CONTINUOUSLY ACTIVE TRANSCRIPTIONAL PROGRAMS ARE REQUIREDTO BUILD EXPANSIVE SEROTONERGIC AXON ARCHITECTURES

Donovan, Lauren Janine

28 January 2020

No description available.

Neurobiology

Serotonin

axon

transcription factor

arborization

development

projection pathway

RNA sequencing

Lmx1b Pet1

Tph2

EVALUATION OF BLOOD-BRAIN BARRIER INTEGRITY UNDER CUPRIZONE ADMINISTRATION

Shelestak, John Wesley

25 November 2019

No description available.

Biology

Biomedical Research

Neurobiology

Blood-Brain Barrier

Cuprizone

Demyelination

Neurodegeneration

Neuroimmunology

Mechanisms of skin disruption after traumatic spinal cord injury

Marbourg, Jessica Marie

25 September 2020

No description available.

Neurobiology

Biology

Biomedical Research

Effectiveness of Fluorogold Bound Conjugate in Imaging Mice Neuroendocrine Circuits

Riley, Amanda L.

26 May 2020

No description available.

Neurosciences

Neurology

Neurobiology

Biology

hypothalamus

neuroendocrine circuits

MRI

magnetic resonance imaging

fluorogold

Implementation Of Associative Memory With Online Learning into a Spiking Neural Network On Neuromorphic Hardware

Hampo, Michael J.

January 2020

No description available.

Computer Engineering

Neurobiology

Induced haltere movements reveal multisensory integration schema in <i>Drosophila</i>

Rauscher, Michael James

21 June 2021

No description available.

Neurobiology

Neurosciences

Biology

Biomechanics

Drosophila

Diptera

Halteres

Multisensory Integration

Insect Flight

Insect Vision

Inertial Sensing

Neuroethology

Characteristics of Primary Cilia and Centrosomes in Neuronal and Glial Lineages of the Adult Brain

Bhattarai, Samip Ram

05 1900

Primary cilia are sensory organelles that are important for initiating cell division in the brain, especially through sonic hedgehog (Shh) signaling. Several lines of evidence suggest that the mitogenic effect of Shh requires primary cilia. Proliferation initiated by Shh signaling plays key roles in brain development, in neurogenesis in the adult hippocampus, and in the generation of glial cells in response to cortical injury. In spite of the likely involvement of cilia in these events, little is known about their characteristics. Centrosomes, which are associated with primary cilia, also have multiple influences on the cell cycle, and they are important in assembling microtubules for the maintenance of the cell’s cytoskeleton and cilia. The cilia of terminally differentiated neurons have been previously examined with respect to length, incidence, and receptors present. However, almost nothing is known about primary cilia in stem cells, progenitors, or differentiated glial cells. Moreover, it is not known how the properties of cilia and centrosomes may vary with cell cycle or proliferative potential, in brain or other tissues. This dissertation focuses first on neurogenesis in the hippocampal subgranular zone (SGZ). The SGZ is one of the few brain regions in mammals that gives rise to a substantial number of new neurons throughout adulthood. The neuron lineage contains a progression of identifiable precursor cell types with different proliferation rates. This present study found that primary cilia were present in every cell type in the neuronal lineage in SGZ. Cilium length and incidence were positively correlated among these cell types. Ciliary levels of adenylyl cyclase type III (ACIII) levels relative to ADP-ribosylation factor-like protein 13b (Arl13b) was higher in neurons than in precursor cells and glia, and also changed with the cell cycle. G-protein coupled receptors, SstR3, MCHR1, and Gpr161 receptors were only found in neuronal cilia. The levels and distribution of three centrosomal proteins, γ-tubulin, pericentrin and cenexin in neurons was different from the distributions in precursors and glia. The second focus of study is glial responses to injury in the neocortex, which has been widely studied as an injury model. This study found that in the normal adult somatosensory cortex, primary cilia were present in astrocytes and polydendrocytes but not in microglia. Following injury, the incidence of primary cilia decreased in astrocytes. Also, a new cell type expressing GFAP, NG2 and Olig2 was seen 3 days following injury, but was not present in normal mice. The characteristics of primary cilia and centrosome described here suggest that in stem cells and progenitors their characteristics may be well suited for proliferation, whereas in neurons, the cilia and centrosomes are important for other sensory functions.

primary cilia

centrosomes

neurons

glial

Cilia and ciliary motion.

Centrosomes.

Neuroglia.

Brain -- Physiology.

Developmental neurobiology.

DECIPHERING FABP5 ROLES IN CANCER AND NEURONAL DEVELOPMENT IN RESPONSE TO SMALL MOLECULE INHIBITORS AND DIETARY FATTY ACIDS

Folkwein, Heather J.

25 January 2022

No description available.

Chemistry

Molecular Biology

Neurobiology

Oncology

Neuroglobin and its Role in the Recovery of Neuronal Cells in Hypoxic Conditions Using Hypoxia Inducible Factor– 1

Shah, Riya

01 January 2021

Stroke is the world's leading cause of adult disability, caused by lack of oxygen and nutrients to the brain due to a blood clot in a major artery. This leads to ischemic damage of neuronal cells that leads to paralysis, motor, and speech deficits. While most stroke therapies aim at removing or reducing the blood clots in the brain, few treatments target cell damage. Neuroglobin (NGB) is a protein in the brain that is able to aid in neuroprotection following oxidative stress. Hypoxia-Inducible Factor-1 (HIF-1) is a transcription factor that serves as a marker for cell recovery after hypoxia or low oxygen levels. Exosomes are microscopic extracellular vesicles that can help deliver proteins across the blood-brain barrier. This thesis focuses on finding a correlation between exosomal-delivered neuroglobin to ischemic cells and the regulation of HIF-1 in order to develop an innovative treatment using exosomes. The specific aims of this thesis are as follows: Aim 1: Package NGB in exosomes of healthy cell The XPAK-NGB plasmid will be used to transfect NGB DNA into wild-type human embryonic kidney (HEK-293 cell line) cells. Exosomes will be harvested from the spent media. The exosomes will be analyzed to ensure that the protein is packaged inside the exosomes. Aim 2: Determine the limit of hypoxic conditions and effects of NGB on damaged cells A literature review will be performed to determine the ideal concentration of H2O2 for the survival of neuronal cells. This will include the composition of hypoxia as well as the length of time that cells can be exposed to and remain viable. Aim 3: Correlate NGB concentration and HIF-1 concentration Another literature review will determine the specific markers of NGB and HIF-1.

neuroglobin

stroke

exosomes

HIF-1

neurons

literature review

Molecular and Cellular Neuroscience

Neurology

Neuroscience and Neurobiology

Neural development in the larva of HarmothÜe imbricata (Linné) : (Polychaeta : polynoidae)

Hsieh, Jane, 1960-

January 1984

No description available.

Polychaeta.

Developmental neurobiology.

HarmothÜe imbricata.

Annelida -- Nervous system.