Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration

Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration

Vascular disease contributes to neurodegeneration, which is associated with decreased blood pressure in older humans. Plasmalogens, ether phospholipids produced by peroxisomes, are decreased in Alzheimer's disease, Parkinson's disease, and other neurodegenerative disorders. However, the me...

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Main Authors: Larry D. Spears, Sangeeta Adak, Guifang Dong, Xiaochao Wei, George Spyropoulos, Qiang Zhang, Li Yin, Chu Feng, Donghua Hu, Irfan J. Lodhi, Fong-Fu Hsu, Rithwick Rajagopal, Kevin K. Noguchi, Carmen M. Halabi, Lindsey Brier, Annie R. Bice, Brian V. Lananna, Erik S. Musiek, Oshri Avraham, Valeria Cavalli, Jerrah K. Holth, David M. Holtzman, David F. Wozniak, Joseph P. Culver, Clay F. Semenkovich
Format: Article
Language:English
Published: Elsevier 2021-01-01
Series:Journal of Lipid Research
Subjects:
glycerophospholipids
plasmalogens
phospholipids/biosynthesis
peroxisomes
vascular biology/endothelial cells
Online Access:http://www.sciencedirect.com/science/article/pii/S0022227521000614
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author Larry D. Spears
Sangeeta Adak
Guifang Dong
Xiaochao Wei
George Spyropoulos
Qiang Zhang
Li Yin
Chu Feng
Donghua Hu
Irfan J. Lodhi
Fong-Fu Hsu
Rithwick Rajagopal
Kevin K. Noguchi
Carmen M. Halabi
Lindsey Brier
Annie R. Bice
Brian V. Lananna
Erik S. Musiek
Oshri Avraham
Valeria Cavalli
Jerrah K. Holth
David M. Holtzman
David F. Wozniak
Joseph P. Culver
Clay F. Semenkovich
spellingShingle Larry D. Spears
Sangeeta Adak
Guifang Dong
Xiaochao Wei
George Spyropoulos
Qiang Zhang
Li Yin
Chu Feng
Donghua Hu
Irfan J. Lodhi
Fong-Fu Hsu
Rithwick Rajagopal
Kevin K. Noguchi
Carmen M. Halabi
Lindsey Brier
Annie R. Bice
Brian V. Lananna
Erik S. Musiek
Oshri Avraham
Valeria Cavalli
Jerrah K. Holth
David M. Holtzman
David F. Wozniak
Joseph P. Culver
Clay F. Semenkovich
Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
Journal of Lipid Research
glycerophospholipids
plasmalogens
phospholipids/biosynthesis
peroxisomes
vascular biology/endothelial cells
author_facet Larry D. Spears
Sangeeta Adak
Guifang Dong
Xiaochao Wei
George Spyropoulos
Qiang Zhang
Li Yin
Chu Feng
Donghua Hu
Irfan J. Lodhi
Fong-Fu Hsu
Rithwick Rajagopal
Kevin K. Noguchi
Carmen M. Halabi
Lindsey Brier
Annie R. Bice
Brian V. Lananna
Erik S. Musiek
Oshri Avraham
Valeria Cavalli
Jerrah K. Holth
David M. Holtzman
David F. Wozniak
Joseph P. Culver
Clay F. Semenkovich
author_sort Larry D. Spears
title Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
title_short Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
title_full Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
title_fullStr Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
title_full_unstemmed Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
title_sort endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 2021-01-01
description Vascular disease contributes to neurodegeneration, which is associated with decreased blood pressure in older humans. Plasmalogens, ether phospholipids produced by peroxisomes, are decreased in Alzheimer's disease, Parkinson's disease, and other neurodegenerative disorders. However, the mechanistic links between ether phospholipids, blood pressure, and neurodegeneration are not fully understood. Here, we show that endothelium-derived ether phospholipids affect blood pressure, behavior, and neurodegeneration in mice. In young adult mice, inducible endothelial-specific disruption of PexRAP, a peroxisomal enzyme required for ether lipid synthesis, unexpectedly decreased circulating plasmalogens. PexRAP endothelial knockout (PEKO) mice responded normally to hindlimb ischemia but had lower blood pressure and increased plasma renin activity. In PEKO as compared with control mice, tyrosine hydroxylase was decreased in the locus coeruleus, which maintains blood pressure and arousal. PEKO mice moved less, slept more, and had impaired attention to and recall of environmental events as well as mild spatial memory deficits. In PEKO hippocampus, gliosis was increased, and a plasmalogen associated with memory was decreased. Despite lower blood pressure, PEKO mice had generally normal homotopic functional connectivity by optical neuroimaging of the cerebral cortex. Decreased glycogen synthase kinase-3 phosphorylation, a marker of neurodegeneration, was detected in PEKO cerebral cortex. In a co-culture system, PexRAP knockdown in brain endothelial cells decreased glycogen synthase kinase-3 phosphorylation in co-cultured astrocytes that was rescued by incubation with the ether lipid alkylglycerol. Taken together, our findings suggest that endothelium-derived ether lipids mediate several biological processes and may also confer neuroprotection in mice.
topic glycerophospholipids
plasmalogens
phospholipids/biosynthesis
peroxisomes
vascular biology/endothelial cells
url http://www.sciencedirect.com/science/article/pii/S0022227521000614
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spelling doaj-a4a46b80f32646ea94b6e4c85fe531fe2021-05-24T04:29:30ZengElsevierJournal of Lipid Research0022-22752021-01-0162100079Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegenerationLarry D. Spears0Sangeeta Adak1Guifang Dong2Xiaochao Wei3George Spyropoulos4Qiang Zhang5Li Yin6Chu Feng7Donghua Hu8Irfan J. Lodhi9Fong-Fu Hsu10Rithwick Rajagopal11Kevin K. Noguchi12Carmen M. Halabi13Lindsey Brier14Annie R. Bice15Brian V. Lananna16Erik S. Musiek17Oshri Avraham18Valeria Cavalli19Jerrah K. Holth20David M. Holtzman21David F. Wozniak22Joseph P. Culver23Clay F. Semenkovich24Division of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USA; Hubei Key Laboratory of Animal Nutrition and Feed Science, Wuhan Polytechnic University, Wuhan, ChinaDivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADepartment of Pediatrics, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USADepartment of Ophthalmology & Visual Sciences, Washington University, St. Louis, MO, USADepartment of Psychiatry, Washington University, St. Louis, MO, USADepartment of Pediatrics, Washington University, St. Louis, MO, USADepartment of Radiology, Washington University, St. Louis, MO, USADepartment of Radiology, Washington University, St. Louis, MO, USADepartment of Neurology, Washington University, St. Louis, MO, USADepartment of Neurology, Washington University, St. Louis, MO, USADepartment of Neuroscience, Washington University, St. Louis, MO, USADepartment of Neuroscience, Washington University, St. Louis, MO, USADepartment of Neurology, Washington University, St. Louis, MO, USADepartment of Neurology, Washington University, St. Louis, MO, USADepartment of Psychiatry, Washington University, St. Louis, MO, USADepartment of Radiology, Washington University, St. Louis, MO, USADivision of Endocrinology, Metabolism & Lipid Research, Department of Medicine, Washington University, St. Louis, MO, USA; Department of Cell Biology & Physiology, Washington University, St. Louis, MO, USA; For correspondence: Clay F. SemenkovichVascular disease contributes to neurodegeneration, which is associated with decreased blood pressure in older humans. Plasmalogens, ether phospholipids produced by peroxisomes, are decreased in Alzheimer's disease, Parkinson's disease, and other neurodegenerative disorders. However, the mechanistic links between ether phospholipids, blood pressure, and neurodegeneration are not fully understood. Here, we show that endothelium-derived ether phospholipids affect blood pressure, behavior, and neurodegeneration in mice. In young adult mice, inducible endothelial-specific disruption of PexRAP, a peroxisomal enzyme required for ether lipid synthesis, unexpectedly decreased circulating plasmalogens. PexRAP endothelial knockout (PEKO) mice responded normally to hindlimb ischemia but had lower blood pressure and increased plasma renin activity. In PEKO as compared with control mice, tyrosine hydroxylase was decreased in the locus coeruleus, which maintains blood pressure and arousal. PEKO mice moved less, slept more, and had impaired attention to and recall of environmental events as well as mild spatial memory deficits. In PEKO hippocampus, gliosis was increased, and a plasmalogen associated with memory was decreased. Despite lower blood pressure, PEKO mice had generally normal homotopic functional connectivity by optical neuroimaging of the cerebral cortex. Decreased glycogen synthase kinase-3 phosphorylation, a marker of neurodegeneration, was detected in PEKO cerebral cortex. In a co-culture system, PexRAP knockdown in brain endothelial cells decreased glycogen synthase kinase-3 phosphorylation in co-cultured astrocytes that was rescued by incubation with the ether lipid alkylglycerol. Taken together, our findings suggest that endothelium-derived ether lipids mediate several biological processes and may also confer neuroprotection in mice.http://www.sciencedirect.com/science/article/pii/S0022227521000614glycerophospholipidsplasmalogensphospholipids/biosynthesisperoxisomesvascular biology/endothelial cells

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