Brain uptake and utilization of fatty acids: Applications to peroxisomal biogenesis diseases

P. A. Watkins; J. A. Hamilton; A. Leaf; A. A. Spector; S. A. Moore; R. E. Anderson; H. W. Moser; M. J. Noetzel; R. Katz

doi:10.1385/JMN:16:2-3:87

Brain uptake and utilization of fatty acids: Applications to peroxisomal biogenesis diseases

P. A. Watkins, J. A. Hamilton, A. Leaf, A. A. Spector, S. A. Moore, R. E. Anderson, H. W. Moser, M. J. Noetzel, R. Katz

Kennedy Krieger Institute

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

The brain is rich in diverse fatty acids saturated, monounsaturated and polyunsaturated fatty acids with chain lengths ranging from less than 16 to more than 24 carbons that make up the complex lipids present in this organ. While some fatty acids are derived from endogenous synthesis, others must come from exogenous sources. The mechanism(s) by which fatty acids enter cells has been the subject of much debate. While some investigators argue for a protein-mediated process, others suggest that simple diffusion is sufficient. In the brain, uptake is further complicated by the presence of the blood-brain barrier. Brain fatty acid homeostasis is disturbed in many human disorders, as typified by the peroxisomal biogenesis diseases. A workshop designed to bring together researchers from varied backgrounds to discuss these issues in an open forum was held in March, 2000. In addition to assessing the current state of knowledge, areas requiring additional investigation were identified and recommendations for future research were made. A brief overview of the invited talks is presented here.

Original language	English (US)
Pages (from-to)	87-92
Number of pages	6
Journal	Journal of Molecular Neuroscience
Volume	16
Issue number	2-3
DOIs	https://doi.org/10.1385/JMN:16:2-3:87
State	Published - 2001

Keywords

Brain
Fatty acid
Peroxisomal biogenesis diseases
Transport

ASJC Scopus subject areas

Cellular and Molecular Neuroscience

Access to Document

10.1385/JMN:16:2-3:87

Cite this

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title = "Brain uptake and utilization of fatty acids: Applications to peroxisomal biogenesis diseases",

abstract = "The brain is rich in diverse fatty acids saturated, monounsaturated and polyunsaturated fatty acids with chain lengths ranging from less than 16 to more than 24 carbons that make up the complex lipids present in this organ. While some fatty acids are derived from endogenous synthesis, others must come from exogenous sources. The mechanism(s) by which fatty acids enter cells has been the subject of much debate. While some investigators argue for a protein-mediated process, others suggest that simple diffusion is sufficient. In the brain, uptake is further complicated by the presence of the blood-brain barrier. Brain fatty acid homeostasis is disturbed in many human disorders, as typified by the peroxisomal biogenesis diseases. A workshop designed to bring together researchers from varied backgrounds to discuss these issues in an open forum was held in March, 2000. In addition to assessing the current state of knowledge, areas requiring additional investigation were identified and recommendations for future research were made. A brief overview of the invited talks is presented here.",

keywords = "Brain, Fatty acid, Peroxisomal biogenesis diseases, Transport",

author = "Watkins, {P. A.} and Hamilton, {J. A.} and A. Leaf and Spector, {A. A.} and Moore, {S. A.} and Anderson, {R. E.} and Moser, {H. W.} and Noetzel, {M. J.} and R. Katz",

note = "Funding Information: This workshop was supported in part by NIH grant NS39685 to Paul A. Watkins and by generous donations from BASF Corporation, Body Bio Corporation, Laxdale, Ltd., Martek Biosciences, Inc., Mead Johnson Nutritionals, Nordic Naturals, Ocean Nutrition Canada, Ltd., OmegaTech, Inc., Roche Vitamins, Inc., Ross Products Division of Abbott Laboratories, Scientific Hospital Supplies, and the United Leukodystrophy Foundation.",

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doi = "10.1385/JMN:16:2-3:87",

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AU - Watkins, P. A.

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AU - Spector, A. A.

AU - Moore, S. A.

AU - Anderson, R. E.

AU - Moser, H. W.

AU - Noetzel, M. J.

AU - Katz, R.

N1 - Funding Information: This workshop was supported in part by NIH grant NS39685 to Paul A. Watkins and by generous donations from BASF Corporation, Body Bio Corporation, Laxdale, Ltd., Martek Biosciences, Inc., Mead Johnson Nutritionals, Nordic Naturals, Ocean Nutrition Canada, Ltd., OmegaTech, Inc., Roche Vitamins, Inc., Ross Products Division of Abbott Laboratories, Scientific Hospital Supplies, and the United Leukodystrophy Foundation.

PY - 2001

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N2 - The brain is rich in diverse fatty acids saturated, monounsaturated and polyunsaturated fatty acids with chain lengths ranging from less than 16 to more than 24 carbons that make up the complex lipids present in this organ. While some fatty acids are derived from endogenous synthesis, others must come from exogenous sources. The mechanism(s) by which fatty acids enter cells has been the subject of much debate. While some investigators argue for a protein-mediated process, others suggest that simple diffusion is sufficient. In the brain, uptake is further complicated by the presence of the blood-brain barrier. Brain fatty acid homeostasis is disturbed in many human disorders, as typified by the peroxisomal biogenesis diseases. A workshop designed to bring together researchers from varied backgrounds to discuss these issues in an open forum was held in March, 2000. In addition to assessing the current state of knowledge, areas requiring additional investigation were identified and recommendations for future research were made. A brief overview of the invited talks is presented here.

AB - The brain is rich in diverse fatty acids saturated, monounsaturated and polyunsaturated fatty acids with chain lengths ranging from less than 16 to more than 24 carbons that make up the complex lipids present in this organ. While some fatty acids are derived from endogenous synthesis, others must come from exogenous sources. The mechanism(s) by which fatty acids enter cells has been the subject of much debate. While some investigators argue for a protein-mediated process, others suggest that simple diffusion is sufficient. In the brain, uptake is further complicated by the presence of the blood-brain barrier. Brain fatty acid homeostasis is disturbed in many human disorders, as typified by the peroxisomal biogenesis diseases. A workshop designed to bring together researchers from varied backgrounds to discuss these issues in an open forum was held in March, 2000. In addition to assessing the current state of knowledge, areas requiring additional investigation were identified and recommendations for future research were made. A brief overview of the invited talks is presented here.

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Brain uptake and utilization of fatty acids: Applications to peroxisomal biogenesis diseases

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Keywords

ASJC Scopus subject areas

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