KATP channels are necessary for glucose-dependent increases in amyloid-β and Alzheimer's disease-related pathology
Elevated blood glucose levels, or hyperglycemia, can increase brain excitability and amyloid-β (Aβ) release, offering a mechanistic link between type 2 diabetes and Alzheimer's disease (AD). Since the cellular mechanisms governing this relationship are poorly understood, we explored whether ATP...
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| Published in: | JCI insight Vol. 8; no. 10 |
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| Main Authors: | , , , , , , , , , , , , , , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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American Society for Clinical Investigation
22-05-2023
American Society for Clinical investigation |
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| Abstract | Elevated blood glucose levels, or hyperglycemia, can increase brain excitability and amyloid-β (Aβ) release, offering a mechanistic link between type 2 diabetes and Alzheimer's disease (AD). Since the cellular mechanisms governing this relationship are poorly understood, we explored whether ATP-sensitive potassium (KATP) channels, which couple changes in energy availability with cellular excitability, play a role in AD pathogenesis. First, we demonstrate that KATP channel subunits Kir6.2/KCNJ11 and SUR1/ABCC8 were expressed on excitatory and inhibitory neurons in the human brain, and cortical expression of KCNJ11 and ABCC8 changed with AD pathology in humans and mice. Next, we explored whether eliminating neuronal KATP channel activity uncoupled the relationship between metabolism, excitability, and Aβ pathology in a potentially novel mouse model of cerebral amyloidosis and neuronal KATP channel ablation (i.e., amyloid precursor protein [APP]/PS1 Kir6.2-/- mouse). Using both acute and chronic paradigms, we demonstrate that Kir6.2-KATP channels are metabolic sensors that regulate hyperglycemia-dependent increases in interstitial fluid levels of Aβ, amyloidogenic processing of APP, and amyloid plaque formation, which may be dependent on lactate release. These studies identify a potentially new role for Kir6.2-KATP channels in AD and suggest that pharmacological manipulation of Kir6.2-KATP channels holds therapeutic promise in reducing Aβ pathology in patients with diabetes or prediabetes. |
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| AbstractList | Elevated blood glucose levels, or hyperglycemia, can increase brain excitability and amyloid-β (Aβ) release, offering a mechanistic link between type 2 diabetes and Alzheimer's disease (AD). Since the cellular mechanisms governing this relationship are poorly understood, we explored whether ATP-sensitive potassium (KATP) channels, which couple changes in energy availability with cellular excitability, play a role in AD pathogenesis. First, we demonstrate that KATP channel subunits Kir6.2/KCNJ11 and SUR1/ABCC8 were expressed on excitatory and inhibitory neurons in the human brain, and cortical expression of KCNJ11 and ABCC8 changed with AD pathology in humans and mice. Next, we explored whether eliminating neuronal KATP channel activity uncoupled the relationship between metabolism, excitability, and Aβ pathology in a potentially novel mouse model of cerebral amyloidosis and neuronal KATP channel ablation (i.e., amyloid precursor protein [APP]/PS1 Kir6.2-/- mouse). Using both acute and chronic paradigms, we demonstrate that Kir6.2-KATP channels are metabolic sensors that regulate hyperglycemia-dependent increases in interstitial fluid levels of Aβ, amyloidogenic processing of APP, and amyloid plaque formation, which may be dependent on lactate release. These studies identify a potentially new role for Kir6.2-KATP channels in AD and suggest that pharmacological manipulation of Kir6.2-KATP channels holds therapeutic promise in reducing Aβ pathology in patients with diabetes or prediabetes. Elevated blood glucose levels, or hyperglycemia, can increase brain excitability and amyloid-β (Aβ) release, offering a mechanistic link between type 2 diabetes and Alzheimer’s disease (AD). Since the cellular mechanisms governing this relationship are poorly understood, we explored whether ATP-sensitive potassium (K ATP ) channels, which couple changes in energy availability with cellular excitability, play a role in AD pathogenesis. First, we demonstrate that K ATP channel subunits Kir6.2/ KCNJ11 and SUR1/ ABCC8 were expressed on excitatory and inhibitory neurons in the human brain, and cortical expression of KCNJ11 and ABCC8 changed with AD pathology in humans and mice. Next, we explored whether eliminating neuronal K ATP channel activity uncoupled the relationship between metabolism, excitability, and Aβ pathology in a potentially novel mouse model of cerebral amyloidosis and neuronal K ATP channel ablation (i.e., amyloid precursor protein [APP]/PS1 Kir6.2 –/– mouse). Using both acute and chronic paradigms, we demonstrate that Kir6.2-K ATP channels are metabolic sensors that regulate hyperglycemia-dependent increases in interstitial fluid levels of Aβ, amyloidogenic processing of APP, and amyloid plaque formation, which may be dependent on lactate release. These studies identify a potentially new role for Kir6.2-K ATP channels in AD and suggest that pharmacological manipulation of Kir6.2-K ATP channels holds therapeutic promise in reducing Aβ pathology in patients with diabetes or prediabetes. |
| Author | Caesar, Emily E Pettit-Mee, Ryan J Sens, Jonathon P Remedi, Maria S Carroll, Caitlin M Moritz, William R Nichols, Colin G Kellar, Derek Snipes, James A Dhillon, Jasmeen Grizzanti, John Stanley, Molly Kaye, Sarah D Constantino, Nicholas J Pait, Morgan C Kiraly, Drew D Nicol, Noelle I Holtzman, David M Day, Stephen M Karch, Celeste M Macauley, Shannon L Deitelzweig, Lily J |
| AuthorAffiliation | 4 Department of Biology, College of Arts and Sciences, University of Vermont, Burlington, Vermont, USA 12 Center for Precision Medicine; and 1 Department of Physiology and Pharmacology and 8 Knight Alzheimer’s Disease Research Center, Department of Neurology; and 9 Center for the Investigation of Membrane Excitability Diseases, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA 10 Alzheimer’s Disease Research Center 5 Department of Medicine, Division of Endocrinology, Metabolism and Lipid Research 3 Department of Neurology, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA 11 Center on Diabetes, Obesity and Metabolism 13 Cardiovascular Sciences Center, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA 7 Hope Center for Neurological Disorders 6 Department of Psychiatry 2 Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA |
| AuthorAffiliation_xml | – name: 6 Department of Psychiatry – name: 5 Department of Medicine, Division of Endocrinology, Metabolism and Lipid Research – name: 7 Hope Center for Neurological Disorders – name: 1 Department of Physiology and Pharmacology and – name: 3 Department of Neurology, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA – name: 13 Cardiovascular Sciences Center, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – name: 2 Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – name: 9 Center for the Investigation of Membrane Excitability Diseases, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA – name: 10 Alzheimer’s Disease Research Center – name: 8 Knight Alzheimer’s Disease Research Center, Department of Neurology; and – name: 11 Center on Diabetes, Obesity and Metabolism – name: 12 Center for Precision Medicine; and – name: 4 Department of Biology, College of Arts and Sciences, University of Vermont, Burlington, Vermont, USA |
| Author_xml | – sequence: 1 givenname: John surname: Grizzanti fullname: Grizzanti, John organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 2 givenname: William R surname: Moritz fullname: Moritz, William R organization: Department of Neurology, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA – sequence: 3 givenname: Morgan C surname: Pait fullname: Pait, Morgan C organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 4 givenname: Molly surname: Stanley fullname: Stanley, Molly organization: Department of Biology, College of Arts and Sciences, University of Vermont, Burlington, Vermont, USA – sequence: 5 givenname: Sarah D surname: Kaye fullname: Kaye, Sarah D organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 6 givenname: Caitlin M surname: Carroll fullname: Carroll, Caitlin M organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 7 givenname: Nicholas J surname: Constantino fullname: Constantino, Nicholas J organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 8 givenname: Lily J surname: Deitelzweig fullname: Deitelzweig, Lily J organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 9 givenname: James A surname: Snipes fullname: Snipes, James A organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 10 givenname: Derek surname: Kellar fullname: Kellar, Derek organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 11 givenname: Emily E surname: Caesar fullname: Caesar, Emily E organization: Department of Neurology, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA – sequence: 12 givenname: Ryan J surname: Pettit-Mee fullname: Pettit-Mee, Ryan J organization: Department of Physiology and Pharmacology and – sequence: 13 givenname: Stephen M surname: Day fullname: Day, Stephen M organization: Department of Physiology and Pharmacology and – sequence: 14 givenname: Jonathon P surname: Sens fullname: Sens, Jonathon P organization: Department of Physiology and Pharmacology and – sequence: 15 givenname: Noelle I surname: Nicol fullname: Nicol, Noelle I organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 16 givenname: Jasmeen surname: Dhillon fullname: Dhillon, Jasmeen organization: Department of Internal Medicine, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA – sequence: 17 givenname: Maria S surname: Remedi fullname: Remedi, Maria S organization: Department of Medicine, Division of Endocrinology, Metabolism and Lipid Research – sequence: 18 givenname: Drew D surname: Kiraly fullname: Kiraly, Drew D organization: Department of Physiology and Pharmacology and – sequence: 19 givenname: Celeste M surname: Karch fullname: Karch, Celeste M organization: Knight Alzheimer's Disease Research Center, Department of Neurology; and – sequence: 20 givenname: Colin G surname: Nichols fullname: Nichols, Colin G organization: Center for the Investigation of Membrane Excitability Diseases, Washington University School of Medicine in St. Louis, St. Louis, Missouri, USA – sequence: 21 givenname: David M surname: Holtzman fullname: Holtzman, David M organization: Knight Alzheimer's Disease Research Center, Department of Neurology; and – sequence: 22 givenname: Shannon L surname: Macauley fullname: Macauley, Shannon L organization: Cardiovascular Sciences Center, Wake Forest School of Medicine, Winston-Salem, North Carolina, USA |
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| Keywords | Aging Glucose metabolism Neuroscience Ion channels Alzheimer disease |
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| Snippet | Elevated blood glucose levels, or hyperglycemia, can increase brain excitability and amyloid-β (Aβ) release, offering a mechanistic link between type 2... |
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| SubjectTerms | Aging Alzheimer Disease - pathology Amyloid beta-Peptides - metabolism Amyloid beta-Protein Precursor - metabolism Animals Diabetes Mellitus, Type 2 - complications Glucose Humans Hyperglycemia KATP Channels - metabolism Mice Neuroscience |
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| Title | KATP channels are necessary for glucose-dependent increases in amyloid-β and Alzheimer's disease-related pathology |
| URI | https://www.ncbi.nlm.nih.gov/pubmed/37129980 https://search.proquest.com/docview/2808585609 https://pubmed.ncbi.nlm.nih.gov/PMC10386887 https://doaj.org/article/62f0275671b24363b2fe41c05f92976d |
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