Hyperpolarization-activated cyclic nucleotide gated channels: a potential molecular link between epileptic seizures and A[beta] generation in Alzheimer's disease

Background One of the best-characterized causative factors of Alzheimer's disease (AD) is the generation of amyloid-[beta] peptide (A[beta]). AD subjects are at high risk of epileptic seizures accompanied by aberrant neuronal excitability, which in itself enhances A[beta] generation. However, t...

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Published in	Molecular neurodegeneration Vol. 7; no. 1; p. 50
Main Authors	Saito, Yuhki, Inoue, Tsuyoshi, Zhu, Gang, Kimura, Naoki, Okada, Motohiro, Nishimura, Masaki, Kimura, Nobuyuki, Murayama, Shigeo, Kaneko, Sunao, Shigemoto, Ryuichi, Imoto, Keiji, Suzuki, Toshiharu
Format	Journal Article
Language	English
Published	London BioMed Central Ltd 03.10.2012 BioMed Central
Subjects	Advertising executives Aging Alzheimer's disease Amyloid precursor protein Brain Cyclic nucleotides Cynomolgus Epilepsy Excitability ion channels (cyclic nucleotide-gated) Macaca fascicularis Neurodegenerative diseases Neurons Primates Proteins Risk factors Rodents Science Seizures Seizures (Medicine) Temporal lobe Japan
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Abstract	Background One of the best-characterized causative factors of Alzheimer's disease (AD) is the generation of amyloid-[beta] peptide (A[beta]). AD subjects are at high risk of epileptic seizures accompanied by aberrant neuronal excitability, which in itself enhances A[beta] generation. However, the molecular linkage between epileptic seizures and A[beta] generation in AD remains unclear. Results X11 and X11-like (X11L) gene knockout mice suffered from epileptic seizures, along with a malfunction of hyperpolarization-activated cyclic nucleotide gated (HCN) channels. Genetic ablation of HCN1 in mice and HCN1 channel blockage in cultured Neuro2a (N2a) cells enhanced A[beta] generation. Interestingly, HCN1 levels dramatically decreased in the temporal lobe of cynomolgus monkeys (Macaca fascicularis) during aging and were significantly diminished in the temporal lobe of sporadic AD patients. Conclusion Because HCN1 associates with amyloid-[beta] precursor protein (APP) and X11/X11L in the brain, genetic deficiency of X11/X11L may induce aberrant HCN1 distribution along with epilepsy. Moreover, the reduction in HCN1 levels in aged primates may contribute to augmented A[beta] generation. Taken together, HCN1 is proposed to play an important role in the molecular linkage between epileptic seizures and A[beta] generation, and in the aggravation of sporadic AD.
AbstractList	Background: One of the best-characterized causative factors of Alzheimer's disease (AD) is the generation of amyloid-[beta] peptide (A[beta]). AD subjects are at high risk of epileptic seizures accompanied by aberrant neuronal excitability, which in itself enhances A[beta] generation. However, the molecular linkage between epileptic seizures and A[beta] generation in AD remains unclear. Results: X11 and X11-like (X11L) gene knockout mice suffered from epileptic seizures, along with a malfunction of hyperpolarization-activated cyclic nucleotide gated (HCN) channels. Genetic ablation of HCN1 in mice and HCN1 channel blockage in cultured Neuro2a (N2a) cells enhanced A[beta] generation. Interestingly, HCN1 levels dramatically decreased in the temporal lobe of cynomolgus monkeys (Macaca fascicularis) during aging and were significantly diminished in the temporal lobe of sporadic AD patients. Conclusion: Because HCN1 associates with amyloid-[beta] precursor protein (APP) and X11/X11L in the brain, genetic deficiency of X11/X11L may induce aberrant HCN1 distribution along with epilepsy. Moreover, the reduction in HCN1 levels in aged primates may contribute to augmented A[beta] generation. Taken together, HCN1 is proposed to play an important role in the molecular linkage between epileptic seizures and A[beta] generation, and in the aggravation of sporadic AD. One of the best-characterized causative factors of Alzheimer's disease (AD) is the generation of amyloid-[beta] peptide (A[beta]). AD subjects are at high risk of epileptic seizures accompanied by aberrant neuronal excitability, which in itself enhances A[beta] generation. However, the molecular linkage between epileptic seizures and A[beta] generation in AD remains unclear. X11 and X11-like (X11L) gene knockout mice suffered from epileptic seizures, along with a malfunction of hyperpolarization-activated cyclic nucleotide gated (HCN) channels. Genetic ablation of HCN1 in mice and HCN1 channel blockage in cultured Neuro2a (N2a) cells enhanced A[beta] generation. Interestingly, HCN1 levels dramatically decreased in the temporal lobe of cynomolgus monkeys (Macaca fascicularis) during aging and were significantly diminished in the temporal lobe of sporadic AD patients. Because HCN1 associates with amyloid-[beta] precursor protein (APP) and X11/X11L in the brain, genetic deficiency of X11/X11L may induce aberrant HCN1 distribution along with epilepsy. Moreover, the reduction in HCN1 levels in aged primates may contribute to augmented A[beta] generation. Taken together, HCN1 is proposed to play an important role in the molecular linkage between epileptic seizures and A[beta] generation, and in the aggravation of sporadic AD. Doc number: 50 Abstract Background: One of the best-characterized causative factors of Alzheimer's disease (AD) is the generation of amyloid-β peptide (Aβ). AD subjects are at high risk of epileptic seizures accompanied by aberrant neuronal excitability, which in itself enhances Aβ generation. However, the molecular linkage between epileptic seizures and Aβ generation in AD remains unclear. Results: X11 and X11-like (X11L) gene knockout mice suffered from epileptic seizures, along with a malfunction of hyperpolarization-activated cyclic nucleotide gated (HCN) channels. Genetic ablation of HCN1 in mice and HCN1 channel blockage in cultured Neuro2a (N2a) cells enhanced Aβ generation. Interestingly, HCN1 levels dramatically decreased in the temporal lobe of cynomolgus monkeys (Macaca fascicularis ) during aging and were significantly diminished in the temporal lobe of sporadic AD patients. Conclusion: Because HCN1 associates with amyloid-β precursor protein (APP) and X11/X11L in the brain, genetic deficiency of X11/X11L may induce aberrant HCN1 distribution along with epilepsy. Moreover, the reduction in HCN1 levels in aged primates may contribute to augmented Aβ generation. Taken together, HCN1 is proposed to play an important role in the molecular linkage between epileptic seizures and Aβ generation, and in the aggravation of sporadic AD.
Audience	Academic
Author	Zhu, Gang Nishimura, Masaki Kimura, Naoki Okada, Motohiro Kaneko, Sunao Imoto, Keiji Kimura, Nobuyuki Suzuki, Toshiharu Saito, Yuhki Murayama, Shigeo Shigemoto, Ryuichi Inoue, Tsuyoshi
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Copyright	COPYRIGHT 2012 BioMed Central Ltd. 2012 Saito et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Title	Hyperpolarization-activated cyclic nucleotide gated channels: a potential molecular link between epileptic seizures and A[beta] generation in Alzheimer's disease
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