Cholinergic dysfunction in diseases with LEWY bodies

P. Tiraboschi; L. A. Hansen; M. Alford; M. N. Sabbagh; B. Schoos; E. Masliah; L. J. Thal; Jody Corey-Bloom

Cholinergic dysfunction in diseases with LEWY bodies

P. Tiraboschi, L. A. Hansen, M. Alford, M. N. Sabbagh, B. Schoos, E. Masliah, L. J. Thal, Jody Corey-Bloom

Fondazione IRCCS Istituto Neurologico "C. Besta"

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

Abstract

Objective: To evaluate cholinergic activity in diseases with Lewy bodies (LB; LB variant of AD [LBV], diffuse LB disease [DLBD], and Parkinson's disease [PD]) to determine if 1) AD changes are requisite to cholinergic dysfunction, 2) cholinergic activity declines to the same extent in neocortical and archicortical areas, and 3) cholinergic loss is influenced by APOE genotype. Background: Like AD, diseases with LB are associated with decreased choline acetyltransferase (CHAT) activity. Increased APOE ε4 allele frequency has been reported in LBV. Whether APOE genotype affects cholinergic function in LBV remains unclear. Methods: An autopsy series of 182 AD (National Institute on Aging and Consortium to Establish a Registry for Alzheimer's Disease criteria), 49 LBV, 11 PD, 6 DLBD, and 16 normal control (NC) subjects. APOE genotype and ChAT activity (nmol/h/100 mg) in the midfrontal and hippocampal cortices were determined. Results: Mean midfrontal ChAT activity was markedly reduced in diseases with LB (LBV: 53.3 ± 39.0; PD: 54.8 ± 35.7; DLBD: 41.3 ± 24.8) compared to NC (255.4 ± 134.6; p <0.001) and AD (122.6 ± 78.9; p <0.05). Among diseases with LB, midfrontal ChAT activity was decreased to a similar extent in patients with (LBV) and without (DLBD and PD) AD pathology. Although mean ChAT activity for LBV was less than half that for AD in the midfrontal cortex, it was similar to that for AD in the hippocampus (LBV: 243.5 ± 189.7; AD: 322.8 ± 265.6; p > 0.05). However, hippocampal ChAT activity for both AD and LBV was lower than that for NC (666.5 ± 360.3; p <0.001). The ε4 allele dosage did not influence midfrontal ChAT activity in LBV. Conclusions: Marked losses in midfrontal ChAT activity occur in diseases with LB, independent of coexistent AD changes. A greater midfrontal, as opposed to hippocampal, cholinergic deficit may differentiate LBV from AD. The lack of a relationship between ε4 allele dosage and midfrontal ChAT activity suggests that other factors may play a role in its decline in LBV.

Original language	English
Pages (from-to)	407-411
Number of pages	5
Journal	Neurology
Volume	54
Issue number	2
Publication status	Published - Jan 25 2000

Keywords

AD
APOE
Cholinergic dysfunction
Lewy body disease

ASJC Scopus subject areas

Neuroscience(all)

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@article{6f76ad7af7e04c69a28bb85aef4c2127,

title = "Cholinergic dysfunction in diseases with LEWY bodies",

abstract = "Objective: To evaluate cholinergic activity in diseases with Lewy bodies (LB; LB variant of AD [LBV], diffuse LB disease [DLBD], and Parkinson's disease [PD]) to determine if 1) AD changes are requisite to cholinergic dysfunction, 2) cholinergic activity declines to the same extent in neocortical and archicortical areas, and 3) cholinergic loss is influenced by APOE genotype. Background: Like AD, diseases with LB are associated with decreased choline acetyltransferase (CHAT) activity. Increased APOE ε4 allele frequency has been reported in LBV. Whether APOE genotype affects cholinergic function in LBV remains unclear. Methods: An autopsy series of 182 AD (National Institute on Aging and Consortium to Establish a Registry for Alzheimer's Disease criteria), 49 LBV, 11 PD, 6 DLBD, and 16 normal control (NC) subjects. APOE genotype and ChAT activity (nmol/h/100 mg) in the midfrontal and hippocampal cortices were determined. Results: Mean midfrontal ChAT activity was markedly reduced in diseases with LB (LBV: 53.3 ± 39.0; PD: 54.8 ± 35.7; DLBD: 41.3 ± 24.8) compared to NC (255.4 ± 134.6; p <0.001) and AD (122.6 ± 78.9; p <0.05). Among diseases with LB, midfrontal ChAT activity was decreased to a similar extent in patients with (LBV) and without (DLBD and PD) AD pathology. Although mean ChAT activity for LBV was less than half that for AD in the midfrontal cortex, it was similar to that for AD in the hippocampus (LBV: 243.5 ± 189.7; AD: 322.8 ± 265.6; p > 0.05). However, hippocampal ChAT activity for both AD and LBV was lower than that for NC (666.5 ± 360.3; p <0.001). The ε4 allele dosage did not influence midfrontal ChAT activity in LBV. Conclusions: Marked losses in midfrontal ChAT activity occur in diseases with LB, independent of coexistent AD changes. A greater midfrontal, as opposed to hippocampal, cholinergic deficit may differentiate LBV from AD. The lack of a relationship between ε4 allele dosage and midfrontal ChAT activity suggests that other factors may play a role in its decline in LBV.",

keywords = "AD, APOE, Cholinergic dysfunction, Lewy body disease",

author = "P. Tiraboschi and Hansen, {L. A.} and M. Alford and Sabbagh, {M. N.} and B. Schoos and E. Masliah and Thal, {L. J.} and Jody Corey-Bloom",

year = "2000",

month = jan,

day = "25",

language = "English",

volume = "54",

pages = "407--411",

journal = "Neurology",

issn = "0028-3878",

publisher = "Lippincott Williams and Wilkins",

number = "2",

}

TY - JOUR

T1 - Cholinergic dysfunction in diseases with LEWY bodies

AU - Tiraboschi, P.

AU - Hansen, L. A.

AU - Alford, M.

AU - Sabbagh, M. N.

AU - Schoos, B.

AU - Masliah, E.

AU - Thal, L. J.

AU - Corey-Bloom, Jody

PY - 2000/1/25

Y1 - 2000/1/25

N2 - Objective: To evaluate cholinergic activity in diseases with Lewy bodies (LB; LB variant of AD [LBV], diffuse LB disease [DLBD], and Parkinson's disease [PD]) to determine if 1) AD changes are requisite to cholinergic dysfunction, 2) cholinergic activity declines to the same extent in neocortical and archicortical areas, and 3) cholinergic loss is influenced by APOE genotype. Background: Like AD, diseases with LB are associated with decreased choline acetyltransferase (CHAT) activity. Increased APOE ε4 allele frequency has been reported in LBV. Whether APOE genotype affects cholinergic function in LBV remains unclear. Methods: An autopsy series of 182 AD (National Institute on Aging and Consortium to Establish a Registry for Alzheimer's Disease criteria), 49 LBV, 11 PD, 6 DLBD, and 16 normal control (NC) subjects. APOE genotype and ChAT activity (nmol/h/100 mg) in the midfrontal and hippocampal cortices were determined. Results: Mean midfrontal ChAT activity was markedly reduced in diseases with LB (LBV: 53.3 ± 39.0; PD: 54.8 ± 35.7; DLBD: 41.3 ± 24.8) compared to NC (255.4 ± 134.6; p <0.001) and AD (122.6 ± 78.9; p <0.05). Among diseases with LB, midfrontal ChAT activity was decreased to a similar extent in patients with (LBV) and without (DLBD and PD) AD pathology. Although mean ChAT activity for LBV was less than half that for AD in the midfrontal cortex, it was similar to that for AD in the hippocampus (LBV: 243.5 ± 189.7; AD: 322.8 ± 265.6; p > 0.05). However, hippocampal ChAT activity for both AD and LBV was lower than that for NC (666.5 ± 360.3; p <0.001). The ε4 allele dosage did not influence midfrontal ChAT activity in LBV. Conclusions: Marked losses in midfrontal ChAT activity occur in diseases with LB, independent of coexistent AD changes. A greater midfrontal, as opposed to hippocampal, cholinergic deficit may differentiate LBV from AD. The lack of a relationship between ε4 allele dosage and midfrontal ChAT activity suggests that other factors may play a role in its decline in LBV.

AB - Objective: To evaluate cholinergic activity in diseases with Lewy bodies (LB; LB variant of AD [LBV], diffuse LB disease [DLBD], and Parkinson's disease [PD]) to determine if 1) AD changes are requisite to cholinergic dysfunction, 2) cholinergic activity declines to the same extent in neocortical and archicortical areas, and 3) cholinergic loss is influenced by APOE genotype. Background: Like AD, diseases with LB are associated with decreased choline acetyltransferase (CHAT) activity. Increased APOE ε4 allele frequency has been reported in LBV. Whether APOE genotype affects cholinergic function in LBV remains unclear. Methods: An autopsy series of 182 AD (National Institute on Aging and Consortium to Establish a Registry for Alzheimer's Disease criteria), 49 LBV, 11 PD, 6 DLBD, and 16 normal control (NC) subjects. APOE genotype and ChAT activity (nmol/h/100 mg) in the midfrontal and hippocampal cortices were determined. Results: Mean midfrontal ChAT activity was markedly reduced in diseases with LB (LBV: 53.3 ± 39.0; PD: 54.8 ± 35.7; DLBD: 41.3 ± 24.8) compared to NC (255.4 ± 134.6; p <0.001) and AD (122.6 ± 78.9; p <0.05). Among diseases with LB, midfrontal ChAT activity was decreased to a similar extent in patients with (LBV) and without (DLBD and PD) AD pathology. Although mean ChAT activity for LBV was less than half that for AD in the midfrontal cortex, it was similar to that for AD in the hippocampus (LBV: 243.5 ± 189.7; AD: 322.8 ± 265.6; p > 0.05). However, hippocampal ChAT activity for both AD and LBV was lower than that for NC (666.5 ± 360.3; p <0.001). The ε4 allele dosage did not influence midfrontal ChAT activity in LBV. Conclusions: Marked losses in midfrontal ChAT activity occur in diseases with LB, independent of coexistent AD changes. A greater midfrontal, as opposed to hippocampal, cholinergic deficit may differentiate LBV from AD. The lack of a relationship between ε4 allele dosage and midfrontal ChAT activity suggests that other factors may play a role in its decline in LBV.

KW - AD

KW - APOE

KW - Cholinergic dysfunction

KW - Lewy body disease

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JO - Neurology

JF - Neurology

SN - 0028-3878

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