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- Acetylcholine; arousal; brain slice; hypocretin; oscillations; reticular activating system; serotonin (1)
- Action Potentials (1)
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- Ca2+ signaling; dorsal raphe nucleus; laterodorsal tegmental nucleus; locus coeruleus; whole-cell patch-clamp recording (1)
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- Hypocretin (1)
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- Inbred C57BL (1)
- Inhibition (1)
- Interneurons (1)
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- Kv3 (1)
- Male (1)
- Mesopontine cholinergic neurons (1)
- Mice (1)
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- Narcolepsy (1)
- Neural Inhibition (1)
- Neurons (1)
- Neuropeptides (1)
- Nitric oxide synthase (1)
Articles 1 - 5 of 5
Full-Text Articles in Physiology
Orexin Receptor Activation Generates Gamma Band Input To Cholinergic And Serotonergic Arousal System Neurons And Drives An Intrinsic Ca(2+)-Dependent Resonance In Ldt And Ppt Cholinergic Neurons, Masaru Ishibashi, Iryna Gumenchuk, Bryan Kang, Catherine Steger, Elizabeth Lynn, Nancy Molina, Leonard M. Eisenberg, Christopher S. Leonard
Orexin Receptor Activation Generates Gamma Band Input To Cholinergic And Serotonergic Arousal System Neurons And Drives An Intrinsic Ca(2+)-Dependent Resonance In Ldt And Ppt Cholinergic Neurons, Masaru Ishibashi, Iryna Gumenchuk, Bryan Kang, Catherine Steger, Elizabeth Lynn, Nancy Molina, Leonard M. Eisenberg, Christopher S. Leonard
NYMC Faculty Publications
A hallmark of the waking state is a shift in EEG power to higher frequencies with epochs of synchronized intracortical gamma activity (30-60 Hz) - a process associated with high-level cognitive functions. The ascending arousal system, including cholinergic laterodorsal (LDT) and pedunculopontine (PPT) tegmental neurons and serotonergic dorsal raphe (DR) neurons, promotes this state. Recently, this system has been proposed as a gamma wave generator, in part, because some neurons produce high-threshold, Ca(2+)-dependent oscillations at gamma frequencies. However, it is not known whether arousal-related inputs to these neurons generate such oscillations, or whether such oscillations are ever transmitted to neuronal …
Differential Actions Of Orexin Receptors In Brainstem Cholinergic And Monoaminergic Neurons Revealed By Receptor Knockouts: Implications For Orexinergic Signaling In Arousal And Narcolepsy, Kristi Kohlmeier, Christopher Tyler, Mike Kalogiannis, Masaru Ishibashi, Iryna Gumenchuk, Masashi Yanagisawa, Christopher S. Leonard
Differential Actions Of Orexin Receptors In Brainstem Cholinergic And Monoaminergic Neurons Revealed By Receptor Knockouts: Implications For Orexinergic Signaling In Arousal And Narcolepsy, Kristi Kohlmeier, Christopher Tyler, Mike Kalogiannis, Masaru Ishibashi, Iryna Gumenchuk, Masashi Yanagisawa, Christopher S. Leonard
NYMC Faculty Publications
Orexin neuropeptides influence multiple homeostatic functions and play an essential role in the expression of normal sleep-wake behavior. While their two known receptors (OX1 and OX2) are targets for novel pharmacotherapeutics, the actions mediated by each receptor remain largely unexplored. Using brain slices from mice constitutively lacking either receptor, we used whole-cell and Ca(2+) imaging methods to delineate the cellular actions of each receptor within cholinergic [laterodorsal tegmental nucleus (LDT)] and monoaminergic [dorsal raphe (DR) and locus coeruleus (LC)] brainstem nuclei-where orexins promote arousal and suppress REM sleep. In slices from OX(-/-) 2 mice, orexin-A (300 nM) elicited wild-type responses …
Specific Functions Of Synaptically Localized Potassium Channels In Synaptic Transmission At The Neocortical Gabaergic Fast-Spiking Cell Synapse, Ethan Goldberg, Shigeo Watanabe, Su Ying Chang, Rolf Joho, Z Josh Huang, Christopher S. Leonard, Bernardo Rudy
Specific Functions Of Synaptically Localized Potassium Channels In Synaptic Transmission At The Neocortical Gabaergic Fast-Spiking Cell Synapse, Ethan Goldberg, Shigeo Watanabe, Su Ying Chang, Rolf Joho, Z Josh Huang, Christopher S. Leonard, Bernardo Rudy
NYMC Faculty Publications
Potassium (K+) channel subunits of the Kv3 subfamily (Kv3.1-Kv3.4) display a positively shifted voltage dependence of activation and fast activation/deactivation kinetics when compared with other voltage-gated K+ channels, features that confer on Kv3 channels the ability to accelerate the repolarization of the action potential (AP) efficiently and specifically. In the cortex, the Kv3.1 and Kv3.2 proteins are expressed prominently in a subset of GABAergic interneurons known as fast-spiking (FS) cells and in fact are a significant determinant of the fast-spiking discharge pattern. However, in addition to expression at FS cell somata, Kv3.1 and Kv3.2 proteins also are expressed prominently at …
Direct And Indirect Excitation Of Laterodorsal Tegmental Neurons By Hypocretin/Orexin Peptides: Implications For Wakefulness And Narcolepsy, Sophie Burlet, Christopher Tyler, Christopher S. Leonard
Direct And Indirect Excitation Of Laterodorsal Tegmental Neurons By Hypocretin/Orexin Peptides: Implications For Wakefulness And Narcolepsy, Sophie Burlet, Christopher Tyler, Christopher S. Leonard
NYMC Faculty Publications
Compelling evidence links the recently discovered hypothalamic peptides Hypocretin/Orexin (Hcrt/Orx) to rapid eye movement sleep (REM) control and the sleep disorder narcolepsy, yet how they influence sleep-related systems is not well understood. We investigated the action of Hcrt/Orx on mesopontine cholinergic (MPCh) neurons of the laterodorsal tegmental nucleus (LDT), a target group whose function is altered in canine narcolepsy and appears pivotal for normal REM and wakefulness. Extracellular recordings from mouse brainstem slices revealed that Hcrt/Orx evoked prolonged firing of LDT neurons. Whole-cell recordings revealed that Hcrt/Orx had actions on both presynaptic neurons and at postsynaptic sites. Hcrt/Orx produced an …
Impaired Fast-Spiking, Suppressed Cortical Inhibition, And Increased Susceptibility To Seizures In Mice Lacking Kv3.2 K+ Channel Proteins, David Lau, Eleazar Vega-Saenz De Miera, Diego Contreras, Alan Chow, Richard Paylor, Christopher S. Leonard, Bernardo Rudy
Impaired Fast-Spiking, Suppressed Cortical Inhibition, And Increased Susceptibility To Seizures In Mice Lacking Kv3.2 K+ Channel Proteins, David Lau, Eleazar Vega-Saenz De Miera, Diego Contreras, Alan Chow, Richard Paylor, Christopher S. Leonard, Bernardo Rudy
NYMC Faculty Publications
Voltage-gated K(+) channels of the Kv3 subfamily have unusual electrophysiological properties, including activation at very depolarized voltages (positive to -10 mV) and very fast deactivation rates, suggesting special roles in neuronal excitability. In the brain, Kv3 channels are prominently expressed in select neuronal populations, which include fast-spiking (FS) GABAergic interneurons of the neocortex, hippocampus, and caudate, as well as other high-frequency firing neurons. Although evidence points to a key role in high-frequency firing, a definitive understanding of the function of these channels has been hampered by a lack of selective pharmacological tools. We therefore generated mouse lines in which one …