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Articles 1 - 30 of 157

Full-Text Articles in Cell Biology

Mitochondrial Aspects Of Neuronal Pathology In Triple-Transgenic Alzheimer’S Disease Mice, John Zachary Cavendish Jan 2021

Mitochondrial Aspects Of Neuronal Pathology In Triple-Transgenic Alzheimer’S Disease Mice, John Zachary Cavendish

Graduate Theses, Dissertations, and Problem Reports

Alzheimer’s disease (AD) is a fatal, progressive neurodegenerative disease afflicting millions of people in the United States alone and is the only one of the top leading causes of morbidity and mortality with no effective disease-modifying therapies. It is the most common form of dementia, affecting one in three people over the age of 85. While the hallmarks of the disease include accumulation of beta-amyloid-based extracellular plaques and hyperphosphorylated tau-based intracellular neurofibrillary tangles, treatment strategies centered on removing or mitigating these components of AD have all failed in humans. Mitochondrial dysfunction has been increasingly recognized as an early and ...


Micrornas Are Necessary For Bmp-7-Induced Dendritic Growth In Cultured Rat Sympathetic Neurons, Vidya Chandrasekaran Sep 2019

Micrornas Are Necessary For Bmp-7-Induced Dendritic Growth In Cultured Rat Sympathetic Neurons, Vidya Chandrasekaran

Vidya Chandrasekaran

Neuronal connectivity is dependent on size and shape of the dendritic arbor. However, mechanisms controlling dendritic arborization, especially in the peripheral nervous system, are not completely understood. Previous studies have shown that bone morphogenetic proteins (BMPs) are important initiators of dendritic growth in peripheral neurons. In this study, we examined the hypothesis that post-transcriptional regulation mediated by microRNAs (miRNAs) is necessary for BMP-7-induced dendritic growth in these neurons. To examine the role of miRNAs in BMP-7-induced dendritic growth, microarray analyses was used to profile miRNA expression in cultured sympathetic neurons from the superior cervical ganglia of embryonic day 21 rat ...


Hyaluronan At The Brain-Environment Interface, Donald M. Thevalingam Sep 2019

Hyaluronan At The Brain-Environment Interface, Donald M. Thevalingam

All Dissertations, Theses, and Capstone Projects

Hyaluronan (HA; Hyaluronic Acid), a primary scaffolding component of the brain extracellular matrix, serves as an integral structural component to the brain extracellular space (ECS). The fossorial African naked mole-rat (Heterocephalus glaber; NM-R), a mammal which lives in a low-oxygen environment and is capable of tolerating hypoxia and hypercapnia, has been shown to synthesize and sustain a unique high-molecular-mass variant of hyaluronan macromolecule (HMM-HA). This body of work highlights HA’s role in mediating the interplay between brain ECM composition, ECS structure, and cell viability.

Here we employ the NM-R as a unique animal model to observe the role of ...


Role Of A 19s Proteasome Subunit- Psmd10(Gankyrin) In Neurogenesis Of Human Neuronal Progenitor Cells, Indrajit Sahu, Padma P. Nanaware, Minal Mane, Saim Wasi Mulla, Soumen Roy, Prasanna Venkatraman Aug 2019

Role Of A 19s Proteasome Subunit- Psmd10(Gankyrin) In Neurogenesis Of Human Neuronal Progenitor Cells, Indrajit Sahu, Padma P. Nanaware, Minal Mane, Saim Wasi Mulla, Soumen Roy, Prasanna Venkatraman

Open Access Articles

PSMD10(Gankyrin), a proteasome assembly chaperone, is a widely known oncoprotein which aspects many hall mark properties of cancer. However, except proteasome assembly chaperon function its role in normal cell function remains unknown. To address this issue, we induced PSMD10(Gankyrin) overexpression in HEK293 cells and the resultant large-scale changes in gene expression profile were analyzed. We constituted networks from microarray data of these differentially expressed genes and carried out extensive topological analyses. The overrecurring yet consistent theme that appeared throughout analysis using varied network metrics is that all genes and interactions identified as important would be involved in neurogenesis ...


Towards A Better Understanding Of Temporomandibular Disorder, Jessica R. Cox May 2019

Towards A Better Understanding Of Temporomandibular Disorder, Jessica R. Cox

MSU Graduate Theses

Results from the OPPERA study provided evidence that risk factors such as neck muscle tension, prolonged jaw opening, and female gender increase the likelihood of developing temporomandibular joint disorders (TMJD), which are prevalent, debilitating orofacial pain conditions. Peripheral and central sensitization, which mediate a lowering of the stimulus required for pain signaling, are implicated in the underlying pathology of chronic TMJD. The goal of my study was to investigate cellular changes in the expression of proteins associated with the development of central sensitization. Female Sprague-Dawley rats were injected with complete Freund’s adjuvant in the upper trapezius muscles to promote ...


Human Anatomy And Physiology I: Course Map With Expected Learning Outcomes, Carlos Liachovitzky May 2019

Human Anatomy And Physiology I: Course Map With Expected Learning Outcomes, Carlos Liachovitzky

Open Educational Resources

This document contains a list with all the Anatomy and Physiology I expected learning outcomes organized by topics, and grouped into ten units: 1. Introduction to A&P: body plan & organization; 2. Introduction to A&P: homeostasis; 3. The chemical level of organization; 4. Levels of organization: the cellular level of organization; 5. Levels of organization: the tissue level of organization; 6. Support and movement: integumentary system; 7. Support and movement: skeletal system & articulations; 8. Support and movement: muscular system; 9. Regulation, integration, and control: nervous system; 10. Regulation, integration, and control: special senses

Each learning outcome is referred to a section in the textbook “Anatomy and ...


A Novel Kinesin Adapter Directly Mediates Dendritic Mrna Localization During Synapse Development, Hao Wu May 2019

A Novel Kinesin Adapter Directly Mediates Dendritic Mrna Localization During Synapse Development, Hao Wu

All Dissertations, Theses, and Capstone Projects

Cytoskeleton based active transport with motor proteins is essential for mRNA localization and local protein translation in animal cells, yet how mRNA granules interact with motor proteins remains poorly understood. Using an unbiased screen for interaction between mRNA binding proteins (RBP) and motor proteins, we identified protein interacting with APP tail 1 (PAT1) as a potential direct adapter between the β-actin mRNA Zipcode-binding protein 1 (ZBP1) and Kinesin-1 motor complex.

Mouse PAT1 is similar to the Kinesin Light Chain (KLC) in amino acid sequence and binds directly to KLC. High-resolution images from structured illumination microscopy (SIM) indicates that synaptic stimulation ...


The 5-Ht1a-R Knockout Mouse As A Model Of Later Life Anxiety Disorders: Implications For Sex Differences, Tatyana Budylin May 2019

The 5-Ht1a-R Knockout Mouse As A Model Of Later Life Anxiety Disorders: Implications For Sex Differences, Tatyana Budylin

All Dissertations, Theses, and Capstone Projects

Anxiety affects nearly twice as many women as it affects men across all cultures and economic groups. Importantly, girls have a higher chance of inheriting anxiety disorders than boys, and many anxiety disorders appear at a very young age. However, little is known about sex differences in brain and behavioral development and how they relate to anxiety in adulthood. Serotonin 1A receptor (5-HT1A-R) mediated signaling has been implicated in depression and anxiety, however most studies that focus on the involvement of the 5-HT1A-R have been conducted in adults. Little is known about how the 5-HT1A ...


Huntingtin Associates With The Actin Cytoskeleton And Alpha-Actinin Isoforms To Influence Stimulus Dependent Morphology Changes, Adelaide Tousley, Maria Iuliano, Elizabeth Weisman, Ellen Sapp, Heather Richardson, Petr Vodicka, Jonathan Alexander, Neil Aronin, Marian Difiglia, Kimberly B. Kegel-Gleason Feb 2019

Huntingtin Associates With The Actin Cytoskeleton And Alpha-Actinin Isoforms To Influence Stimulus Dependent Morphology Changes, Adelaide Tousley, Maria Iuliano, Elizabeth Weisman, Ellen Sapp, Heather Richardson, Petr Vodicka, Jonathan Alexander, Neil Aronin, Marian Difiglia, Kimberly B. Kegel-Gleason

Open Access Articles

One response of cells to growth factor stimulus involves changes in morphology driven by the actin cytoskeleton and actin associated proteins which regulate functions such as cell adhesion, motility and in neurons, synaptic plasticity. Previous studies suggest that Huntingtin may be involved in regulating morphology however, there has been limited evidence linking endogenous Huntingtin localization or function with cytoplasmic actin in cells. We found that depletion of Huntingtin in human fibroblasts reduced adhesion and altered morphology and these phenotypes were made worse with growth factor stimulation, whereas the presence of the Huntington's Disease mutation inhibited growth factor induced changes ...


The Effects Of A Ketone Body On Synaptic Transmission, Alexandra Elizabeth Stanback Jan 2019

The Effects Of A Ketone Body On Synaptic Transmission, Alexandra Elizabeth Stanback

Theses and Dissertations--Biology

The ketogenic diet is commonly used to control epilepsy, especially in cases when medications cannot. The diet typically consists of high fat, low carb, and adequate protein and produces a metabolite called acetoacetate. Seizure activity is characterized by glutamate excitotoxicity and therefore glutamate regulation is a point of research for control of these disorders. Acetoacetate is heavily implicated as the primary molecule responsible for decreasing glutamate in the synapse; it is believed that acetoacetate interferes with the transport of glutamate into the synaptic vesicles. The effects on synaptic transmission at glutamatergic synapses was studied in relation to the ketogenic diet ...


Developing Novel Methods To Investigate Real-Time In Vivo Dopamine Dynamics In The Monogamous Prairie Vole, Emma Burt Jan 2019

Developing Novel Methods To Investigate Real-Time In Vivo Dopamine Dynamics In The Monogamous Prairie Vole, Emma Burt

Undergraduate Honors Theses

Humans are among a small percentage of mammals that form monogamous relationships. These relationships, along with other strong social bonds, are essential to human well-being. In the absence of strong social relationships, humans experience a variety of detrimental conditions such as depression, anxiety, and cardiovascular disease. Traditional barriers to studying social bonds stem from the use of lab rodents such as mice and rats which do not form selective social attachments. However, the prairie vole (Microtus ochrogaster) does form these selective social attachments. The robust social bonds – pair bonds – formed between adult prairie voles may be observed and therefore studied ...


Evaluation Of Motor Cortex Neuronal Morphology In Developmental Hyperserotonemia Rat Model, Colten Z. Dillinger Dec 2018

Evaluation Of Motor Cortex Neuronal Morphology In Developmental Hyperserotonemia Rat Model, Colten Z. Dillinger

MSU Graduate Theses

Fetal serotonin levels are involved in the development of the serotonergic system in an autoregulatory manner as well as the organization and connectivity of non-serotonergic neurons. Insufficient serotonin levels during development result in improper neuronal maturation and decreased synaptogenesis. Conversely, excess developmental serotonin levels can alter the progression of serotonergic neurons, ultimately resulting in a chronic decrease of serotonin in the developed brain via a negative feedback mechanism. There is a known correlation between autistic patients and chronically decreased brain serotonin concentrations; this is potentially implicated in the impaired development of the autistic brain. Incomplete or delayed development of motor ...


Modulation Of Cav1.3b L-Type Calcium Channels By M1 Muscarinic Receptors Varies With Cavbeta Subunit Expression, Mandy L. Roberts-Crowley, Ann R. Rittenhouse Sep 2018

Modulation Of Cav1.3b L-Type Calcium Channels By M1 Muscarinic Receptors Varies With Cavbeta Subunit Expression, Mandy L. Roberts-Crowley, Ann R. Rittenhouse

Open Access Articles

OBJECTIVES: We examined whether two G protein-coupled receptors (GPCRs), muscarinic M1 receptors (M1Rs) and dopaminergic D2 receptors (D2Rs), utilize endogenously released fatty acid to inhibit L-type Ca(2+) channels, CaV1.3. HEK-293 cells, stably transfected with M1Rs, were used to transiently transfect D2Rs and CaV1.3b with different CaVbeta-subunits, allowing for whole-cell current measurement from a pure channel population.

RESULTS: M1R activation with Oxotremorine-M inhibited currents from CaV1.3b coexpressed with alpha2delta-1 and a beta1b, beta2a, beta3, or beta4-subunit. Surprisingly, the magnitude of inhibition was less with beta2a than with other CaVbeta-subunits. Normalizing currents revealed kinetic changes after modulation with ...


Characterizing The Cognitive And Emotional Effects Of Delta-9-Tetrahydrocannabinol In Distinct Hippocampal Sub-Regions, Dinat Khan Aug 2018

Characterizing The Cognitive And Emotional Effects Of Delta-9-Tetrahydrocannabinol In Distinct Hippocampal Sub-Regions, Dinat Khan

Electronic Thesis and Dissertation Repository

The objective of this study is to determine the potential differential effects of THC in the DH or VH sub-regions, as well as the upstream effects on PFC neuronal activity and oscillations. Rodents used for electrophysiology were infused with THC or vehicle in the DH or VH regions, combined with PFC recordings. Additionally, a battery of behavioural paradigms was performed. Deficits in short-term memory when THC was infused into both regions was observed, however working memory was impaired with VH infusions only. This could be due to THC-induced dysregulation in the PFC, as beta oscillations were significantly decreased selectively in ...


Targeting Pro-Inflammatory Function Of Microglia Using Small Molecules To Combat Neurodegeneration, Gabrielle C. Williams, Priya Prakash, Gaurav Chopra Aug 2018

Targeting Pro-Inflammatory Function Of Microglia Using Small Molecules To Combat Neurodegeneration, Gabrielle C. Williams, Priya Prakash, Gaurav Chopra

The Summer Undergraduate Research Fellowship (SURF) Symposium

Microglia are the brain’s resident immune cells that are responsible for maintaining homeostasis in healthy conditions. During injury or infection, resting microglia get activated and produce pro-inflammatory cytokines such as IL-1b, IL-1a, IL-6, etc. along with reactive oxygen species like nitric oxide (NO) to combat neuroinflammatory diseases such as Alzheimer’s disease (AD). Inflammation is characterized by the activation of resident-immune cells in the brain called microglia that respond to the eat-me signals released by the toxic amyloid beta peptides as well as the dying neurons in the microenvironment. Recent studies have shown that activated microglia induce neuronal death ...


Characterization Of Theranostic Peptides For Glioblastoma Multiforme, Aaron Mellesmoen Aug 2018

Characterization Of Theranostic Peptides For Glioblastoma Multiforme, Aaron Mellesmoen

All NMU Master's Theses

Glioblastoma multiforme (GBM) is a type of primary CNS tumor in which viable treatment options do not exist. Standard of care including tumor resection, chemotherapy, and radiation does little to extend the 5-year survival expectancy past 5.1%. Herein, two small-peptide molecules with inherent antitumor activity, blood-brain barrier permeability, and capability for tumor-specific drug deliverance and intraoperative visualization (termed theranostic) were of focus. Confocal microscopy was employed to characterize in vitro specificity of chlorotoxin, a 4 kDa scorpion venom peptide, and rBSG, the recombinant 25 kDa non-glycosylated extracellular domain of extracellular matrix metalloproteinase inducer (EMMPRIN; Basigin ...


Nuclear Export Through Nuclear Envelope Remodeling In Saccharomyces Cerevisiae, Baojin Ding, Anne M. Mirza, James A. Ashley, Vivian Budnik, Mary Munson Jun 2018

Nuclear Export Through Nuclear Envelope Remodeling In Saccharomyces Cerevisiae, Baojin Ding, Anne M. Mirza, James A. Ashley, Vivian Budnik, Mary Munson

University of Massachusetts Medical School Faculty Publications

In eukaryotes, subsets of exported mRNAs are organized into large ribonucleoprotein (megaRNP) granules. How megaRNPs exit the nucleus is unclear, as their diameters are much larger than the nuclear pore complex (NPC) central channel. We previously identified a non-canonical nuclear export mechanism in Drosophila (Speese et al., Cell 2012) and mammals (Ding et al., in preparation), in which megaRNPs exit the nucleus by budding across nuclear envelope (NE) membranes. Here, we present evidence for a similar pathway in the nucleus of the budding yeast S. cerevisiae, which contain morphologically similar granules bearing mRNAs. Wild-type yeast displayed these granules at very ...


Mapping Molecular Datasets Back To The Brain Regions They Are Extracted From: Remembering The Native Countries Of Hypothalamic Expatriates And Refugees, Arshad M. Khan, Alice H. Grant, Anais Martinez, Gully Apc Burns, Brendan S. Thatcher, Vishwanath T. Anekonda, Benjamin W. Thompson, Zachary S. Roberts, Daniel H. Moralejo, James E. Blevins Jun 2018

Mapping Molecular Datasets Back To The Brain Regions They Are Extracted From: Remembering The Native Countries Of Hypothalamic Expatriates And Refugees, Arshad M. Khan, Alice H. Grant, Anais Martinez, Gully Apc Burns, Brendan S. Thatcher, Vishwanath T. Anekonda, Benjamin W. Thompson, Zachary S. Roberts, Daniel H. Moralejo, James E. Blevins

Arshad M. Khan, Ph.D.

This article, which includes novel unpublished data along with commentary and analysis,
focuses on approaches to link transcriptomic, proteomic, and peptidomic datasets mined from
brain tissue to the original locations within the brain that they are derived from using digital atlas
mapping techniques. We use, as an example, the transcriptomic, proteomic and peptidomic
analyses conducted in the mammalian hypothalamus. Following a brief historical overview, we
highlight studies that have mined biochemical and molecular information from the hypothalamus
and then lay out a strategy for how these data can be linked spatially to the mapped locations in a
canonical brain atlas ...


The Ugly Sequestosome1:The Role Of P62/Sqstm1 In Autophagy And Multisystem Proteinopathy, Eugene Lee May 2018

The Ugly Sequestosome1:The Role Of P62/Sqstm1 In Autophagy And Multisystem Proteinopathy, Eugene Lee

Arts & Sciences Electronic Theses and Dissertations

Multisystem proteinopathy (MSP) defines a spectrum of degenerative diseases unified by TDP-43 pathology that affect muscle, brain and bone. Mutations in several proteins (VCP, p62/SQSTM1, HNRNPA2B1, HNRNPA1) can all cause MSP via impairments in autophagic protein degradation (VCP and SQSTM1) or RNA granule dynamics (HNRNPA2B1 and HNRNPA1). Phenotypically, MSP mutations lead to variable penetrance of several phenotypes: Paget’s disease of the bone (PDB), rimmed vacuolar inclusion body myopathy (RV-IBM), amyotrophic lateral sclerosis (ALS) or frontotemporal dementia (FTD). However, how a same mutation of a protein can develop different diseases remains unclear. Understanding of p62/SQSTM1 (SQSTM1) function is ...


Reconstitution Of Gabaergic Postsynapses In Host Cells, Karthik Kanamalla Apr 2018

Reconstitution Of Gabaergic Postsynapses In Host Cells, Karthik Kanamalla

Honors Scholar Theses

Type A GABA receptors (GABAARs) can be found embedded in postsynaptic membranes or in a variety of extrasynaptic locations. Receptors with synaptic function are recruited to the postsynapse by submembranous scaffolds composed of gephyrin and collybistin (CB). This study was aimed at assessing whether the ability to interact with the scaffold differentiates synaptic from non-synaptic receptors. Using HEK293 cells as an expression system, and indirect immunofluorescence (IF), co-localization of extrasynaptic receptors α1β3δ and α4β3δ with the CB-gephyrin scaffold was assessed and compared with that of the synaptic receptor α1β3γ2. Results indicated that both extrasynaptic receptors were able to colocalize with ...


Jip1-Mediated Jnk Activation Negatively Regulates Synaptic Plasticity And Spatial Memory, Caroline Morel, Tessi Sherrin, Norman J. Kennedy, Kelly H. Forest, Seda Barutcu, Michael Robles, Ezekiel Carpenter-Hyland, Naghum Alfulaij, Claire L. Standen, Robert A. Nichols, Morris Benveniste, Roger J. Davis, Cedomir Todorovic Apr 2018

Jip1-Mediated Jnk Activation Negatively Regulates Synaptic Plasticity And Spatial Memory, Caroline Morel, Tessi Sherrin, Norman J. Kennedy, Kelly H. Forest, Seda Barutcu, Michael Robles, Ezekiel Carpenter-Hyland, Naghum Alfulaij, Claire L. Standen, Robert A. Nichols, Morris Benveniste, Roger J. Davis, Cedomir Todorovic

University of Massachusetts Medical School Faculty Publications

The c-Jun N-terminal kinase (JNK) signal transduction pathway is implicated in learning and memory. Here, we examined the role of JNK activation mediated by the JIP1 scaffold protein. We compared male wild-type mice with a mouse model harboring a point mutation in the Jip1 gene that selectively blocks JIP1-mediated JNK activation. These male mutant mice exhibited increased NMDA receptor currents, increased NMDA receptor-mediated gene expression, and a lower threshold for induction of hippocampal long-term potentiation. The JIP1 mutant mice also displayed improved hippocampus-dependent spatial memory and enhanced associative fear conditioning. These results were confirmed using a second JIP1 mutant mouse ...


Cerebral Organoids Derived From Sandhoff Disease-Induced Pluripotent Stem Cells Exhibit Impaired Neurodifferentiation, Maria L. Allende, Emily K. Cook, Bridget C. Larman, Adrienne Nugent, Jacqueline M. Brady, Diane Golebiowski, Miguel Sena-Esteves, Cynthia J. Tifft, Richard L. Proia Mar 2018

Cerebral Organoids Derived From Sandhoff Disease-Induced Pluripotent Stem Cells Exhibit Impaired Neurodifferentiation, Maria L. Allende, Emily K. Cook, Bridget C. Larman, Adrienne Nugent, Jacqueline M. Brady, Diane Golebiowski, Miguel Sena-Esteves, Cynthia J. Tifft, Richard L. Proia

Open Access Articles

Sandhoff disease, one of the GM2 gangliosidoses, is a lysosomal storage disorder characterized by the absence of beta-hexosaminidase A and B activity and the concomitant lysosomal accumulation of its substrate, GM2 ganglioside. It features catastrophic neurodegeneration and death in early childhood. How the lysosomal accumulation of ganglioside might affect the early development of the nervous system is not understood. Recently, cerebral organoids derived from induced pluripotent stem (iPS) cells have illuminated early developmental events altered by disease processes. To develop an early neurodevelopmental model of Sandhoff disease, we first generated iPS cells from the fibroblasts of an infantile Sandhoff disease ...


A Cre-Inducible Dux4 Transgenic Mouse Model For Investigating Facioscapulohumeral Muscular Dystrophy, Takako I. Jones, Peter L. Jones Feb 2018

A Cre-Inducible Dux4 Transgenic Mouse Model For Investigating Facioscapulohumeral Muscular Dystrophy, Takako I. Jones, Peter L. Jones

Open Access Articles

The Double homeobox 4 (DUX4) gene is an important regulator of early human development and its aberrant expression is causal for facioscapulohumeral muscular dystrophy (FSHD). The DUX4-full length (DUX4-fl) mRNA splice isoform encodes a transcriptional activator; however, DUX4 and its unique DNA binding preferences are specific to old-world primates. Regardless, the somatic cytotoxicity caused by DUX4 expression is conserved when expressed in cells and animals ranging from fly to mouse. Thus, viable animal models based on DUX4-fl expression have been difficult to generate due in large part to overt developmental toxicity of low DUX4-fl expression from leaky transgenes. We have ...


Little Elongation Complex (Lec) And Super Elongation Complex (Sec) As Regulators Of Tdp-43-Associated Neurodegeneration, Chia-Yu Chung Jan 2018

Little Elongation Complex (Lec) And Super Elongation Complex (Sec) As Regulators Of Tdp-43-Associated Neurodegeneration, Chia-Yu Chung

Publicly Accessible Penn Dissertations

TDP-43 aggregation is the pathological hallmark of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration with ubiquitinated inclusions (FTLD-TDP). To define pathways important in TDP-43 proteinopathy, a genetic screen for modifiers of TDP-43-mediated eye degeneration was conducted in the fruit fly (Drosophila melanogaster). This approach and the following studies in the fly identified transcriptional elongation factor Ell as a potent dose-dependent modifier. Ell is a shared component of little elongation complex (LEC) and super elongation complex (SEC). Our studies show that downregulation of additional components in LEC or SEC partially but consistently ameliorates TDP-43-associated eye degeneration, implicating both Ell-associated complexes ...


The Role Of Molecular Motors In Peripheral Nerve Regeneration, Melissa D. Priest Jan 2018

The Role Of Molecular Motors In Peripheral Nerve Regeneration, Melissa D. Priest

Publicly Accessible Penn Dissertations

Following injury, axons of the peripheral nervous system have retained the capacity for regeneration. While it is well established that injury signals require molecular motors for their transport from the injury site to the nucleus, whether kinesin and dynein motors play additional roles in peripheral nerve regeneration is not well understood. Here we use genetic mutants of motor proteins in a zebrafish peripheral nerve regeneration model to visualize and define in vivo roles for kinesin and dynein. We find that both kinesin-1 and dynein are required for zebrafish peripheral nerve regeneration. While loss of kinesin-1 reduced the overall robustness of ...


The Effects Of Increased Camp Levels On Neuronal Differentiation In Murine Embryonic Stem Cells, And The Creation Of A Crispr-Induced C.1252c>T Point Mutation In The Adcy5 Gene, Elizabeth Zepeda Jan 2018

The Effects Of Increased Camp Levels On Neuronal Differentiation In Murine Embryonic Stem Cells, And The Creation Of A Crispr-Induced C.1252c>T Point Mutation In The Adcy5 Gene, Elizabeth Zepeda

Theses and projects

ADCY5-related dyskinesia is a rare movement disorder with early onset in childhood and adolescence. Previous studies linked this disease to various point mutations in the ADCY5 gene. Recent studies show that two of the point mutations cause an increase in cyclic adenosine monophosphate (cAMP) levels. However, it remains unknown how increased levels of cAMP result in the phenotypes associated with this disease. My study examines the effects of increased cAMP levels on neuronal differentiation of mouse embryonic stem cells (mESCs). My experiments demonstrated successful differentiation of mESCs into the dopaminergic neuronal lineage, indicated by the presence of Tuj 1 (a ...


Regulation Of Mitochondrial Dynamics And Quality Control In Mammalian Cells, Andrew Stephen Moore Jan 2018

Regulation Of Mitochondrial Dynamics And Quality Control In Mammalian Cells, Andrew Stephen Moore

Publicly Accessible Penn Dissertations

Mitochondria are conserved eukaryotic organelles that carry out myriad cellular functions including energy generation, reactive oxygen species signaling, and lipid synthesis. In metazoans, mitochondria form dense, reticular networks that must be maintained through rigorous quality control mechanisms. Here, we describe three distinct aspects of mitochondria network homeostasis. In chapter 3, we investigate the spatiotemporal dynamics of mitophagy, tracking the association of autophagy machinery with individual damaged mitochondria. Using a range of damage paradigms, we dissect the kinetics of mitochondrial turnover and demonstrate that ALS-linked mutations in the proteins Optineurin and TBK1 interfere with efficient mitophagy. In chapter 5, we characterize ...


Disc1 Modulates Neuronal Stress Responses By Gate-Keeping Er-Mitochondria Ca(2+) Transfer Through The Mam, Sung Jin Park, Su Been Lee, Yeongjun Suh, Su-Jeong Kim, Namgyu Lee, Ji-Ho Hong, Cana Park, Youngsik Woo, Koko Ishizuka, Joung-Hun Kim, Per-Olof Berggren, Akira Sawa, Sang Ki Park Dec 2017

Disc1 Modulates Neuronal Stress Responses By Gate-Keeping Er-Mitochondria Ca(2+) Transfer Through The Mam, Sung Jin Park, Su Been Lee, Yeongjun Suh, Su-Jeong Kim, Namgyu Lee, Ji-Ho Hong, Cana Park, Youngsik Woo, Koko Ishizuka, Joung-Hun Kim, Per-Olof Berggren, Akira Sawa, Sang Ki Park

Open Access Articles

A wide range of Ca(2+)-mediated functions are enabled by the dynamic properties of Ca(2+), all of which are dependent on the endoplasmic reticulum (ER) and mitochondria. Disrupted-in-schizophrenia 1 (DISC1) is a scaffold protein that is involved in the function of intracellular organelles and is linked to cognitive and emotional deficits. Here, we demonstrate that DISC1 localizes to the mitochondria-associated ER membrane (MAM). At the MAM, DISC1 interacts with IP3R1 and downregulates its ligand binding, modulating ER-mitochondria Ca(2+) transfer through the MAM. The disrupted regulation of Ca(2+) transfer caused by DISC1 dysfunction leads to abnormal Ca ...


Endocytic Trafficking Of The Amyloid Precursor Protein In Rat Cortical Neurons, Sahily Reyes Dec 2017

Endocytic Trafficking Of The Amyloid Precursor Protein In Rat Cortical Neurons, Sahily Reyes

UT GSBS Dissertations and Theses (Open Access)

Amyloid-beta (Aβ) aggregation and deposition into extracellular plaques is a hallmark of the most common forms of dementia, including Alzheimer’s disease. The Aβ-containing plaques result from pathogenic cleavage of amyloid precursor protein (APP) by secretases resulting in intracellular production of Aβ peptides that are secreted and accumulate extracellularly. Despite considerable progress towards understanding APP processing and Aβ aggregation, the mechanisms underlying endosomal production of Aβ peptides and their secretion remain unclear. Using endosomes isolated from cultured primary neurons, we determined that the trafficking of APP from the endosomal membrane into internal vesicles of late endosome/multivesicular bodies (MVB) is ...


Study Of Regulated Cell Death In Two Systems: Pd-1 In Natural Killer Cells And Rip3 In Neurons, Yu Huang Sep 2017

Study Of Regulated Cell Death In Two Systems: Pd-1 In Natural Killer Cells And Rip3 In Neurons, Yu Huang

UT GSBS Dissertations and Theses (Open Access)

Cell death is not only an essential phenomenon in normal development and homeostasis, but also crucial in various pathologies. It is now clear that many types of cell death can be regulated by pharmacological or genetic interventions. These were largely achieved by identifying the molecular mechanisms underlying the regulated cell death (RCD). While in the immune system, RCD needs to be facilitated to help the clearance of pathogens and tumors, in healthy cells, especially the terminally differentiated neurons in the nervous system, it is more desirable to protect cells from dying due to stress under pathological conditions. Thus, understating the ...