protein-coupled receptor kinase-5 (GRK5) knockout mice. This doubly defective mouse displayed significant BFC neuronal loss at 18 months of age, which was not observed in either of the singly defective parent strains or in the wild type. Along with other supporting evidence, we propose that GRK5 deficiency selectively renders BFC neurons more vulnerable to degeneration.

Published

2016

44. Chronological Age Impacts Immunotherapy and Monocyte Uptake Independent of Amyloid Load

Author

Lori Lebson, Qingyou Li, Daniel C. Lee, Marcia N. Gordon, Dave Morgan, Maj Linda B. Selenica, Arnon Rosenthal, Kevin Nash, and Jan Grimm

Subjects

Genetically modified mouse, Amyloid, medicine.medical_treatment, Transgene, Immunology, Neuroscience (miscellaneous), Enzyme-Linked Immunosorbent Assay, Mice, Transgenic, Monocytes, Mice, Alzheimer Disease, Cell Movement, mental disorders, medicine, Animals, Humans, Immunology and Allergy, Young adult, Pharmacology, biology, business.industry, Monocyte, Age Factors, Brain, Immunotherapy, medicine.disease, Disease Models, Animal, medicine.anatomical_structure, Monoclonal, biology.protein, Antibody, business, Infiltration (medical)

Abstract

One vexing issue in biomedical research is the failure of many therapies to translate from success in animal models to effective treatment of human disease. One significant difference between the animal models and the human disease is the age of the subject. Cancer, stroke and Alzheimer's occur mainly in humans beyond the 75% mean survival age, while most mouse models use juvenile or young adult animals. Here we compare two mouse models of amyloid deposition, the Tg2576 APP model and the more aggressive APP+PS1 model in which a mutant presenilin1 gene is overexpressed with Tg2576. Middle-aged APP+PS1 mice and aged APP mice have similar degrees of amyloid pathology with a few differences that may partially explain some of the differences between the two age cohorts. The first study evaluated production of microhemorrhage by a monoclonal anti-Aβ antibody. We found that in spite of greater amyloid clearance in middle-aged APP+PS1 mice than aged APP mice, the microhemorrhage only developed in old animals. This argues that preclinical studies of immunotherapy in young or middle-aged mice may not predict this potential liability in clinical trials. A second study evaluated the infiltration of systemically injected GFP labeled monocytes into the CNS. Here we find that infiltration is greater in aged mice than middle-aged mice, in spite of greater total Aß staining in the middle-aged animals. We conclude that preclinical studies should be conducted in aged animal models as well as young mice to better prepare for unintended consequences in the human trial.

Published

2011

45. Mutant presenilin-1 deregulated peripheral immunity exacerbates Alzheimer-like pathology

Author

William V. Nikolic, Frank Fernandez, Dave Morgan, Huayan Hou, Terrence Town, Demian Obregon, Brian Giunta, Jared Ehrhart, Takashi Mori, Jun Tan, Yangbing Zhao, and Yuyan Zhu

Subjects

Pathology, medicine.medical_specialty, animal diseases, Transgene, microglia, Mice, Transgenic, Plaque, Amyloid, Aβ plaques, Biology, Presenilin, Amyloid beta-Protein Precursor, Mice, 03 medical and health sciences, Th2 Cells, 0302 clinical medicine, Immune system, Alzheimer Disease, Immunity, mental disorders, Presenilin-1, medicine, Amyloid precursor protein, Animals, bone marrow cells, 030304 developmental biology, 0303 health sciences, CD11b Antigen, Microglia, Brain, Articles, Cell Biology, Th1 Cells, 3. Good health, Haematopoiesis, medicine.anatomical_structure, Mutation, Immunology, biology.protein, Cytokines, Molecular Medicine, Mutant Proteins, Bone marrow, immune, Alzheimer’s disease, 030217 neurology & neurosurgery

Abstract

Mutations in the presenilin-1 (PS1) gene are independent causes of familial Alzheimer's disease (AD). AD patients have dysregulated immunity, and PS1 mutant mice exhibit abnormal systemic immune responses. To test whether immune function abnormality caused by a mutant human PS1 gene (mhPS1) could modify AD-like pathology, we reconstituted immune systems of AD model mice carrying a mutant human amyloid precursor protein gene (mhAPP; Tg2576 mice) or both mhAPP and mhPS1 genes (PSAPP mice) with allo-geneic bone marrow cells. Here, we report a marked reduction in amyloid-β (Aβ) levels, β-amyloid plaques and brain inflammatory responses in PSAPP mice following strain-matched wild-type PS1 bone marrow reconstitution. These effects occurred with immune switching from pro-inflammatory T helper (Th) 1 to anti-inflammatory Th2 immune responses in the periphery and in the brain, which likely instructed microglia to phagocytose and clear Aβ in an ex vivo assay. Conversely, Tg2576 mice displayed accelerated AD-like pathology when reconstituted with mhPS1 bone marrow. These data show that haematopoietic cells bearing the mhPS1 transgene exacerbate AD-like pathology, suggesting a novel therapeutic strategy for AD based on targeting PS1 in peripheral immune cells.

Published

2011

46. Immunotherapy for Alzheimer’s disease

Author

Dave Morgan

Subjects

Genetically modified mouse, biology, Amyloid, business.industry, medicine.medical_treatment, Immunotherapy, medicine.disease, Biochemistry of Alzheimer's disease, Degenerative disease, Immunology, Internal Medicine, medicine, Amyloid precursor protein, biology.protein, Alzheimer's disease, Antibody, business

Abstract

In the year 1999, a vaccine approach was found to reduce amyloid deposits in transgenic mice overproducing the amyloid precursor protein. This was followed closely by demonstrations that vaccines or passive immunotherapy could rescue memory deficits in these mice. Initial human clinical trials revealed apparent autoimmune reactions in a subset of patients, but also some cases of cognitive benefit and amyloid clearance. Further work with passive immunotherapy in mouse models confirmed exceptional clearing abilities of anti-amyloid antibodies even in older mice. However, in parallel with parenchymal amyloid clearance was the appearance of microhaemorrhages and increased vascular amyloid deposition. Additional clinical trials with passive immunotherapy confirmed occasional appearance of microhaemorrhage and occurrence of vasogenic oedema in some patients, particularly those with the apolipoprotein E4 genotype. Recent data with positron emission tomography demonstrates trial participants passively immunized with anti-As antibodies have reduced signals with amyloid binding ligands after 18 months of therapy. Several anti-As immunotherapies have reached phase 3 testing, and immunotherapy is likely to be the first test of the amyloid hypothesis of Alzheimer's disease. Identifying antibody variants that retain amyloid clearance with fewer adverse reactions remains a major focus of translational research in this area.

Published

2010

47. Convection-enhanced delivery and systemic mannitol increase gene product distribution of AAV vectors 5, 8, and 9 and increase gene product in the adult mouse brain

Author

Daniel C. Lee, Nikisha Carty, Carolina Ceballos-Diaz, Marcia N. Gordon, Todd E. Golde, Karen Jansen-West, Dave Morgan, Chad A. Dickey, and Kevin Nash

Subjects

viruses, Genetic enhancement, Genetic Vectors, Green Fluorescent Proteins, Biology, Gene delivery, Convection, medicine.disease_cause, Hippocampus, Article, Viral vector, Stereotaxic Techniques, Gene product, Mice, Gene expression, medicine, Animals, Distribution (pharmacology), Mannitol, Serotyping, Diuretics, Adeno-associated virus, General Neuroscience, Brain, Dependovirus, Molecular biology, Cell biology, Mice, Inbred C57BL, Stereotaxic technique

Abstract

The use of recombinant adeno-associated viral (rAAV) vectors as a means of gene delivery to the central nervous system has emerged as a potentially viable method for the treatment of several types of degenerative brain diseases. However, a limitation of typical intracranial injections into the adult brain parenchyma is the relatively restricted distribution of the delivered gene to large brain regions such as the cortex, presumably due to confined dispersion of the injected particles. Optimizing the administration techniques to maximize gene distribution and gene expression is an important step in developing gene therapy studies. Here, we have found additive increases in distribution when 3 methods to increase brain distribution of rAAV were combined. The convection enhanced delivery (CED) method with the step-design cannula was used to deliver rAAV vector serotypes 5, 8 and 9 encoding GFP into the hippocampus of the mouse brain. While the CED method improved distribution of all 3 serotypes, the combination of rAAV9 and CED was particularly effective. Systemic mannitol administration, which reduces intracranial pressure, also further expanded distribution of GFP expression, in particular, increased expression on the contralateral hippocampi. These data suggest that combining advanced injection techniques with newer rAAV serotypes greatly improves viral vector distribution, which could have significant benefits for implementation of gene therapy strategies.

Published

2010

48. The Role of Microglia in Antibody-Mediated Clearance of Amyloid-Beta from the Brain

Author

Dave Morgan

Subjects

Amyloid, Amyloid beta, medicine.medical_treatment, Phagocytosis, Antibodies, Mice, Alzheimer Disease, mental disorders, medicine, Animals, Humans, Opsonin, Pharmacology, Amyloid beta-Peptides, biology, Microglia, General Neuroscience, Immunotherapy, medicine.disease, medicine.anatomical_structure, Immunology, biology.protein, Antibody, Alzheimer's disease

Abstract

Immunotherapy has emerged as a leading new approach to the reduction of amyloid deposits in the brains of Alzheimer patients. At least 4 distinct actions of anti-Abeta antibodies have been proposed as contributing to the inhibition of amyloid deposition and its clearance. Critically, each of these proposed mechanisms may be acting simultaneously, and it is feasible that different antibodies may utilize each mechanism to a different extent. One of these proposed mechanisms involves the activation of microglia and the phagocytosis of Abeta peptide. In general this is assumed to proceed through the Fcgamma-receptor binding by antibody opsonized Abeta aggregates, however modifying the microglial phenotype into one with a greater propensity for phagocytosing Abeta is also feasible, as microglia avidly phagocytose Abeta in vitro without antibody present. Evidence is presented supporting arguments that microglial activation does play a role in amyloid removal, particularly compacted amyloid deposits, under certain conditions. In addition to the specific antibody used, other considerations in comparing different reports of antibody action in APP mice include the age of the mice, the extent of pre-existing amyloid when therapy is initiated, the time point when the effects of the therapy are examined and the route of antibody administration. Future questions will consider the source of the activated microglia near the plaques after antibody administration (resident or peripheral) and the extent to which shifts in the microglial phenotype mediate some of the amyloid lowering actions of immunotherapy.

Published

2009

49. Amyloid-β protofibril levels correlate with spatial learning in Arctic Alzheimer’s disease transgenic mice

Author

Hillevi Englund, Lars N.G. Nilsson, Fredrik Clausen, Lars Hillered, Linda Söderberg, Anna Lord, Stina M. Fangmark Tucker, Frida Ekholm Pettersson, Lars Lannfelt, Marcia N. Gordon, and Dave Morgan

Subjects

Genetically modified mouse, medicine.medical_specialty, Transgene, Morris water navigation task, Long-term potentiation, Cell Biology, Hippocampal formation, Biology, medicine.disease, Biochemistry, nervous system diseases, Pathogenesis, Endocrinology, Internal medicine, mental disorders, medicine, Senile plaques, Alzheimer's disease, Molecular Biology

Abstract

Oligomeric assemblies of amyloid-beta (Abeta) are suggested to be central in the pathogenesis of Alzheimer's disease because levels of soluble Abeta correlate much better with the extent of cognitive dysfunctions than do senile plaque counts. Moreover, such Abeta species have been shown to be neurotoxic, to interfere with learned behavior and to inhibit the maintenance of hippocampal long-term potentiation. The tg-ArcSwe model (i.e. transgenic mice with the Arctic and Swedish Alzheimer mutations) expresses elevated levels of Abeta protofibrils in the brain, making tg-ArcSwe a highly suitable model for investigating the pathogenic role of these Abeta assemblies. In the present study, we estimated Abeta protofibril levels in the brain and cerebrospinal fluid of tg-ArcSwe mice, and also assessed their role with respect to cognitive functions. Protofibril levels, specifically measured with a sandwich ELISA, were found to be elevated in young tg-ArcSwe mice compared to several transgenic models lacking the Arctic mutation. In aged tg-ArcSwe mice with considerable plaque deposition, Abeta protofibrils were approximately 50% higher than in younger mice, whereas levels of total Abeta were exponentially increased. Young tg-ArcSwe mice showed deficits in spatial learning, and individual performances in the Morris water maze were correlated inversely with levels of Abeta protofibrils, but not with total Abeta levels. We conclude that Abeta protofibrils accumulate in an age-dependent manner in tg-ArcSwe mice, although to a far lesser extent than total Abeta. Our findings suggest that increased levels of Abeta protofibrils could result in spatial learning impairment.

Published

2009

50. Adeno-associated Viral (AAV) Serotype 5 Vector Mediated Gene Delivery of Endothelin-converting Enzyme Reduces Aβ Deposits in APP + PS1 Transgenic Mice

Author

Marcia N. Gordon, Paul E. Gottschall, Dave Morgan, Niki C Carty, Nicholas Muzyczka, Mary Mercer, Craig Meyers, Daniel C. Lee, and Kevin Nash

Subjects

Pharmacology, Genetically modified mouse, Proteases, Genetic enhancement, Hippocampus, Biology, Gene delivery, Molecular biology, Viral vector, Green fluorescent protein, Drug Discovery, Genetics, Amyloid precursor protein, biology.protein, Molecular Medicine, Molecular Biology

Abstract

Reduction of Aβ deposition is a major therapeutic strategy in Alzheimer's disease (AD). The concentration of Aβ in the brain is modulated not only by Aβ production but also by its degradation. One of the proteases involved in the degradation of Aβ peptides is endothelin-converting enzyme (ECE). In this study, we investigated the effects of an intracranial administration of a seroptype 5 recombinant adeno-associated viral vector (rAAV) containing the ECE-1 synthetic gene on amyloid deposition in amyloid precursor protein (APP) plus presenilin-1 (PS1) transgenic mice. The rAAV vector was injected unilaterally into the right anterior cortex and hippocampus of 6-month-old mice, while control mice received an AAV vector expressing green fluorescent protein (GFP). Immunohistochemical testing for the hemagglutinin (HA) tag appended to ECE revealed strong expression in areas surrounding the injection sites but minimal expression in the contralateral regions. Immunohistochemical tests showed that Aβ decreases in the anterior cortex and hippocampus in mice receiving the ECE synthetic gene. Further, decreases in Congo red positive deposits were also observed in both regions. These results indicate that increasing the expression of β-amyloid degrading enzymes through gene therapy is a promising approach to the treatment of AD.

Published

2008