The evolution of Aβ peptide burden in the APP23 transgenic mice: implications for Aβ deposition in Alzheimer disease
The evolution of Aβ peptide burden in the APP23 transgenic mice: implications for Aβ deposition in Alzheimer disease
Background: High levels of Aβ in the cerebral cortex distinguish demented Alzheimer’s disease (AD) from nondemented elderly individuals, suggesting that decreased amyloid-beta (Aβ) peptide clearance from the brain is a key precipitating factor in AD.
Materials and Methods: The levels of Aβ in brain and plasma as well as apolipoprotein E (ApoE) in brain were investigated by enzyme-linked immunosorbent assay (ELISA) and Western blotting at various times during the life span of the APP23 transgenic (Tg) and control mice. Histochemistry and immunocytochemistry were used to assess the morphologic characteristics of the brain parenchymal and cerebrovascular amyloid deposits and the intracellular amyloid precursor protein (APP) deposits in the APP23 Tg mice.
Results: No significant differences were found in the plasma levels of Aβ between the APP23 Tg and control mice from 2–20 months of age. In contrast, soluble Aβ levels in the brain were continually elevated, increasing 4-fold at 2 months and 33-fold in the APP23 Tg mice at 20 months of age when compared to the control mice. Soluble Aβ42 was about 60% higher than Aβ40. In the APP23 Tg mice, insoluble Aβ40 remained at basal levels in the brain until 9 months and then rose to 680 µg/g cortex by 20 months. Insoluble A?40 was negligible in non-Tg mice at all ages. Insoluble Aβ42 in APP23 Tg mice rose to 60 µg/g cortex at 20 months, representing 24 times the control Aβ42 levels. Elevated levels of ApoE in the brain were observed in the APP23 Tg mice at 2 months of age, becoming substantially higher by 20 months. ApoE colocalized with Aβ in the plaques. Beta-amyloid precursor protein (βAPP) deposits were detected within the neuronal cytoplasm from 4 months of age onward. Amyloid angiopathy in the APP23 Tg mice increased markedly with age, being by far more severe than in the Tg2576 mice.
Conclusions: We suggest that the APP23 Tg mouse may develop an earlier blockage in Aβ clearance than the Tg2576 mice, resulting in a more severe accumulation of Aβ in the perivascular drainage pathways and in the brain. Both Tg mice reflect decreased Aβ elimination and as models for the amyloid cascade they are useful to study AD pathophysiology and therapy.
609-618
Kuo, Yu-Min
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Sue, Lucie I.
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Scott, Sarah
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Layne, Kathryn J.
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Kokjohn, Tyler A.
8876fceb-c887-4fc4-8956-4f65dfb2a0d7
Kalback, Walter M.
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Luehrs, Dean C.
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Vishnivetskaya, Tatiana A.
bfc06827-907f-428a-843d-d04d0eb4e67e
Abramaowski, Dorothee
60130e6c-3d5c-4cc9-8521-12498de2ad34
Sturchler-Pierrat, Christine
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Staufenbiel, Matthias
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Weller, Roy O.
4a501831-e38a-4d39-a125-d7141d6c667b
Roher, Alex E.
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2006
Kuo, Yu-Min
899aea0a-6b3e-4eaf-8387-0f17746ef4d6
Sue, Lucie I.
21032bd6-cf4a-4704-83e5-fd88e9d52d68
Scott, Sarah
518ccb17-d1da-4de9-b6ff-fc261ebac60f
Layne, Kathryn J.
88c6a233-3010-4f7c-8b5e-f6a2c3bafc92
Kokjohn, Tyler A.
8876fceb-c887-4fc4-8956-4f65dfb2a0d7
Kalback, Walter M.
8fc1e50c-63e1-4c1b-9eb1-3fb665d3846f
Luehrs, Dean C.
c6c2ae1a-aaeb-4666-9628-8cff8ba80876
Vishnivetskaya, Tatiana A.
bfc06827-907f-428a-843d-d04d0eb4e67e
Abramaowski, Dorothee
60130e6c-3d5c-4cc9-8521-12498de2ad34
Sturchler-Pierrat, Christine
295c0923-fbb6-440d-85d7-9bf482b837b9
Staufenbiel, Matthias
5a914989-f1d7-4c1d-b300-eaeb5ae2a855
Weller, Roy O.
4a501831-e38a-4d39-a125-d7141d6c667b
Roher, Alex E.
55dcb688-2a4c-44b3-adc3-f7e4982a7659
Kuo, Yu-Min, Sue, Lucie I., Scott, Sarah, Layne, Kathryn J., Kokjohn, Tyler A., Kalback, Walter M., Luehrs, Dean C., Vishnivetskaya, Tatiana A., Abramaowski, Dorothee, Sturchler-Pierrat, Christine, Staufenbiel, Matthias, Weller, Roy O. and Roher, Alex E.
(2006)
The evolution of Aβ peptide burden in the APP23 transgenic mice: implications for Aβ deposition in Alzheimer disease.
Molecular Medicine, 7 (9), .
Abstract
Background: High levels of Aβ in the cerebral cortex distinguish demented Alzheimer’s disease (AD) from nondemented elderly individuals, suggesting that decreased amyloid-beta (Aβ) peptide clearance from the brain is a key precipitating factor in AD.
Materials and Methods: The levels of Aβ in brain and plasma as well as apolipoprotein E (ApoE) in brain were investigated by enzyme-linked immunosorbent assay (ELISA) and Western blotting at various times during the life span of the APP23 transgenic (Tg) and control mice. Histochemistry and immunocytochemistry were used to assess the morphologic characteristics of the brain parenchymal and cerebrovascular amyloid deposits and the intracellular amyloid precursor protein (APP) deposits in the APP23 Tg mice.
Results: No significant differences were found in the plasma levels of Aβ between the APP23 Tg and control mice from 2–20 months of age. In contrast, soluble Aβ levels in the brain were continually elevated, increasing 4-fold at 2 months and 33-fold in the APP23 Tg mice at 20 months of age when compared to the control mice. Soluble Aβ42 was about 60% higher than Aβ40. In the APP23 Tg mice, insoluble Aβ40 remained at basal levels in the brain until 9 months and then rose to 680 µg/g cortex by 20 months. Insoluble A?40 was negligible in non-Tg mice at all ages. Insoluble Aβ42 in APP23 Tg mice rose to 60 µg/g cortex at 20 months, representing 24 times the control Aβ42 levels. Elevated levels of ApoE in the brain were observed in the APP23 Tg mice at 2 months of age, becoming substantially higher by 20 months. ApoE colocalized with Aβ in the plaques. Beta-amyloid precursor protein (βAPP) deposits were detected within the neuronal cytoplasm from 4 months of age onward. Amyloid angiopathy in the APP23 Tg mice increased markedly with age, being by far more severe than in the Tg2576 mice.
Conclusions: We suggest that the APP23 Tg mouse may develop an earlier blockage in Aβ clearance than the Tg2576 mice, resulting in a more severe accumulation of Aβ in the perivascular drainage pathways and in the brain. Both Tg mice reflect decreased Aβ elimination and as models for the amyloid cascade they are useful to study AD pathophysiology and therapy.
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Published date: 2006
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Local EPrints ID: 27630
URI: http://eprints.soton.ac.uk/id/eprint/27630
ISSN: 1076-1551
PURE UUID: d551091d-b233-4ad0-b99c-d94b69e92c84
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Date deposited: 28 Apr 2006
Last modified: 08 Jan 2022 18:55
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Contributors
Author:
Yu-Min Kuo
Author:
Lucie I. Sue
Author:
Sarah Scott
Author:
Kathryn J. Layne
Author:
Tyler A. Kokjohn
Author:
Walter M. Kalback
Author:
Dean C. Luehrs
Author:
Tatiana A. Vishnivetskaya
Author:
Dorothee Abramaowski
Author:
Christine Sturchler-Pierrat
Author:
Matthias Staufenbiel
Author:
Roy O. Weller
Author:
Alex E. Roher
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