Mechanism of centaurin-alpha-1 control of neuronal differentiation

Hill, Donna Monique.

January 2010

Thesis (M.S.)--University of Alabama at Birmingham, 2009. / Title from PDF t.p. (viewed June 30, 2010). Additional advisors: Lori McMahon, Stephen Watts. Includes bibliographical references (p. 31-35).

Role of neuroligin in synapse formation and autism

Chubykin, Alexander Anatoly.

January 2006

Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2006. / Embargoed. Vita. Bibliography: 106-123.

Gene expression profiles of the C. elegans nervous system reveal targets of the synaptic protein RPM-1

Watson, Joseph Daniel.

January 2007

Thesis (Ph. D. in Neuroscience)--Vanderbilt University, Aug. 2007. / Title from title screen. Includes bibliographical references.

The roles of SV2 and SVOP proteins in regulating neurotransmission /

Custer, Kenneth Leybourne,

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 79-82).

Signalisation du VIP et du PACAP dans les monocytes humains Neuropeptides / PACAP/VIP signaling in human monocytes

El Zein, Nabil

17 October 2011

PACAP et VIP sont deux peptides structuralement reliés qui appartiennent à la classe de neuropeptides comprenant la sécrétine, le glucagon et le growth hormone releasing factor. VIP et PACAP ont de nombreuses fonctions biologiques au niveau du système nerveux et sont considérés comme des agents neurotransmetteurs, sécrétagogues, neuroprotecteurs, neurotrophiques, mitogéniques et comme agents différenciant. <p><p>VIP et PACAP utilisés à des concentrations de l’ordre du nano-molaire sont décrits comme agents anti-inflammatoires. Dans cette thèse, nous montrons que les neuropeptides PACAP et VIP utilisés à des doses élevées de l’ordre du μ-molaire agissent également comme des molécules pro-inflammatoires au niveau des monocytes humains.<p><p>Nous montrons aussi qu’au sein des monocytes humains, le PACAP agit par l’intermédiaire du récepteur VPAC-1. Les voies de signalisation activées incluent de façon proximale la PLC et la PI3-kinase et de façon plus distale les voies ERK et p38 des MAP-Kinases et les voies dépendantes de focal adhésion kinase associées à la protéine du cytosquelette paxilline. PACAP induit également un pic calcique résultant d’une mobilisation intra- et extracellulaire de calcium.<p><p>Au niveau fonctionnel, nous montrons quelle PACAP augmente la production de radicaux libres et l’expression membranaire de l’intégrine CD11b impliquée dans l’adhésion et dans la régulation de nombreuses voies métaboliques.<p><p>Nous montrons également que de faibles doses de PACAP de l’ordre du nM sont suffisantes pour désensibiliser les monocytes à des concentrations plus importantes de PACAP, concentrations connues pour avoir un effet pro-inflammatoire. Le PACAP a ainsi un double rôle, anti-inflammatoire à faible dose et pro-inflammatoire à dose plus élevé.<p><p>Nous avons de plus investigué la présence d’une transactivation au niveau des cellules monocytaires. Dans ces cellules, PACAP comme rapporté dans les cellules neuronales, utilise la signalisation NGF/TrkA. PACAP augmente la fraction phosphorée du récepteur TrkA. L’utilisation d’inhibiteur spécifique du récepteur au NGF est associée à une diminution de la phosphorylation des voies PACAP-dépendantes telles que AKT et ERK. L’inhibiteur du récepteur au NGF diminue également la mobilisation calcique induite par le PACAP avec au niveau fonctionnel une diminution de la production de radicaux libres et de l’expression de l’intégrine CD11b. Enfin, l’observation que les voies métaboliques (ERK) et que les fonctions (production de radicaux libres) induites par le NGF au sein des cellules monocytaires est sensible à la pertussis toxine, agent modulant des récepteurs à protéines G, indique que les phénomènes de transactivation entre les voies PACAP/VPAC-1 et NGF/TrkA se font de façon bidirectionnelle.<p><p>Nous montrons enfin que ;à la fois PACAP et VIP sont des ligands du récepteur proinflammatoire FPRL1 au sein des monocytes induisant l’activation des voies AKT/ERK et la mobilisation calcique, responsables de l’augmentation d’expression de l’intégrine CD11b.Nous montrons cependant qu’il existe une voie propre au récepteur VPAC-1, indépendante de FPRL1, médiée par l’axe cAMP/PKA/p38 responsable spécifiquement d’une activité proinflammatoire avec sécrétion de MMP9 et augmentation membranaire de CD35. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie

Sciences exactes et naturelles

Monocytes

Nerve tissue proteins

Neuropeptides

Monocytes

Protéines nerveuses

Neuropeptides

PACAP

monocytes

VIP

The effect of electrolytic lesion and neural implants on glial fibrillary acidic protein expression in the rat spinal cord

Falconer, Robert J.

January 1989

This thesis assessed the suitability of unilateral, electrolytic lesions as a model of spinal cord damage and repair in the adult rat. This type of lesion resulted acutely in localized damage in the upper motor neuron at the L2-L3 level of the spinal cord. Minimal acute damage to ascending sensory pathways was indicated by preserved somatosensory evoked potentials elicited by stimulation of the tibial nerve. Immediately after lesion generation one of several substrates was injected into the lesion cavity. These substrates were saline buffer, liquid collagen solution, foetal spinal cord cells from 14 day old rat embryos, and a mixture of collagen and E 14 foetal spinal cord cells. The 4 groups were compared for functional recovery over 3 months using the inclined plane test and a Tarlov movement scale. After sacrifice, the tibialis anterior muscles were dissected and weighed to assess atrophy due to lower motor neuron injury. After removing and embedding the spinal cords in paraffin, transverse and longitudinal sections were taken for cytoarchitectural investigation. Cresyl violet was used to indicate Nissl substance, Luxol fast blue stained for myelin and anti - glial fibrillary acidic protein (GFAP) antibody revealed the expression of GFAP in the cord sections. Chronic electrolytic lesions were characterized by the highly variable degree of cavitation, demyelination and macrophage infiltration that was present. There was no significant performance deficit on the inclined plane test in any of the lesioned groups when compared to unoperated animals. The tibialis muscles from all groups were of normal weight, indicating that the lower motor neurons were not significantly damaged by the lesions used. There was, however, a marked decrease in the number of GFAP reactive astrocytes in the lesioned animals when compared to unlesioned controls (P < 0.01, Wilcoxon test). Moreover, this reduction of GFAP - like immunoreactivity was not prevented by implants of foetal neurons, collagen or foetal neurons suspended in collagen. Possible explanations for the reduced GFAP - like immunoreactivity seen in all electrolytically lesioned cords are discussed. / Medicine, Faculty of / Cellular and Physiological Sciences, Department of / Graduate

Nerve tissue proteins

Glial Fibrillary Acidic Protein

Spinal Cord Injuries -- physiopathology

Cloning of hamster GAP-43 to study the expression and regulation of GAP-43 mRNA in the retina during degeneration and regeneration

陳博文。, Chan, Pok-man.

January 1998

published_or_final_version / Anatomy / Master / Master of Philosophy

Nerve tissue protein.

Nerves - Growth.

Central nervous system - Regeneration.

Nervous system - Wounds and injuries.

Retinal ganglion cells.

Hamsters - Physiology.

Stem Cell Based Nerve Tissue Engineering On Guided Constructs

Yucel, Deniz

01 January 2009

Nerve injury is a serious clinical problem that has a direct impact on the quality of life. Nerve tissue engineering (NTE) is one of the most promising methods in human health care to restore the function of damaged neural tissues. The current state of the art involves the construction of a tissue engineered, nano or micropatterned 3-D nerve tube that has fibers or channels in the inside. The scope of this study is to construct a 3-D, biodegradable nerve tube which consists of an aligned, electrospun mat seeded with stem cells that is wrapped in a porous micropatterned film which contains support cells. In two separate approaches human mesenchymal stem cells (MSCs) and mouse neural stem cells (NSCs) were used. In the design with the MSCs, the micropatterned exterior part of the nerve tube contained undifferentiated MSCs as support cells and this was wrapped around the fibers seeded with MSCs which were induced to neural differentiation. In the other case, NSCs differentiated into astrocytes were used as support cells seeded on the micropatterned film and the mat was loaded with undifferentiated NSCs. Differentiation into neural cells and astrocytes were shown with immunocytochemistry and RT-PCR. The neuron-like MSCs and NSCs were shown to express neural marker &amp / #946 / -Tubulin III whereas astrocytes expressed glial fibrillary acidic protein (GFAP), an astrocyte marker. RT-PCR showed that early neural markers, nestin and Nurr 1, were expressed at passage 4 by undifferentiated MSCs and by MSCs induced to neural differentiation, while these markers were not expressed in undifferentiated MSCs at passages 2 and 3. The cells aligned along the axis of the micropattern of the film and along the axis of the fiber on the fibrous mat. This behavior was also maintained after construct formation. MTS and confocal microscopy revealed that the cells were viable and homogeneously distributed over the two parts of the scaffold. This indicates that the construct has a potential to be tested in vivo for nerve tissue engineering purposes.

QH Cytology 573-671

Multiwalled Carbon Nanotube- Poly(2-hydroxyethyl Methacrylate) Composite Conduitfor Peripheral Nerve Repair

Arslantunali, Damla

01 March 2012

There are different methods used in the surgical treatment of peripheral nerve injury. In this respect, end-to-end surgical reconnection of the damaged nerve ends or autologous nerve grafts are applied as soon as possible after the injury. When autologous tissue transplant is considered, there are some medical devices available generally for relatively short nerve defects. As a solution for this problem, different tissue engineered nerve conduits have been developed. In the current study, a pHEMA hydrogel membranes were designed to mimic the tubular conduits and they were loaded with 1-6% (w/w) multiwalled carbon nanotubes (mwCNTs) to obtain electrical conductivity. The most important reason for the use of CNTs in peripheral nerve injury is their electrical conductivity. Within the context of the study, the degree of swelling, contact angles, electrical conductivity and mechanical properties of the membranes were analyzed. As the amount of mwCNTs were increased, the contact angles, indicating higher hydrophobicity and the electrical conductivity increased. The tensile test of the mwCNT-pHEMA composite membranes showed that the membranes have viscoelastic structure similar to the structure of the soft tissues. The structure of the mwCNT containing pHEMA composite membranes were analyzed with different microscopical techniques such as SEM, CSLM and microCT. MwCNTs on the hydrogels were morphologically similar to the original. SEM micrographs also showed that the mwCNTs were grouped in clumps on hydrogel surfaces. No mwCNT leaching was observed because the mwCNTs were embedded in the hydrogel, therefore, no cytotoxic effect was observed. The pHEMA hydrogels were porous which is suitable for transportation of materials, electrolytes and gas needed for cell nutrition and growth. In the in vitro studies, SHSY5Y neuroblastoma cells were seeded on the membranes to determine the sustainability and effects of the membranes on the cell growth. Electrical potential of 1 and 2 V were used to stimulate the cells. Microscopical examination with SEM and CSLM, and MTT viability assay were used. The SHSY5Y neuroblastoma cells were attached and proliferated on both the composite and the hydrogel membranes. The cells on pHEMA membranes without mwCNTs, however, were not able to survive after application of electrical potential. As a conclusion, use of composite membranes in the treatment of peripheral nerve injury as a nerve conduit is appropriate. Electrical stimulation, however, did not induce the cells to align in contrast to the expected results, indicating potential and current application regime needs to be optimized to obtain the desired results.

Regulation of AKAP79/150 targeting to dendritic spines /

Horne, Eric Andrew.

January 2007

Thesis (Ph.D. in Pharmacology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 132-151). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;