Phosphodiesterase 5 inhibition on dopaminergic and glutamatergic neurotransmission implications for memory enhancement /

Uthayathas , Subramaniam, Dhanasekaran, Muralikrishnan. Suppiramaniam, Vishnu,

January 2009

Dissertation (Ph.D.)--Auburn University,2009. / Abstract. Vita. Includes bibliographic references.

Modulation of neuronal functions by neuropeptide Y and galanin /

Lee, Chong Chia.

January 2000

Thesis (Ph. D.)--University of Chicago, Department of Neurobiology, Pharmacology, and Physiology, June 2000. / Includes bibliographical references. Also available on the Internet.

The importance of the second transmembrane domain and the first intracellular loop in noradrenaline transporter function /

Sucic, Sonja.

January 2005

Thesis (Ph.D.) - University of Queensland, 2005. / Includes bibliography.

Eag, CaMKII and dCASK: three interacting proteins involved in synaptic transduction /

Bostrom, Stephanie Lynn.

January 2010

Thesis (Ph.D.)--Brandeis University, 2010. / "UMI:3390479." MICROFILM COPY ALSO AVAILABLE IN THE UNIVERSITY ARCHIVES. Includes bibliographical references.

Influence of sensory feedback on rhythmic movement a computational study of resonance tuning in biological systems /

Williams, Carrie.

January 2006

Thesis (Ph. D.)--Biomedical Engineering, Georgia Institute of Technology, 2007. / DeWeerth, Stephen, Committee Chair ; Lee, Robert, Committee Member ; Ting, Lena, Committee Member ; Katz, Paul, Committee Member ; Butera, Robert, Committee Member.

Feedback control in the central 5-HT system : evidence for a role of 5-HT₂c receptors

Quérée, Philip

January 2008

No description available.

612.8

Functional connectivity approaches to focal neurological conditions

Stringer, Michael S.

January 2016

A wide range of conditions are characterised by focal neurological symptoms, yet the pathophysiolgy often remains poorly understood. This thesis has focussed on applying functional neuroimaging in clinical groups. Migraines with aura are amongst the most common conditions posing a significant burden to sufferers. Elevated connectivity was detected in the visual cortex of migraine with aura patients, potentially complementing one of the leading proposed mechanisms for attacks. Minor strokes patients are also affected by focal symptoms after events which in some cases can be prolonged. Altered connectivity was observed in a number of regions reflecting previous findings for acute stroke. A group of transient ischaemic attack patients were also analysed, revealing subtle differences necessitating further study. Lastly disorders of consciousness pose acute challenges for treatment and ongoing care. Task based imaging was applied to form a more accurate picture of residual cognition. Additionally the correlation between measures derived from resting state data and cerebral glucose consumption was explored.

612.8

Effect of small interfering RNA specific for N-methyl-D-asparate receptor two B in models of Parkinson's disease

Ng, Tsz Wa

01 January 2011

No description available.

Analysis

Basal ganglia

Neural transmission

Parkinson's disease

Research

RNA

Isoflurane induced impairment of synaptic transmission in hippocampal neurons of the guinea pig in vitro

Miu, Peter

January 1988

The effects of anaesthetic applications of isoflurane on 82 CA₁ neurons were studied in in vitro preparations (guinea pigs) using intracellular recording techniques. Various parameters of their excitability such as membrane electrical properties, action potentials and their afterhyperpolarizing potentials as well as synaptic transmission were determined during bath perfusion of clinically relevant concentrtaions of isoflurane. Concentrations of isoflurane were detected in the bath with ¹⁹fluorine nuclear magnetic resonance techniques, and were found to range between 0.02 and 0.3 mM. No consistent effects on the membrane properties were observed. When synaptic activity was blocked by tetrodotoxin, isoflurane induced a hyperpolarization (3-5 mV) without affecting input conductance which was computed from the voltage responses to injections of hyperpolarizing current pulses and the slopes of current-voltage relations for each cell. Responses to depolarizing pulses revealed that the threshold, amplitude and duration of the evoked spikes were not greatly altered, although repetitive spike firing was suppressed in a dose-dependent manner by isoflurane. Similarly, the amplitude and duration of the long-lasting hyperpolarizations following the elicitation of multiple (4 or 5) spikes were reduced in a reversible and dose-dependent manner. Reductions in amplitude and duration of excitatory and inhibitory postsynaptic potentials evoked by electrical stimulation of stratum radiatum were observed; these effects also were strictly dependent on the dose, as well as on duration of the application. These investigations have revealed that isoflurane interferes with synaptic transmission in the hippocampal slice preparation and suggest that presynaptic actions on transmitter release, in addition to postsynaptic effects / Medicine, Faculty of / Anesthesiology, Pharmacology and Therapeutics, Department of / Graduate

Isoflurane

Neurons

Neural transmission

Isoflurane

Neurons -- physiology

Synaptic Transmission

Studies on the asynchronous synaptic responses and endogenous potentiating substances of neurotransmission in the hippocampus

Chirwa, Sanika Samuel

January 1988

In the hippocampus, transient tetanic stimulations of inputs, or brief simultaneous pairings of conditioning intracellular postsynaptic depolarizations with activated presynaptic afferents at low stimulation frequencies, result in input specific long-term potentiation (LTP) of synaptic transmission. LTP lasts for hours in vitro, or weeks in vivo, and it is thought to be involved in memory and learning. Experimental evidence in the literature suggests that postsynaptic mechanisms mediate LTP induction, whereas presynaptic mechanisms are involved in its maintenance. Since LTP is thought to be generated by postsynaptic mechanisms and to be subsequently maintained by presynaptic processes, this suggests the presence of feedback interactions during LTP development, however, the experimental evidence for such interactions is presently not available. Consequently, the present studies were conducted to examine possible feedback interactions between postsynaptic and presynaptic elements in the hippocampus. Furthermore, the experiments tested the hypothesis that substances released during tetanic stimulations caused the release of endogenous substances that interacted with activated afferents resulting in alterations in presynaptic functions and LTP production. Experiments were conducted using transversely sectioned guinea pig hippocampal slices. Briefly, physiological medium containing 3.5 mNi Ba++ and 0.5 mM Ca (denoted as Ba medium) was used to induce the asynchronous release of transmitters, observed as evoked miniature EPSPs (minEPSPs) in CA1b neurons after stimulation of the stratum radiatum. During transient Ba++ applications, short bursts of evoked minEPSPs were observed following stimulations of the stratum radiatum or conditioning depolarizing current injections into CA1b neurons. Moreover, the frequencies of minEPSPs were significantly increased immediately after simultaneous stimulations of the stratum radiatum and conditioning depolarizing current injections into CA1b neurons. Significant increases in the frequencies of evoked minEPSPs were also observed during LTP induced by tetanic stimulations. The above increases in the frequencies of evoked minEPSPs were attributed, in part, to presynaptic changes resulting in increases in transmitters released. However, a thorough quanta! analysis is requirea to substantiate this conclusion. In order to determine whether any substances released during tetanic stimulations were involved in the mooulation of presynaptic functions and induction of LTP, samples were collected from guinea pig hippocampus and rabbit neocortex. It was found that samples that were collected during tetanic stimulations of the guinea pig hippocampus in vivo or rabbit neocortex in vivo produced LTP in the guinea pig hippocampal slice in vitro. Applications of these samples after heating and cooling failed to induce LTP. Subsequent studies demonstrated that PC-12 cells incubated in growth medium treated with samples collected during tetanic stimulations of the rabbit neocortex developed extensive neurite growths. In contrast, PC-12 cell cultures incubated in (1) heated and cooled samples, (2) samples collected in the absence of tetanic stimulations of the rabbit neocortex, or (3) plain growth medium, failed to develop neurite growths. In addition, PC-12 cell cultures that were incubatea in growth medium containing samples collected during tetanic stimulations plus saccharin (10 mM), a substance known to inhibit N6F-dependent neurite growth, failed to develop neurites. In separate experiments it was found that saccharin could block (1) the synaptic potentiating effects of the above collected and applied endogenous substances, and (2) LTP induced with tetanic stimulations, in the guinea pig hippocampus in vitro. The concentrations of saccharin used in these studies had insignificant effects on resting membrane potentials, input resistances, spontaneous or evoked responses of CA1b neurons. Furthermore, CA1b neuronal depolarizations induced by N-methyl-DL-aspartate (NMDA) or with tetanic stimulations of the stratum radiatum, were not altered by saccharin applications. In addition, saccharin had insignificant effects on paired-pulse facilitation, post-tetanic potentiations, minEPSP frequencies in CA1b neurons, and Schaffer collaterals terminal excitability. These results suggest that saccharin blocked LTP through mechanisms different from either non-specific alterations in CA1b cell properties or NMDA receptor activation. Perhaps the agent antagonized LTP at a step beyond NMDA receptor activation. That saccharin blocked LTP caused by the applied neocortical sample as well as by tetanic stimulation of the stratum radiatum, and that saccharin also blocked neurite growth in PC-12 cells induced by the neocortical samples, raises the prospect that growth related substances are involved in LTP generation. In other control experiments, it was found that the potentiating effects of the collected endogenous substances were not antagonised by atropine or dihydro-e-erythroidine. Heated and then cooled solutions of glutamate (a putative transmitter at the Schaffer col laterals-CA1b synapses) still maintained their actions on the CA1b population spike. While brief applications of 2.5 μg/ml exogenous NGF (from Vipera lebetina) during low frequency stimulations of the stratum radiatum did not consistently induce LTP, this peptide significantly facilitated the development of LTP when applied in association with tetanic stimulations of weak inputs in the CA1b area. These weak inputs could not support LTP if tetanized in the absence of the exogenous NGF. The results of the studies in this thesis suggested that postsynaptic depolarizations modulated presynaptic functions in the hippocampus. Tetanic stimulations in hippocampus and neocortex caused the release of diffusible substances, which were probably growth related macromolecules, that interacted with activated presynaptic afferents and/or subsynaptic dendritic elements resulting in LTP development. The precise locus of actions of these agents awaits further investigations. / Medicine, Faculty of / Anesthesiology, Pharmacology and Therapeutics, Department of / Graduate

Hippocampus (Brain)

Neural transmission

Synapses

Hippocampus

Synaptic Transmission

Synapses