Browsing by Subject "Neuroscience and Neurobiology"
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Item [3H] Ethynylbicycloorthobenzoate ([3H] EBOB) Binding in Native and Recombinant GABAA Receptors(2000-05-01) Yagle, Monica A.; Dillon, Glenn; Martin, Michael; de Fiebre, ChristopherYagle, Monica A., [3H] Ethynylbicycloorthobenzoate ([3H] EBOB) Binding in Native and Recombinant GABAA Receptors. Master of Science (Pharmacology), May 2000, 59 pp., 3 tables, 7 illustrations, bibliography, 75 titles. Modulation of the GABAA receptor has been studied with noncompetitive convulsant ligands such as tert-butylbicyclophosphorothionate (TBPS) and picrotoxin (PTX). EBOB is a more recently developed ligand that appears to bind in the same region of the channel at TBPS, but with a higher affinity. While only a few studies have examined the binding of EBOB to vertebrate brain tissue and insect preparations, none have examined potential subunit-dependent binding of EBOB. We have thus examined [3H] EBOB binding in rat cerebellum and HEK293 cells stably expressing human α1β2γ2, human α2β2γ2, and rat α6β2γ2 GABAA receptors. For comparison, [35S] TBPS binding was also examined in α1β2γ2 receptors. Saturation and Scatchard analyses revealed saturable [3H] EBOB binding at one site in all tissue preparations with Kd values ranging from 3 to 9nM. [3H] EBOB binding, like [35S] TBPS binding was inhibited by the CNS convulsants dieldrin, lindane, tert-butylbicyclophosphorothionate (TBOB), PTX, TBPS, and pentylenetetrazole (PTZ) at one site in a concentration dependent fashion. Affinities were in the high nM to low μM range for all compounds except PTZ (low mM range). GABA modulated [3H] EBOB binding in a biphasic manner in α1β2γ2 receptors with a 100-fold difference between stimulatory and inhibitory affinities. Inhibition of GABA-mediated current by TBOB in α1β2γ2 receptors resulted in a functional IC50 of 0.2 μM, in agreement with binding study results. Differences seen in binding between the different receptor subtypes examined suggest that some characteristics of EBOB binding are subunit dependent. In addition, we have shown that [3H] EBOB is a useful ligand in the study of recombinant GABAA receptors and that results obtained with [3H] EBOB are comparable to those obtained with [35S] TBPS.Item Activities of Daily Living and Cardiovascular Risk Factors' Impact on Cardiovascular Disease (CVD) and Cognitive Functioning: A Three Stage Longitudinal Model(2005-05-01) Bozo, Ozlem; Guarnaccia, Charles A.; Hall, James; Kelly, KimberlyBozo, Ozlem, Activities of Daily Living and Cardiovascular Risk Factors’ Impact on Cardiovascular Disease (CVD) and Cognitive Functioning: A Three Stage Longitudinal Model. Doctor of Philosophy (Health Psychology), May, 2005, 122 pp., 23 tables, 4 figures, references, 50 titles. The purpose of this study was to examine the longitudinal relationship of daily living (ADL), cardiovascular risk factors, and cardiovascular diseases to predict the future cognitive functioning of older Americans who are between the ages of 51 and 61 at the time of initial assessment. Three waves of the Health and Retirement Study (HRS) database between the years of 1992 and 2002 were examined with path analysis. The longitudinal hypotheses of the study were that (1) ADLs would positively predict future cognitive functioning, (2) ADLs would negatively predict future cardiovascular risk factors, (3) ADLS would negatively predict future cardiovascular diseases, (5) cardiovascular risk factors would negatively predict future cognitive functioning, (6) cardiovascular disease would negatively predict future cognitive functioning, (7) cardiovascular risk factors would mediate the relationship between ADLS and cardiovascular disease, and (8) cardiovascular disease would mediate the relationship between cardiovascular risk factors and cognitive functioning. The results of the analyses indicate that there was no effect of cardiovascular disease on cognitive functioning; however, there were significant effects of cardiovascular risk factors on cognitive functioning that ranged between B=-/021 and B=-/145. Moreover, it was found that cardiovascular risk factors mediate the relationship between ADLs and cognitive functioning, while cardiovascular disease does not. These results suggest that addressing cardiovascular risk factors may be more important than addressing existing cardiovascular disease to protect future cognitive functioning. This shows the importance of primary/secondary prevention versus tertiary interventions.Item Alzheimer's Fibroblasts are More Susceptible to Oxidative Stress(2001-05-01) Marshall, Pamela L.; Neeraj Agarwal; Robert GracyMarshall, Pamela L., Alzheimer’s Fibroblasts Are More Susceptible to Oxidative Stress. Master’s of Science (Biomedical Sciences). May 2001. Recent evidence indicates that oxidative stress contributes to neuronal death in Alzheimer’s disease (AD). In addition, it has been suggested that AD is a systemic illness in which the development of the disease is only visible in the brain. The aim of this research is to develop experimental procedures using a simple cell model, the fibroblast, to determine if proteins derived from AD skin fibroblasts are more sensitive to oxidation by reactive oxygen species than non-AD cells, and to assess the ability of antioxidants to prevent this oxidative damage in AD fibroblasts. Preliminary findings suggest that changes in sensitivity are already detectable in fibroblasts from AD patients, probably as a consequence of genetic component as well as other risk factors. Therefore, this biochemical marker might have the potential for identifying individuals at risk for AD.Item Anionic Ligand-Gated Ion Channels: The Convulsive Site and Mechanism of Action(2001-08-01) Dibas, Mohammed I.; Hriday Das; Thomas Yorio; Neeraj AgarwalDibas, Mohammed, Anionic Ligand-Gated Ion channels: The Convulsive Site And Mechanism of Action. Doctor of Philosophy (Biomedical Sciences), August 2001, pp153, 1 table, 24 illustrations, 76 titles. Picrotoxin, a CNS convulsant inhibits all anionic ligand gated ion channels. The mechanism and the binding site for picrotoxin and its related ligands are still undefined. The second transmembrane (TMII) domain of these ligand gated ion channels is found to play a key role in the mechanism of block by picrotoxin. It has been shown that the incorporation of a phenylalanine residue in place of threonine at position 6’ within the TMII domain of B2 subunit conferred high resistance toward picrotoxin in GABAA a3B2(T6’F)y2 receptors. Mediating their blocking effect through the PTX-site, PTZ, TBPS, and U-93631 lost their inhibitory effects due to the same mutation B2(T6’F). Interestingly, this mutation uncovered a low affinity, highly efficacious stimulatory site for PTZ. PTZ seems to mediate its stimulatory effect through a novel distinct site different from that for benzodiazepine. The effect of varying subunit configuration of GABAA receptors dramatically affected the ability of the mutation B2(T6’F) to abolish the inhibitory effect of picrotoxin. While picrotoxin failed to block the current induced by GABA in a3B2(T6’F)y2 receptors, picrotoxin partially blocked the current in a3B2(T6’F)y2 receptors. In B2(T6’F)y2 receptors, picrotoxin restores its full efficacy. When phenylalanine was incorporated at position 6’ in the a1 subunit, picrotoxin completely blocked the current induced by GABA in a1(T6’F)B2y2 receptors. The combined results showed that the ability of (T6’F) mutation to regulate the inhibitory mechanism of picrotoxin as dependent on the subunit configurations and at which subunit is mutated. In addition, picrotoxin is known to inhibit GABAA receptors in use-facilitated mechanism, while it inhibits the glycine receptor in a non-use facilitated fashion. The molecular determinant behind the use-facilitated mechanism was modulated by the nature of the amino acid at position 15’ within the second transmembrane domain. The mutation of serine 15’ to either glutamine or asparagine in the glycine a1 receptors converted picrotoxin from a non-use facilitated blocker to a use-facilitated one. The latter finding suggested that this residue might residue within the PTX binding site or play a key role in the transduction pathway for picrotoxin mechanism. The overall results further support the fact that TMII domain plays a key role in the picrotoxin mechanism.Item Brain Derived Neurotrophic Factor Regulates Müller Cell Survival via MAPK and PI3K Pathways(2003-05-01) Taylor, Sara A.; Agarwal, Neeraj; Wordinger, Robert J.; Pang, Iok-HouTaylor, Sara A., Brain Derived Neurotrophic Factor Regulates Müller Cell Survival via MAPK and PI3K Pathways. Master of Science (Biomedical Sciences), January, 2003, 112 pp., 4 tables, 39 illustrations, bibliography, 68 titles. Purpose: Glutamate has been implicated in many pathologies affecting the Central Nervous System including those in the retina, but the exact nature of the role of glutamate in neuronal degeneration remains unclear. In the retina. Müller cells are resistant to glutamate insults that are normally toxic to other cells of the retina, however the molecular and biochemical mechanisms that control their death or survival are not well understood. We used a series of pharmacological inhibitors and molecular biology agents on cultured Müller cells to dissect two key signaling pathways normally involved in cell survival, the Mitogen Activated Protein Kinase – Extracellularly Regulated Kinase (MAPK(ERK) pathway and the Phosphatidylinositide 3 Kinase (PI3K) pathway. Since preliminary data in our laboratory showed that Müller cells upregulate their secretion of neurotrophins including Brain Derived Growth Factor (BDNF) in response to glutamate treatment, we also examined the effect of BDNF on the activation of these two signaling pathways. Methods: Early passaged Müller cells were treated with various concentrations (5 nM -50 μM) of inhibitions of the MAPK(ERK) pathway (GW5074, U0126, and PD98059) or with various concentrations (1-50 μM) of inhibitors of the PI3K pathway (LY294002 or Akt inhibitor) in the presence and absence of 50 ng/ml of BDNF for 24 hours. These experiments were repeated in Müller cells transfected with either NFκB or Bc12 DNA. Cell cultures were then analyzed for surviving cells with an MTS/PMS assay, a colorametric method for determining the number of viable cells in a proliferation assay. Results: The MAPK (ERK) inhibitors PD98059 and GW5074 both resulted in decrease in Müller cell survival. PD98059 did not decrease Müller cell survival until concentrations were high enough to suppress ERK2 phosphorylation. Müller cells transfected with NFκB or Bc12 DNA were able to resist treatment with concentrations of PD98059 that reduced cell number in untransfected cells. The PI3K inhibitor LY294002 also resulted in significant decreases in Müller cell survival in both untransfected cells and cells transfected with NFκB or Bc12 DNA. Treatment with an inhibitor farther down in the PI3K pathway, Akt inhibitor, did not significantly decrease Müller cell survival. Finally, BDNF was not able to increase cell survival in Müller cells treated with PD98059 or U0126, although it did increase the survival of cells treated wit GW5074. BDNF was also able to reverse the decrease in cell survival caused by LY294002 in both untransfected Müller cells or Müller cells transfected with NFκB or Bc12 DNA. Conclusions: Our data shows that Mitogen Activated Protein Kinase – Extracellularly Regulated Kinase (MAPK(ERK) and Phosphatidylinositide 3 Kinase (PI3K) are both essential for Müller cell survival. There is modulation between the pathways and they may interconnected far upstream at a protein previously associated with only the MAPK(ERK) pathway. These results are consistent with a role for both pathways in Müller cell survival.Item Cellular and Molecular Mechanisms that Distinguish the Effects of Progestorone and Medroxyprogesterone Acetate on Neuroprotection(2006-07-28) Kaur, Paramjit; Goldfarb, Ronald; Singh, Meharvan; Agarwal, NeerajKaur, Paramjit. Cellular and Molecular Mechanisms That Distinguish the Effects of Progesterone and Medroxyprogesterone Acetate on Neuroprotection., Doctor of Philosophy, (Pharmacology and Neuroscience), July, 2006, 203 pp., 5 illustrations, 20 figures and bibliography. Women have a higher prevalence for Alzheimer’s disease (AD) than men, suggesting that the precipitous decline in gonadal hormone levels following the menopause may contribute to the risk of developing AD. However, principal results from the Women’s Health Initiative concluded that women taking conjugated equine estrogens combined with medroxyprogesterone acetate (MPA, tradename: Prempro) incurred more harmful than beneficial outcomes versus the placebo group (Rossouw et al., 2002). This dissertation was aimed at determining if the discrepancy between basic science reports and these clinical studies could have been due to the synthetic progestin, MPA. I hypothesized that P4 and MPA differed in their ability to protect against the excitotoxic/oxidative insult, glutamate. Further, I proposed that this difference in neuroprotective potential would be reflected in the difference in the ability of these hormones to elicit key effectors of two neuroprotection-associated signaling pathways, the ERK/MAPK and P13-Kinase pathways. Finally, studies were initiated to evaluate the potential importance of BDNF (brain-derived neurotrophic factor) in mediating the protective effects of P4. I used organotypic explants of the cerebral cortex, and found that both P4 and MPA elicit the phosphorylation of ERK and Akt, two signaling pathways implicated in neuroprotection, with maximal phosphorylation occurring at a concentration of 100 nM. Interestingly, P4 protected against glutamate- induced toxicity however, while an equimolar concentration of MPA (100nM) did not. Further, P4 resulted in an increase in BDNF, while MPA did not. Our data bring into question the relevance of using MPA as a component of hormone therapies in postmenopausal women, and instead, argue that the relevant progestin for use in treating brain-related disorders is progesterone. Collectively, the data presented here suggest that P4 is protective via multiple, and potentially related mechanism, and importantly, its neurobiology is different from the clinically used progestin, MPA.Item Characterization of the Serotonin Receptors in the Long Posterior Ciliary Artery of the Bovine Eye(2000-08-01) Landry, Theresa A.; Quist, Eugene; Martin, Michael; Pang, Iok-HouLandry, Theresa A., Characterization of the Serotonin Receptors in the Long Posterior Ciliary Artery of the Bovine Eye. Doctor of Philosophy (Biomedical Science), August 2000, 14 pp., 5 tables, 29 illustrations, bibliography, 104 titles. Vascular disease and vasospasm are implicated in the etiology of glaucoma. The long posterior ciliary (LPCA) is the major blood supply for the ciliary body including the ciliary processes that produce aqueous humor. Information about the pharmacological control of this vessel would be helpful in understanding its normal and pathologic function. Serotonin (5-HT) is a neurotransmitter that effectively constricts the LPCA. The objective of this research is to identify the serotonin receptor subtype responsible for the 5-HT induced vasoconstriction of the LPCA and to characterize the cellular mechanisms that mediate that contraction. Ring segments of the LPCA were dissected from bovine eyes and mounted on tungsten triangles attached to a force transducer. Changes in vascular tension were measured and recorded using a physiography recorder. Dose response curves with 5-HT, 5-HT 1-like agonist, 5-CT, and 5-HT2 agonist, α-methyl-5-HT, indicate that the 5-HT 1-like receptor contributed about 15.13% to the contraction and the 5-HT2 receptor contributed to 61.61%. The EC50 for the three agonists were 283 nM (5-HT), 336 nM (5-CT), and 1.7 μM (α-methyl-5-HT). Inhibition curves with selective antagonists indicate that the IC50 is (5-HT 1-like antagonist) and ketanserin (5-HT2 antagonist). Following incubation of the rings with diltiazem 10 μM or nifedipine 10μM, the response to 5-HT was reduced 65.*% and 61.7% respectively. Incubation in calcium free PB produced similar results. Ryanodine inhibited the 5-HT contraction by 58.1% and caffeine inhibited the response 100%. PKC inhibitors bisindolymaleimide II 1 μM, disindolylamalemide II 10 μM, chelerythrine 25 μM and H-7 5 μM decreased the 5-HT response by19.8%, 55.7%, 31.1% and 61.5% respectively. Incubation of the ring segments with one of three PLC antagonists, 2-NCDC 70 μM, U73122 0.5μM, or neomycin 5 mM, prior to the addition of 1 μM serotonin, significantly reduced the contraction of each vessel, p [less than] 0.0001. The 5-HT-induced vasoconstriction of the LPCA of the bovine eye is mediated through activation of both 5-HT2 and 5-HT 1-like receptors. The contraction is dependent on the mobilization of calcium and is mediated in part through PLC activated intracellular calcium release from IP3 sensitive stores.Item Clinical Internship with the Pediatric Clinic's Clinical Research at the Patient Care Center of the University of North Texas Health Science Center/Texas College of Osteopathic Medicine: Literature Review of Meningococcal Meningitis(2002-07-01) Puckett, Fredric Clark; Harold Sheedlo; Robin Newman; John FlingEpidemic meningococcal meningitis and meningococcemia disease is caused by the bacterial pathogen Neisseria meningitidis. Once infected with meningococci, onset of the disease is rapid with a high rate or morbidity and mortality. Without medical intervention the mortality rate is over 50%. Medical treatment is over 50%. Medical treatment of an outbreak of the disease with antibiotics can reduce the death rate to 10-15%. However, 10-20% of survivors will suffer from neurological damage that may include loss of hearing, paralysis or mental retardation. Recent concerns have been noted regarding the emergence of Neisseria meningitidis strains resistant to antibiotics. Vaccines have been developed in an effort to reduce epidemic outbreaks of meningococcal meningitis and meningococcemia. The first generation polysaccharide vaccines have shown to be safe and possess some degree of effectiveness but have shortcomings of limited length of immune protection and evidence of hyporesponsiveness to subsequent vaccinations. The second generation conjugated polysaccharide vaccines have been able to overcome these problems and show great promise in reducing the sale of epidemic meningococcal outbreaks with implementation of effective mass vaccination campaigns. In addition, reducing the number of infections will limit the exposure of Neisseria meningitidis to antibiotics and, in theory, slow the development of resistance to antibiotics.Item Corticotropin-Releasing Factor and Corticosterone Modulate the Anxiogenic-Like Effects of mCPP(1998-06-01) Jenkins, Jennifer A.; Michael Forster; Robert Luedtke; Patricia GwirtzJenkins, Jennifer A., Corticotropin-Releasing Factor and Corticosterone Modulate the Anxiogenic-Like Effects of mCPP. Doctor of Philosophy (Pharmacology), June 1998, 119 pp., 2 tables, 29 figures, bibliography, 100 titles. The administration of PTZ or mCPP produces anxiety-like behavior as measured by an increase in the percentage of entries into the open arms and the time spent on the open arms of the elevated plus maze (Prunell et al., 1994). Reportedly, PTZ and mCPP substitute for each other in the drug discrimination paradigm (Wallis and Laz, 1998). It is therefore suggested that commonality exists among anxiogenic drugs as perceived by trained animals. Andrews and Stephen (1990) suggested that this overall parallelism is an indication that anxiogenic agents may possess similar properties. Therefore, the question posed is as follows: Is there a common denominator anxiety? The global hypothesis is that the core component of anxiety produced by anxiogenic agents or processes involves stimulation of the HPA axis to release CRF, ACTH and/or CORT. Long Evans rats were trained to discriminate either mCPP (1.4 mg/kg) or PTZ (16mg/kg) from saline in a two-lever choice procedure (FR10) which is food reinforced. Animals were pretreated with CRF, α-helical CRF (a CRF antagonist), two steroid synthesis inhibitors (ketoconazole, KETZ and aminoglutethimide, AMG), CORT or underwent an adrenalectomy prior to behavioral testing in order to test the hypothesis that the release of CRF and/or CORT are components of the discriminate stimulus of the mCPP and/or PTZ. Pretreatment with CRF, KETZ, AMG and an adrenalectomy facilitated mCPP level selection. However in the absence of mCPP neither drug nor adrenalectomy produced drug lever selection. In addition CORT did not alter the mCPP dose response curve. However, CORT replacement therapy returned the does response curve to baseline in adrenalectomized animals. Alpha-helical CRF did not block mCPP discrimination. Unlike mCPP-trained animals, KETZ and AMG decreased PTZ-lever selection in PTZ-trained animals. In addition, CORT enhanced and partially substituted for the discriminative stimulus of PTZ. However, adrenalectomy completely abolished drug lever selection in PTZ animals. To compare the discriminative stimulus effects of mCPP and PTZ, PTZ-trained animals were injected with cumulative doses of mCPP. mCPP-trained animals were injected with cumulative doses of PTZ. mCPP and PTZ minimally substituted for each other. The results suggested that neither CRF nor CORT are components of the discriminative stimulus of mCCP and that the role of the HPA axis in mCPP discrimination maybe be a modulator of the stress response. However, CORT is a component of the discriminative stimulus of PTZ such that CORT is necessary for drug lever selection in PTZ trained animals.Item Cross-Tolerance Between the Discriminative Stimulus Properties of Ethanol, Diazepam and Pentobarbital(1995-12-01) Lytle, Douglas A.; Michael Forster; Glenn Dillon; Thomas YorioLytle, Douglas A., Cross-Tolerance Between the Discriminative Stimulus Properties of Ethanol, Diazepam and Pentobarbital. Doctor of Philosophy (Biomedical Sciences), December, 1995, 132 pp., 8 tables, 19 figures, bibliography, 176 titles. Ethanol, benzodiazepine agonists and barbiturates all facilitate GABA-mediated CT flux. The present experiments tested the hypothesis that, because these agents share this common action, tolerance to discriminative stimulus properties of one of these drugs would result in cross-tolerance to the others. Rats were trained to detect either ethanol (EtOH; 1.0 g/kg), the benzodiazepine diazepam, (DZP; 5.6 mg/kg), or the barbiturate pentobarbital (PB; 10.0 mg/kg) from vehicle using a two-lever choice procedure where food was available under a fixed-ration ten schedule of reinforcement. Subsequently, dose-effect curves for EtOH (0.1-1.78 g/kg), DZP (0.56-17.8 mg/kg), or PB (1.0-17.8 mg/kg) were tested before and after chronic administration of EtOH 96.0 g/kg/12hrs for seven days), DZP (20.0 mg/kg/8hrs for seven days), or PB (32.0 mg/kg/8hrs for seven days). The chronic administration of EtOH conferred tolerance to itself in all cases and cross-tolerance to DZP and PB in subjects trained to detect EtOH, but did not confer cross-tolerance to these agents in their respective discriminations. The chronic administration of DZP conferred tolerance to itself substituting for DZP. Although tolerance developed to DZP substituting for PB after treating animals with chronic DZP, this regimen on DZP did not confer tolerance to itself substituting for EtOH. This regimen of DZP failed to confer significant cross-tolerance to either EtOH or PB under any conditions. The chronic administration of PB conferred tolerance to itself substituting for PB. Although tolerance developed to PB substituting for DZP after treating animals with chronic PB, this regimen of PB did not confer tolerance to itself substituting for EtOH. This regimen of PB failed to confer significant cross-tolerance to either EtOH or DZP under any conditions. In summary, EtOH was found to confer cross-tolerance to DZP and PB only in animals trained to detect EtOH. The chronic administrations of DZP and PB failed to confer tolerance to themselves substituting for EtOH. These results are parsimonious with the heterogeneous nature of the GABA receptor. Finally, tolerance to either DZP or PB does not result in cross-tolerance to the discriminative stimulus properties of the other drug. These results suggest that the mechanisms mediating tolerance to BZs and barbiturates are not linked.Item Delta Opiod Receptor: Parasympathetic Location and Changing Phenotypes in Canine Heart(2007-07-01) Deo, Shekhar H.; James L. Caffrey; H. Fred Downey; Michael SmithDeo, Shekhar H., Delta Opioid Receptor: Parasympathetic Location and Changing Phenotypes in Canine Heart. Doctor of Philosophy (Integrative Physiology), July 23, 112 pp, 4 tables, 24 figures. Delta opioid receptors (DOR) have long been implicated in the complex mechanism of ischemic preconditioning (IPC). Repeated arterial occlusion of the SA node artery in IPC protocol progressively raised the nodal encephalin concentrations and improved vagal transmission during a subsequent extended occlusion. This vagatonic effect was reversed by the DOR-1 antagonist, BNTX. The present thesis tested whether the IPC protocol, the prolonged occlusion or a combination of both was required to demonstrate the vagotonic effect. The study also tested whether the evolution of the vagotonic effect during occlusion might be attributed to erosion of completing vagolytic effects. A progressive improvement in vagal transmission was observed during the IPC protocol. The vagotonic effect was not observed during sham occlusions or during occlusions in animals pretreated with a DOR-1 antagonist. Following the IPC protocol, exogenous MEAP reduced vagal transmission under both normal and occluded conditions. The magnitude of the vagolytic effects was however significantly reduced and eroded further over time compared to time matched shams. The loss of the response was not altered by prior DOR-1. The magnitude of the vagolytic effects was however significantly reduced and eroded further over time compared to time matched shams, however the failure of DOR-1 blockade to slow that process suggests that the PC mediated erosion is independent of receptor activation by DOR-1 agonists. Although DORs are associated with IPC, their precise location remains unconfirmed. DOR and autonomic markers vesicular acetylcholine transporter (VAChT) and tyrosine hydroxylase (TH) were labeled in tissue sections and synaptosomes from canine atrium and SA node. Synapsin I verified the neural character of labeled structures. Acetylcholine and norepinephrine content indicated both cholinergic and adrenergic synaptosomes are present. VAChT and TH signals indicated more than 80% of synapsin positive synaptosomes were cholinergic and less than 8% were adrenergic. Western blots of synaptosomal extracts confirmed by two DOR bands at molecular weights corresponding to reports for DOR monomers and dimmers. The preferential association of DORs with cholinergic nerve terminals supports the hypothesis that post-ganglionic prejunctional DORs regulate local vagal transmission within the heart.Item Discriminative and Negative Reinforcing Properties of the Periaqueductal Gray and the Medial Hypothalamus(1994-12-01) Jung, Marianna E.; Emmett-Oglesby, Michael W.; Yorio, ThomasMarianna Eunsun, Jung, Discriminative and Negative Reinforcing Properties of Electrical brain stimulation of the Periaqueductal Gray and the Medial Hypothalamus. Master of Science [Biomedical Sciences, (Pharmacology)], December, 1994, 123 pp., 24 figures, references, 137 titles. Electrical brain stimulation (EBS) of the periaqueductal gray (PAG) and the medial hypothalamus (MH) is known to serve as a discriminative and a negative reinforcing stimulus (NRS). Using a two-lever food reinforced discrimination paradigm and a switch-off paradigm, the present study investigated the effects of anxiolytic drugs and an anxiogenic drug on these stimulus effects. A prototypic anxiogenic, pentylenetetrazole (PTZ) potentiated both discriminative stimulus and NRS effects, whereas the full benzodiazepine (BZD) agonist diazepam (DZP), the partial BZD agonist abecarnil (ABC) and 5-HT1A agonist buspirone (BUS, chronic regimen) attenuated a NRS effect. A BZD antagonist, flumazenil (FLU) blocked the effects of DZP and ABC on the NRS effects. DZP failed to attenuate the discriminative stimulus effect. Thus, present study extended the use of a switch-off paradigm to detect novel anxiolytic ABC (putative) and BUX as well as an anxiogenic PTZ. In addition, under the condition used in this study, the use of NRS in a switch-off paradigm more reliably detected both anxiolytic drugs and an anxiogenic drug than the use of discriminative stimulus in a two-lever food reinforced paradigm.Item Effect of Progesterone on Calcium Signaling of Hippocampal Neurons(2006-05-01) Hwang, Ji-Yeon; Koulen; Singh, Meharvan; Yang, ShaohuaJi-yeon Hwang, Effects of Progesterone on Calcium Signaling of Hippocampal Neurons. Master of Science (Pharmacology and Neuroscience), May 2006, 74 pp., 18 Figures. Progesterone (P4) is one of the steroid hormones responsible for female sexual behavior. It has been recently show that P4 plays also multiple roles in the central nervous system (CNS) including neuroprotection. Calcium (Ca2+) is involved in numerous cellular processes in nerve cells such as neurotransmitter release and cell death. In the present studies, we present evidence that P4 increases the activity of IP3R-mediated Ca2+ release within nerve cells leading to cell survival and neuroprotection. The purpose of the present study is to identify the subcellular distribution of all IP3Rs and other signaling proteins including Akt and phosphor-Akt, in the primary hippocampal neuron and to test the hypothesis that P4 controls the gain of IP3R-mediated intracellular Ca2+ signaling in neurons. We observed that primary hippocampal neurons express predominantly IP3R type 1, 2, and 3. The cellular distribution of all IP3R isoforms as well as Akt and phospho-Akt was increased in primary hippocampal neurons by P4 treatment. In addition, phospho-Akt was translocated to nucleus in response to P4. P4-pretreated neurons showed potentiated IP3R-mediated intracellular Ca2+ responses. Acute application of P4 resulted in transient elevations of intracellular Ca2+ concentrations. Our results will contribute to establishing potential pharmacological approaches for the treatment of pathological conditions characterized by a dysregulation of cellular Ca2+ concentrations such as Alzheimer’s disease.Item Effects of Endurance Training on Aortic and Carotid Baroreflex Function(1999-06-01) Smith, Scott Alan; Peter B. Raven; Michael Smith; Patricia A. GwirtzSmith, Scott Alan, Effects of Endurance Training on Aortic and Carotid Baroreflex Function. Doctor of Philosophy (Biomedical Sciences), June 1999; 122 pp; 8 tables; 10 figures; bibliography, 148 titles. Arterial bareflex control of cardiac function is dependent upon afferent input from both the aortic arch and carotid sinus bareceptors. Extensive research in animals has generated conflicting results as to the range of arterial pressures over which each baroreflex operates. Further, the complex integration of afferent signals within the medullary cardiovascular center, in reference to aortic and carotid baroreceptor input, has been characterized as additive, inhibitory, and facilitatory in nature. Such reports make it difficult to draw definitive conclusions about the behavior or central neural processing within the brainstem. In addition, these relationships have yet to be examined in humans. Therefore, the purpose of the investigations described herein, was to quantify the range of pressures over which the arterial aortic and carotid baroreflexes operate as well as to describe the interactive relationship between the aortic and carotid baroreceptors. In order to investigate these questions, we isolated the arterial, aortic, and carotid-cardiac baroreflexes in volunteer subjects generating sigmoidal stimulus-response curves for each reflex arc. Arterial and aortic baroreflex (ABR) control of heart rate (HR) was assessed by inducing graded increases and decreases in mean arterial pressure (MAP) by bolus infusion of the vasoactive agents phenylephrine (PE) and sodium nitroprusside (SN), respectively. Carotid baroreflex (CBR) function was determined utilizing ramped five second pulses of both pressure and suction applied to the carotid sinus via a neck chamber collar, independent of drug administration. The MAP at which the threshold and saturation were elicited did not differ among the reflexes examined indicating each reflex operated over a similar range of arterial pressures. Further, the simple sum of the independently driven HR response ranges of the CBR and ABR was significantly greater than that produced when both baroreceptor populations were concomitantly stimulated (i.e. arterial baroreflex) suggesting an inhibitory interaction. To investigate differential baroreflex control of HR in response to chronic endurance exercise training, a second investigation was designed implementing the reflex isolation techniques described previously. Stimulus-response relationships were compared between high fit (maximal oxygen uptake, VO2max [greater than] 60ml˖kg-1˖min-1) and average fit (VO2maxml˖kg-1˖min-1) individuals. Interestingly, neither the range of operating pressures for each reflex nor the integrative relationship between the ABR and CBR were altered as a result of aerobic training. However, the HR response range elicited from the aortic baroreceptors as a result of hypotensive and hypertensive insult was markedly attenuated in the aerobically trained population compared to their sedentary counterparts, exclusively causing a requisite reduction in arterial baroreflex sensitivity.Item Elucidation of Mechanism and Molecular Determinants Important in Picrotoxin Action in the 5-Hydroxytryptamine Type 3 Receptor(2003-09-01) Das, Paromita; Basu, Alakananda; Forster, Michael J.; Luedtke, Robert R.Das, Paromita, Elucidation of mechanism and molecular determinants important in picrotoxin action in the 5-hydroxytryptamin type 3 receptor. Doctor of Philosophy (Pharmacology and Neuroscience), September 2003, pp. 192, 3 tables, 26 illustrations, 67 titles. The 5-HT3 receptor belongs to the superfamily of ligand-gated ion channels (LGIC), which mediate fast neurotransmission. Till date, only two subtypes of the receptor i.e. 5-HT3A and 5-HT3B have been investigated. The GABAA receptor antagonist picrotoxin inhibits other anion-selective members of the LGIC. Whether PTX inhibits the cation-selective 5-HT3 receptors was previously unknown. Thus, the primary goal of this study was to elucidate the mechanism of action of PTX and identify the amino acids involved in the action of PTX in 5-HT3 receptors. The overall hypothesis tested was that PTX inhibits the 5-HT3 receptor by interacting in the ion channel. PTX-mediated blockade of the 5-HT3A receptors was non-competitive and use-facilitated similar to GABAA receptors suggesting a conserved site of action of these ligands. The inhibitory effect of PTX was reduced drastically in heteromeric 5-HT3A/3B receptors, compared to homomeric 5-HT3A receptors. Picrotoxin should prove to be a useful probe for determining the presence of homomeric vs. heteromeric 5-HT3 receptors in native tissue and recombinant receptor preparations. In anion-selective ion channels, the 2’, 3’ and 6’resides in cytoplasmic aspect of TM2 are known to modulate PTX sensitivity. While mutation of 2’ and 3’ residues in 5-dramatic loss of sensitivity to PTX in 5-HT3A receptors. A converse mutation at 6’ residue in the 5-HT3B subunit caused gain of sensitivity to PTX, suggesting that 6’ is a key determinant of PTX sensitivity. A novel finding was the involvement of 7’ residue in increasing PTX sensitivity in 5-HT3A but not the 5-HT3B subunit. The lack of specific binding by radioligand [3H]EBOB in 5-HT3A receptors suggested that the site of action of convulsants may be different from that anion-selective receptors. The overall results suggest that PTX interacts from that in the anion-selective receptors. The overall results suggest that PTX interact in the ion channel in the 5-HT3 receptors but also underscores the complexity of its interaction with LGICs.Item Elucidation of the Mechanism of Action of Carisoprodol at GABAA Receptors(2009-05-01) Gonzalez, Lorie A.; Dillon, Glenn H.Carisoprodol is an increasingly abused, centrally-acting muscle relaxant. Its sedative effects, which contribute to its therapeutic and recreational use, are attributed to its metabolite, meprobamate, a controlled substance with barbiturate-like activity at GABAA receptors (GABAARs). GABAARs are ion channel-coupled protein complexes underlying the majority of fast synaptic inhibition in the central nervous system. Recent evidence suggests carisoprodol may act independently of meprobamate. Thus, we used behavioral and pharmacological approaches to investigate carisoprodol’s effects on GABAAR function with the ultimate goal of elucidating its mechanism of action at these receptors. In mice, the time course of locomotor depression was comparable for carisoprodol (intraperitoneal or oral) versus meprobamate (intraperitoneal). GABAergic ligands substituted for carisoprodol in drug discrimination studies using carisoprodol trained rats. As observed in vitro, carisoprodol’s effects were antagonized by bemegride, a barbiturate antagonist, but not by the benzodiazepine site antagonist flumazenil, suggesting carisoprodol produces barbiturate-like effects in vivo. Moreover, whole-cell patch clamp recordings were obtained from HEK293 cells expressing human α1β2 and αxβzγ2 (where x = 1-4 and z = 1-2) GABAARs. Each receptor configuration was directly activated and allosterically modulated by carisoprodol in a barbiturate-like manner. Carisoprodol efficacy, but not potency, was subunit-dependent with α and β isoforms contributing to carisoprodol site(s) of action. Notably, carisoprodol was more efficacious at α1-containing receptors, consistent with its sedative effects and abuse potential. Homomeric glycine α1 and GABA ρ1 receptors were carisoprodol-insensitive. Despite similarities between carisoprodol and barbiturates, their sites of action are likely not equivalent as barbiturate-sensitive ρ1W328M subunits were carisoprodol-insensitive. However, chimeric ρ1/α1 receptors gained sensitivity to modulation, but not direct activation by carisoprodol. Our findings indicate carisoprodol modulates GABAARs in a subunit- and receptor-dependent manner, contributing to its pharmacological profile and possibly its abuse potential. Furthermore, partial restoration of modulation, but not direct gating by carisoprodol suggests this drug may mediate its effects via multiple sites on GABAARs.Item Endothelin-1-Induced Signaling Involved in Extracellular Matrix Remodeling(2006-12-01) He, Shaoqing; Thomas Yorio; Neeraj Agarwal; Peter KoulenET-1-Induced Signaling in ECM Remodeling in Astrocytes. Shaoqing He, Department of Pharmacology & Neuroscience, University of North Texas Health Science Center, Fort Worth, TX 76107. ET-1 levels are elevated under pathophysiological conditions, including glaucoma, however, ET-1’s ocular functions are not fully documented. Therefore, ET-1-induced signaling and ECM remodeling in astrocytes and at the optic nerve head were determined in this study. Three signaling pathways, including ERK1/2, PKC, and P13 kinase, were involved in ET-1-medicated cell proliferation of U373MG astrocytoma cells. Blocking one of these pathways completely abolished cell proliferation. It appeared that ERK1/2 activation was involved, but was independent of PKC and P13 kinase activation by ET-1. It was also determined that the ETB receptor was the dominant receptor involved in ERK1/2 phosphorylation and cell proliferation. In addition, ERK1/2 phosphorylation was not transactivated by the EGF receptor by ET-1. The studies also indicated that there was no activation of c/nPKC, although PKC was involved in cell proliferation. In U373MG astrocytoma cells, MAPK-ERK, PKC and P13K pathways appear to exert their roles in parallel without a direct, apparent “cross-talk”. Based on the signaling pathways obtained from U373MG astrocytoma cells, the regulation of MMPs/TIMPs and fibronectin in ET-1-activated human optic nerve head astroctyes (hONAs) was also determined. ET-1 not only induced rapid phosphorylation of ERK1/2 and PKC βI/ βII/δ but also increased the activity of MMP-2 and the expression of TIMP=1 and 2. The activity of MMP-2 was enhanced in the presence of inhibitors of MAPK or PKC in hONAs, whereas the expression of TIMP-1 and 2 was abolished. ET-1 increased the soluble fibronectin (FN) expression as well as FN matrix formation, however, the expression and deposition of FN were MAPK- and PKC-independent, whereas expression and activity of MMps and TIMPs were MAPK- and PKC-dependent. Therefore, ET-1 shifted the balance of MMPs/TIMPs and substrates that altered the ECM composition and subsequently let to ECM remodeling in activated hONA cells. ET-1’s effects on ECM remodeling at the optic nerve head were also examined following intravitreal administration of ET-1 in rats. The increased expression of MMP-9 and collagen VI was detected in both ETB deficient rats and wildtype Wistar rats post ET-1 intravitreal injection for 2 and 14 days, whereas the deposition of FN and collagen IV was unchanged. There was no significant difference in staining of MMP-9 and collagen VI between ETB deficient rats and wildtype Wistar rats. In this study, ECM remodeling was demonstrated in rats injected with ET-1 into the vitreous. Such changes in the ECM seen in the current study provide additional insight into the mechanisms that might explain the glaucomatous changes observed in ET-1-injection or perfusion models. In summary, ET-1 not only activated several signaling pathways in cell proliferation of astrocytes, but also modulated the expression of ECM molecules in vitro and in vivo, indicating that ET-1 plays a regulatory role in ECM remodeling. These effects coupled with observations that ET-1 levels are elevated in glaucoma patients, suggests that ET-1 may be involved in glaucomatous optic neuropathy.Item Extracellular PACE4 is increased following transient oxygen glucose deprivation in Optic Nerve Astrocytes(2008-05-01) Fuller, John Anthony; Wordinger, Robert J.; Clark, Abbot F.; Krishnamoorthy, Raghu R.Fuller, John Anthony Extracellular PACE4 is increased following transient oxygen glucose deprivation in Optic Nerve Astrocytes. Doctor of Philosophy (Biomedical Sciences), May, 2008, 140 pp., 2 tables, 25 illustrations, bibliography, 218 titles. Primary Open Angle Glaucoma (POAG) is a family of heterogeneous optic neuropathies characterized by progressive retinal ganglion cell (RGC) death that leads to peripheral vision loss and eventually blindness. Various risk factors are associated with glaucoma, however the molecular mechanisms leading to RGC cell death remain unknown. The optic nerve serves as the conduit for the transmission of retinal ganglion action potentials to the brain. The cells that compromise the optic nerve form a scaffold that forms a physical support for the RGC axons. One cell type found throughout the optic nerve and associated with the RGC axon is the optic nerve astrocyte (ONA). Astrocytes are a predominant cell throughout the CNS and are believed to play crucial roles in metabolic, growth factor, and structural support, and respond to protect neurons during injury. The neuronal-glial interface in the optic nerve is poorly understood and believed to plan an important role in POAG pathophysiology, as unmyelenated RGC axons have direct contact with astrocyte processes. IN this study, the subtilisin-like Proprotein Convertases, (SPC) a family of proteases responsible for cleaving a wide variety of protein substrates, were examined in the retina and optic nerve head. PACE4, an SPC found to be secreted and active in the extracellular matrix was found to be highly expressed in the optic nerve, and colocalized to Mϋller cells in the retina and astrocytes in the optic nerve. Exposure of primary optic nerve astrocytes to oxygen-glucose deprivation (OGD) induces an increase in PACE4 mRNA. Furthermore, protein levels of extracellular, processed PACE4 increase following transient ODG, whereas the pro form of the molecule is degraded, and is believed to be chaperoned by the cleaved cysteine rich domain, a product found at high levels in the optic nerve in situ and the ONA in vitro. Due to the extracellular activity of PACE4, we hypothesized that it may regulate the bioactivity of TGF-β2, a growth factor believed to be involved in glaucoma-associated ONH remodeling by inducing the production of extracellular matrix (ECM). When PACE4 is inhibited via siRNA-mediated knockdown, as well as extracellular inactivation, TGF-β2 levels decrease. In addition, fibronectin, a major component of the ECM, is decreased. Furthermore, there is an increase in latent TGF-β2 secreted from the cell. It is therefore possible that PACE4 plays an active role in extracellular growth factor maturation, and may be a central mediator for growth factor bioactivity in the glaucomatous ONA.Item Genetic Modulation of β-Amyloid Neurotoxicity and Protection by Nicotinic Agents(2007-05-01) Martin, Shelley E.; Basu, Alakananda; Forster, Michael; Singh, MeharvanMartin, Shelley E., Genetic Modulation of β-Amyloid Neurotoxicity and Protection by Nicotinic Agents. Master of Science (Pharmacology and Neuroscience), May, 2007, 53 pp., 7 figures, 2 tables, bibliography, 95 titles. Β-amyloid1-42 (Aβ42) has been implicated in the pathogenesis of Alzheimer’s disease (AD); however, the amount of this peptide in the brain does not correlate well with the presence or severity of AD. This project tested the hypothesis that individual differences exist in susceptibility to Aβ42 neurotoxicity arising from the differences in the expression of α7 nicotinic acetylcholine receptors α7 nACHRs). This hypothesis was tested in primary neuronal cultures derived from inbred mouse strains which differ in expression of α7 nAChRs. Also, the ability of nicotinic agents to modulate Aβ42 toxicity was examined. Significant strain differences in susceptibility to Aβ42 toxicity were found; however, these were not related to levels of α7 nAChRs. Additionally, strain differences were found in the ability of α7-selective partial agonist, an α7-selective antagonist and a α4β2 nAChR-selective antagonist to protect against this toxicity. Inbred strains of mice may be useful in uncovering the pathophysiology of AD.Item Identification of Actin Binding Proteins Associated with Cross-Linked Actin Networks(2006-12-01) Mills, Christy E.; Clark, Abbot F.; Yorio, Thomas; Wordinger, Robert J.Mills, Christy E., Identification of Actin Binding Proteins Associated with Cross-Lined Actin Networks. Master of Science (Pharmacology and Neuroscience), December 2006, 95 pp., 9 tables, 16 figures, references, 122 titles. Glucocorticoid therapy can leady to ocular hypertension and glaucoma. The purpose of this study is to examine mechanisms contributing to increased intraocular pressure using tissue culture models of steroid-induced ocular hypertension through identification of specific actin-binding proteins associated with cross-linked actin network (CLANs). Human trabecular meshwork ™ cells were cultured to confluence and treated with dexamethasone or vehicle for 14 days. Total RNA was extracted for gene expression analysis to confirm steroid-induced expression of actin binding proteins in human TM cells. Western blots confirmed expression of actin binding proteins and demonstrated the specificity of selected antibodies. Fluorescence microscopy of treated TM cells showed cytoskeleton rearrangements from linear actin stress fibers to cross-linked actin networks and the position of candidate proteins in relation to CLANs. Dexamethasone treatment of TM cells altered the expression of actin-associated proteins that may be important in the formation of CLANs and increased outflow resistance.
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