In vivo human apolipoprotein E isoform fractional turnover rates in the CNS

Kristin R. Wildsmith; Jacob M. Basak; Bruce W. Patterson; Yuriy Pyatkivskyy; Jungsu Kim; Kevin E. Yarasheski; Jennifer X. Wang; Kwasi G. Mawuenyega; Hong Jiang; Maia Parsadanian; Hyejin Yoon; Tom Kasten; Wendy C. Sigurdson; Chengjie Xiong; Alison Goate; David M. Holtzman; Randall J. Bateman

doi:10.1371/journal.pone.0038013

In vivo human apolipoprotein E isoform fractional turnover rates in the CNS

Kristin R. Wildsmith, Jacob M. Basak, Bruce W. Patterson, Yuriy Pyatkivskyy, Jungsu Kim, Kevin E. Yarasheski, Jennifer X. Wang, Kwasi G. Mawuenyega, Hong Jiang, Maia Parsadanian, Hyejin Yoon, Tom Kasten, Wendy C. Sigurdson, Chengjie Xiong, Alison Goate, David M. Holtzman, Randall J. Bateman

Neuroscience

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

32 Scopus citations

Abstract

Apolipoprotein E (ApoE) is the strongest genetic risk factor for Alzheimer's disease and has been implicated in the risk for other neurological disorders. The three common ApoE isoforms (ApoE2, E3, and E4) each differ by a single amino acid, with ApoE4 increasing and ApoE2 decreasing the risk of Alzheimer's disease (AD). Both the isoform and amount of ApoE in the brain modulate AD pathology by altering the extent of amyloid beta (Aβ) peptide deposition. Therefore, quantifying ApoE isoform production and clearance rates may advance our understanding of the role of ApoE in health and disease. To measure the kinetics of ApoE in the central nervous system (CNS), we applied in vivo stable isotope labeling to quantify the fractional turnover rates of ApoE isoforms in 18 cognitively-normal adults and in ApoE3 and ApoE4 targeted-replacement mice. No isoform-specific differences in CNS ApoE3 and ApoE4 turnover rates were observed when measured in human CSF or mouse brain. However, CNS and peripheral ApoE isoform turnover rates differed substantially, which is consistent with previous reports and suggests that the pathways responsible for ApoE metabolism are different in the CNS and the periphery. We also demonstrate a slower turnover rate for CSF ApoE than that for amyloid beta, another molecule critically important in AD pathogenesis.

Original language	English (US)
Article number	e38013
Journal	PloS one
Volume	7
Issue number	6
DOIs	https://doi.org/10.1371/journal.pone.0038013
State	Published - Jun 4 2012

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences
General

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Wildsmith, K. R., Basak, J. M., Patterson, B. W., Pyatkivskyy, Y., Kim, J., Yarasheski, K. E., Wang, J. X., Mawuenyega, K. G., Jiang, H., Parsadanian, M., Yoon, H., Kasten, T., Sigurdson, W. C., Xiong, C., Goate, A., Holtzman, D. M., & Bateman, R. J. (2012). In vivo human apolipoprotein E isoform fractional turnover rates in the CNS. PloS one, 7(6), Article e38013. https://doi.org/10.1371/journal.pone.0038013

Wildsmith, KR, Basak, JM, Patterson, BW, Pyatkivskyy, Y, Kim, J, Yarasheski, KE, Wang, JX, Mawuenyega, KG, Jiang, H, Parsadanian, M, Yoon, H, Kasten, T, Sigurdson, WC, Xiong, C, Goate, A, Holtzman, DM & Bateman, RJ 2012, 'In vivo human apolipoprotein E isoform fractional turnover rates in the CNS', PloS one, vol. 7, no. 6, e38013. https://doi.org/10.1371/journal.pone.0038013

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title = "In vivo human apolipoprotein E isoform fractional turnover rates in the CNS",

abstract = "Apolipoprotein E (ApoE) is the strongest genetic risk factor for Alzheimer's disease and has been implicated in the risk for other neurological disorders. The three common ApoE isoforms (ApoE2, E3, and E4) each differ by a single amino acid, with ApoE4 increasing and ApoE2 decreasing the risk of Alzheimer's disease (AD). Both the isoform and amount of ApoE in the brain modulate AD pathology by altering the extent of amyloid beta (Aβ) peptide deposition. Therefore, quantifying ApoE isoform production and clearance rates may advance our understanding of the role of ApoE in health and disease. To measure the kinetics of ApoE in the central nervous system (CNS), we applied in vivo stable isotope labeling to quantify the fractional turnover rates of ApoE isoforms in 18 cognitively-normal adults and in ApoE3 and ApoE4 targeted-replacement mice. No isoform-specific differences in CNS ApoE3 and ApoE4 turnover rates were observed when measured in human CSF or mouse brain. However, CNS and peripheral ApoE isoform turnover rates differed substantially, which is consistent with previous reports and suggests that the pathways responsible for ApoE metabolism are different in the CNS and the periphery. We also demonstrate a slower turnover rate for CSF ApoE than that for amyloid beta, another molecule critically important in AD pathogenesis.",

author = "Wildsmith, {Kristin R.} and Basak, {Jacob M.} and Patterson, {Bruce W.} and Yuriy Pyatkivskyy and Jungsu Kim and Yarasheski, {Kevin E.} and Wang, {Jennifer X.} and Mawuenyega, {Kwasi G.} and Hong Jiang and Maia Parsadanian and Hyejin Yoon and Tom Kasten and Sigurdson, {Wendy C.} and Chengjie Xiong and Alison Goate and Holtzman, {David M.} and Bateman, {Randall J.}",

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AU - Wildsmith, Kristin R.

AU - Basak, Jacob M.

AU - Patterson, Bruce W.

AU - Pyatkivskyy, Yuriy

AU - Kim, Jungsu

AU - Yarasheski, Kevin E.

AU - Wang, Jennifer X.

AU - Mawuenyega, Kwasi G.

AU - Jiang, Hong

AU - Parsadanian, Maia

AU - Yoon, Hyejin

AU - Kasten, Tom

AU - Sigurdson, Wendy C.

AU - Xiong, Chengjie

AU - Goate, Alison

AU - Holtzman, David M.

AU - Bateman, Randall J.

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AB - Apolipoprotein E (ApoE) is the strongest genetic risk factor for Alzheimer's disease and has been implicated in the risk for other neurological disorders. The three common ApoE isoforms (ApoE2, E3, and E4) each differ by a single amino acid, with ApoE4 increasing and ApoE2 decreasing the risk of Alzheimer's disease (AD). Both the isoform and amount of ApoE in the brain modulate AD pathology by altering the extent of amyloid beta (Aβ) peptide deposition. Therefore, quantifying ApoE isoform production and clearance rates may advance our understanding of the role of ApoE in health and disease. To measure the kinetics of ApoE in the central nervous system (CNS), we applied in vivo stable isotope labeling to quantify the fractional turnover rates of ApoE isoforms in 18 cognitively-normal adults and in ApoE3 and ApoE4 targeted-replacement mice. No isoform-specific differences in CNS ApoE3 and ApoE4 turnover rates were observed when measured in human CSF or mouse brain. However, CNS and peripheral ApoE isoform turnover rates differed substantially, which is consistent with previous reports and suggests that the pathways responsible for ApoE metabolism are different in the CNS and the periphery. We also demonstrate a slower turnover rate for CSF ApoE than that for amyloid beta, another molecule critically important in AD pathogenesis.

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In vivo human apolipoprotein E isoform fractional turnover rates in the CNS

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