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Title: Mechanism of taurine protection against endoplasmic reticulum stress induced by glutamate in primary cortical neurons.
Creator: Pan, Chunliu, Wu, Jang-Yen, Prentice, Howard, Graduate College
Date Issued: 2011-04-08
PURL: http://purl.flvc.org/fcla/dt/3164675
Subject Headings: Taurine, Endoplasmic reticulum, Glutamates
Format: Document (PDF)

Title: GAD 65 and its role in pancreatic tissue survival.
Creator: Kumari, Neeta., Charles E. Schmidt College of Medicine, Department of Biomedical Science
Abstract/Description: We employed three genotypes of GAD 65, wildtype (GAD 65 +/+), heterozygous (GAD 65 +/-) and knockout (GAD 65 -/-) to investigate the role of GAD 65 in survival of pancreatic islets. We analyzed the mRNA expression of pro-survival proteins including Bcl2 and Bax in pancreas of wildtype, heterozygous and knockout using Reverse Transcriptase Polymerase Chain Reaction (RTPCR). The level of expression of Bcl2 mRNA was down regulated in knockout mice pancreas and Bax to Bcl2 ratio was found higher...
Show moreWe employed three genotypes of GAD 65, wildtype (GAD 65 +/+), heterozygous (GAD 65 +/-) and knockout (GAD 65 -/-) to investigate the role of GAD 65 in survival of pancreatic islets. We analyzed the mRNA expression of pro-survival proteins including Bcl2 and Bax in pancreas of wildtype, heterozygous and knockout using Reverse Transcriptase Polymerase Chain Reaction (RTPCR). The level of expression of Bcl2 mRNA was down regulated in knockout mice pancreas and Bax to Bcl2 ratio was found higher in knockout mice pancreas suggesting higher cell death rate. However, further studies are required to recognize and understand the specific connections between apoptotic pathways and GAD 65 in pancreatic islets.
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Date Issued: 2012
PURL: http://purl.flvc.org/FAU/3342206
Subject Headings: Glutamic acids, Antagonists, Cellular signal transduction, Glutamic acid, Metabolism
Format: Document (PDF)

Title: Cleavage of brain glutamic acid decarboxylase 65 by calpain under pathological conditions.
Creator: Buddhala, Chandana, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description: Brain glutamic acid decarboxylase 65 (GAD65) catalyzes the rate-limiting step in the biosynthesis of the major inhibitory neurotransmitter-amino butyric acid (GABA) from the substrate L-glutamic acid. Severe lapse in GABA neurotransmission is one of the etiologies documented in the manifestation of certain neurodegenerative diseases such as epilepsy, Parkinson's disease, Huntington's disease etc. Because GAD65 synthesizes GABA, any modulation of GAD65, therefore, has direct implications on...
Show moreBrain glutamic acid decarboxylase 65 (GAD65) catalyzes the rate-limiting step in the biosynthesis of the major inhibitory neurotransmitter-amino butyric acid (GABA) from the substrate L-glutamic acid. Severe lapse in GABA neurotransmission is one of the etiologies documented in the manifestation of certain neurodegenerative diseases such as epilepsy, Parkinson's disease, Huntington's disease etc. Because GAD65 synthesizes GABA, any modulation of GAD65, therefore, has direct implications on the quanta of GABA released at the synapse. Hence, the major objective of this study was to focus on the regulation of GAD65, with special emphasis on investigating the proteolytic cleavage of fGAD65. Previously, we have shown in vitro that GAD65 was cleaved to form its truncated form (tGAD65), which was more active than the full length form (fGAD65). The enzyme responsible for cleavage was later identified as calpain. Calpain is known to cleave its substrates either under a transient physiologica l stimulus or upon a sustained pathological insult. However, the precise role of calpain cleavage of fGAD65 is poorly understood. In this study, we examined the cleavage of fGAD65 under a range of conditions encompassing both physiological and pathological aspects, including rats under ischemia/reperfusion insult, rat brain synaptosomes or primary neuronal cultures subjected to excitotoxic stimulation with KCl. It was observed that the formation of tGAD65 progressively increased with increasing stimulus concentration. More importantly, cleavage of synaptic vesicle (SV) - associated fGAD65 by calpain was demonstrated, and the resulting tGAD65 harboring the active site of the enzyme was detached from the SVs. Vesicular uptake of the newly synthesized GABA into the SVs was found to be reduced in calpain treated SVs. Furthermore, we also observed that the levels of tGAD65 in the focal cerebral ischemic rat brain tissue increased corresponding to the elevation of local glutamate indica, d by in vivo micro dialysis. Based on these observations, we conclude that calpain cleavage of fGAD65 occurs under pathological conditions.
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Date Issued: 2012
PURL: http://purl.flvc.org/FAU/3342053
Subject Headings: Glutamic acids, Antagonists, Proteolytic enzymes, Research, Cellular signal transduction, Calpain, Glutamic acid, Metabolism
Format: Document (PDF)

Title: Mutant huntingtin reduces palmitoylation of GAD65 and impairs its vesicular trafficking.
Creator: Rush, Daniel., Charles E. Schmidt College of Medicine, Department of Biomedical Science
Abstract/Description: Huntington's disease (HD) is caused by an expanded plyglutamine repeat in the huntingtin protein. In this study, I focused on the effect of the mutant huntingtin protein (mhtt) on the subcellular localization of glutamic acid decarboxylase (GAD), the enzyme responsible for synthesizing gama-aminobutyric acid (GABA). Subcellular distribution of GAD65 is significantly altered in two neuronal cell lines that express either the N-terminus or full length mhtt. GAD65 is predominantly associated...
Show moreHuntington's disease (HD) is caused by an expanded plyglutamine repeat in the huntingtin protein. In this study, I focused on the effect of the mutant huntingtin protein (mhtt) on the subcellular localization of glutamic acid decarboxylase (GAD), the enzyme responsible for synthesizing gama-aminobutyric acid (GABA). Subcellular distribution of GAD65 is significantly altered in two neuronal cell lines that express either the N-terminus or full length mhtt. GAD65 is predominantly associated with the Golgi membrane in cells expressing normal huntingtin (Htt). However, it diffuses in the cytosol of cells expressing mhtt. Palmitoylation of GAD65 is required for GAD65 trafficking, and I demonstrated the palmitoylation of GAD65 is reduced in the HD model. Overexpression of huntingtin-interacting protein 14 (HIP14), the enzyme that palmitoylates GAD65, rescues GAD65 palmitoylation and vesicle-associated trafficking. This data suggests that impairment of GAD65 palmitoylation by mhtt may alter its localization and lead to altered inhibitory neurotransmission in HD.
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Date Issued: 2012
PURL: http://purl.flvc.org/FAU/3352831
Subject Headings: Glutamic acids, Antagonists, Cellular signal transduction, Proteolytic enzymes, Research, Proteins, Physiological transport, Huntington's chorea, Research
Format: Document (PDF)

Title: Regulation of rapid signaling at the cone ribbon synapse via distinct pre- and postsynaptic mechanisms.
Creator: Rowan, Matthew JM., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description: Background: Light-adaptation is a multifaceted process in the retina that helps adjust the visual system to changing illumination levels. Many studies are focused on the photochemical mechanism of light-adaptation. Neural network adaptation mechanisms at the photoreceptor synapse are largely unknown. We find that large, spontaneous Excitatory Amino Acid Transporter (EAATs) activity in cone terminals may contribute to cone synaptic adaptation, specifically with respect to how these signals...
Show moreBackground: Light-adaptation is a multifaceted process in the retina that helps adjust the visual system to changing illumination levels. Many studies are focused on the photochemical mechanism of light-adaptation. Neural network adaptation mechanisms at the photoreceptor synapse are largely unknown. We find that large, spontaneous Excitatory Amino Acid Transporter (EAATs) activity in cone terminals may contribute to cone synaptic adaptation, specifically with respect to how these signals change in differing conditions of light. EAATs in neurons quickly transport glutamate from the synaptic cleft, and also elicit large thermodynamically uncoupled Cl- currents when activated. We recorded synaptic EAAT currents from cones to study glutamate-uptake events elicited by glutamate release from the local cone, and from adjacent photoreceptors. We find that cones are synaptically connected via EAATs in dark ; this synaptic connection is diminished in light-adapted cones. Methods: Whole-cell patch-clamp was performed on dark- and transiently light-adapted tiger salamander cones. Endogenous EAAT currents were recorded in cones with a short depolarization to -10mV/2ms, while spontaneous transporter currents from network cones were observed while a local cone holding at -70mV constantly. DHKA, a specific transporter inhibitor, was used to identify EAAT2 currents in the cone terminals, while TBOA identified other EAAT subtypes. GABAergic and glycinergic network inputs were always blocked with picrotoxin and strychnine. Results: Spontaneous EAAT currents were observed in cones held constantly at -70mV in dark, indicating that the cones received glutamate inputs from adjacent photoreceptors. These spontaneous EAAT currents disappeared in presence of a strong light, possibly because the light suppressed glutamate releases from the adjacent photoreceptors. The spontaneous EAAT currents were blocked with TBOA, but not DHKA, an inhibitor for EAAT2 subtype, suggesting that a, non-EAAT 2 subtype may reside in a basal or perisynaptic area of cones, with a specialized ability to bind exocytosed glutamate from adjacent cones in dark. Furthermore, these results could be artificially replicated by dual-electrode recordings from two adjacent cones. When glutamate release was elicited from one cone, the TBOA-sensitive EAAT currents were observed from the other cone. Conclusions: Cones appear to act like a meshwork, synaptically connected via glutamate transporters. Light attenuates glutamate release and diminishes the cone-cone synaptic connections. This process may act as an important network mechanism for cone light adaptation.
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Date Issued: 2011
PURL: http://purl.flvc.org/FAU/3337186
Subject Headings: Synapses, Neural transmission, VIsual perception, Presynaptic receptors, Molecular neurobiology, Glutamic acid, Neural receptors, Cellular signal transduction, Retina, Cytology
Format: Document (PDF)

Title: Role of taurine in the central nervous system.
Creator: Wu, Jang-Yen, Prentice, Howard
Date Issued: 2010-08-24
PURL: http://purl.flvc.org/fau/fd/FADT3327262
Subject Headings: Central Nervous System --metabolism, Glutamic Acid --metabolism, Homeostasis --physiology, Neuroprotective Agents --metabolism, Neurotransmitter Agents --metabolism, Proto-Oncogene Proteins c-bcl-2 --metabolism, Receptors, Neurotransmitter --metabolism, Signal Transduction --physiology, Taurine, Taurine --metabolism, Neuroprotective Agents, Neurotransmitter Agents
Format: Document (PDF)

Title: Reciprocal regulation between taurine and glutamate response via Ca2+ - dependent pathways in retinal third-order neurons.
Creator: Bulley, Simon, Shen, Wen
Date Issued: 2010-08-24
PURL: http://purl.flvc.org/fcla/dt/3327274
Subject Headings: Amacrine Cells*/cytology, Amacrine Cells*/drug effects, Amacrine Cells*/metabolism, Ambystoma, Calcium/metabolism, Calcium Channels/metabolism, Cells, Cultured, Enzyme Inhibitors/metabolism, Excitatory Amino Acid Agonists/pharmacology, GABA Antagonists/pharmacology, Glutamic Acid/metabolism, Glycine Agents/pharmacology, Kainic Acid/pharmacology, Membrane Glycoproteins, Membrane Potentials, Neurotransmitter Agents, Retinal Ganglion Cells, Signal Transduction, Synaptic Transmission
Format: Document (PDF)

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