1. Store depletion-induced h-channel plasticity rescues a channelopathy linked to Alzheimer’s disease
- Author
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Josefina Ramos-Franco, Melissa R. Pergande, Yuliya Voskobiynyk, Ronen Borenstein, Colette D. Kennedy, Christopher T. Tulisiak, M. Matthew Oh, John F. Disterhoft, Timothy F. Musial, Sheila A. Mullen, Stefan Remy, Jasmine A. Fels, Nicola J. Corbett, Matthew L. Russo, Michael Fill, Grant T. Corbett, Daniel Justus, Jeffrey A. Borgia, Daniel A. Nicholson, Gabriel Carballo, Travis R. Stoub, Gelique D. Ayala, Dane M. Chetkovich, Linda A. Bean, Eric W. Buss, Richard W. Byrne, Natividad Ybarra, Kalipada Pahan, Krystina M. Neuman, Robert Vassar, Ye Han, Jelena Popovic, and Elizabeth Molina-Campos
- Subjects
0301 basic medicine ,Male ,Aging ,physiopathology [Channelopathies] ,Action Potentials ,Hippocampal formation ,Endoplasmic Reticulum ,Behavioral Neuroscience ,0302 clinical medicine ,H channel ,Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels ,Neuronal Plasticity ,biology ,physiology [Pyramidal Cells] ,Chemistry ,Pyramidal Cells ,physiology [Endoplasmic Reticulum] ,physiology [Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels] ,Female ,Genetically modified mouse ,Cognitive Neuroscience ,Experimental and Cognitive Psychology ,Mice, Transgenic ,TRIP8b ,physiopathology [Alzheimer Disease] ,Article ,03 medical and health sciences ,Channelopathy ,Alzheimer Disease ,ddc:570 ,medicine ,HCN channel ,Electron microscopy ,Animals ,Patch clamp ,CA1 Region, Hippocampal ,Ion channel ,physiology [CA1 Region, Hippocampal] ,Endoplasmic reticulum ,ultrastructure [Pyramidal Cells] ,ultrastructure [CA1 Region, Hippocampal] ,medicine.disease ,Disease Models, Animal ,030104 developmental biology ,Array tomography ,biology.protein ,Carvedilol ,Channelopathies ,Neuroscience ,Patch-clamp ,030217 neurology & neurosurgery - Abstract
Voltage-gated ion channels are critical for neuronal integration. Some of these channels, however, are mis-regulated in several neurological disorders, causing both gain- and loss-of-function channelopathies in neurons. Using several transgenic mouse models of Alzheimer’s disease (AD), we find that sub-threshold voltage signals strongly influenced by hyperpolarization-activated, cyclic nucleotide-gated (HCN) channels progressively deteriorate over chronological aging in hippocampal CA1 pyramidal neurons. The degraded signaling via HCN channels in the transgenic mice is accompanied by an age-related global loss of their non-uniform dendritic expression. Both the aberrant signaling via HCN channels and their mislocalization could be restored using a variety of pharmacological agents that target the endoplasmic reticulum (ER). Our rescue of the HCN channelopathy helps provide molecular details into the favorable outcomes of ER-targeting drugs on the pathogenesis and synaptic/cognitive deficits in AD mouse models, and implies that they might have beneficial effects on neurological disorders linked to HCN channelopathies.
- Published
- 2018
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