Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons

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Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons. / Van Dorpe, J; Smeijers, L; Dewachter, I; Nuyens, D; Spittaels, K; Van Den Haute, C; Mercken, M; Moechars, D; Laenen, I; Kuiperi, C; Bruynseels, K; Tesseur, I; Loos, R; Vanderstichele, H; Checler, F; Sciot, R; Van Leuven, F.

In: The American Journal of Pathology, Vol. 157, No. 4, 10.2000, p. 1283-98.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Van Dorpe, J, Smeijers, L, Dewachter, I, Nuyens, D, Spittaels, K, Van Den Haute, C, Mercken, M, Moechars, D, Laenen, I, Kuiperi, C, Bruynseels, K, Tesseur, I, Loos, R, Vanderstichele, H, Checler, F, Sciot, R & Van Leuven, F 2000, 'Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons', The American Journal of Pathology, vol. 157, no. 4, pp. 1283-98. https://doi.org/10.1016/S0002-9440(10)64644-5

APA

Van Dorpe, J., Smeijers, L., Dewachter, I., Nuyens, D., Spittaels, K., Van Den Haute, C., Mercken, M., Moechars, D., Laenen, I., Kuiperi, C., Bruynseels, K., Tesseur, I., Loos, R., Vanderstichele, H., Checler, F., Sciot, R., & Van Leuven, F. (2000). Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons. The American Journal of Pathology, 157(4), 1283-98. https://doi.org/10.1016/S0002-9440(10)64644-5

Vancouver

Van Dorpe J, Smeijers L, Dewachter I, Nuyens D, Spittaels K, Van Den Haute C et al. Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons. The American Journal of Pathology. 2000 Oct;157(4):1283-98. https://doi.org/10.1016/S0002-9440(10)64644-5

Author

Van Dorpe, J ; Smeijers, L ; Dewachter, I ; Nuyens, D ; Spittaels, K ; Van Den Haute, C ; Mercken, M ; Moechars, D ; Laenen, I ; Kuiperi, C ; Bruynseels, K ; Tesseur, I ; Loos, R ; Vanderstichele, H ; Checler, F ; Sciot, R ; Van Leuven, F. / Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons. In: The American Journal of Pathology. 2000 ; Vol. 157, No. 4. pp. 1283-98.

Bibtex

@article{7c179c591a22491aaab624bc7dd9b3e4,
title = "Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons",
abstract = "Deposition of amyloid beta-peptide (Abeta) in cerebral vessel walls (cerebral amyloid angiopathy, CAA) is very frequent in Alzheimer's disease and occurs also as a sporadic disorder. Here, we describe significant CAA in addition to amyloid plaques, in aging APP/Ld transgenic mice overexpressing the London mutant of human amyloid precursor protein (APP) exclusively in neurons. The number of amyloid-bearing vessels increased with age, from approximately 10 to >50 per coronal brain section in APP/Ld transgenic mice, aged 13 to 24 months. Vascular amyloid was preferentially deposited in arterioles and ranged from small focal to large circumferential depositions. Ultrastructural analysis allowed us to identify specific features contributing to weakening of the vessel wall and aneurysm formation, ie, disruption of the external elastic lamina, thinning of the internal elastic lamina, interruption of the smooth muscle layer, and loss of smooth muscle cells. Biochemically, the much lower Abeta42:Abeta40 ratio evident in vascular relative to plaque amyloid, demonstrated that in blood vessel walls Abeta40 was the more abundant amyloid peptide. The exclusive neuronal origin of transgenic APP, the high levels of Abeta in cerebrospinal fluid compared to plasma, and the specific neuroanatomical localization of vascular amyloid strongly suggest specific drainage pathways, rather than local production or blood uptake of Abeta as the primary mechanism underlying CAA. The demonstration in APP/Ld mice of rare vascular amyloid deposits that immunostained only for Abeta42, suggests that, similar to senile plaque formation, Abeta42 may be the first amyloid to be deposited in the vessel walls and that it entraps the more soluble Abeta40. Its ability to diffuse for larger distances along perivascular drainage pathways would also explain the abundance of Abeta40 in vascular amyloid. Consistent with this hypothesis, incorporation of mutant presenilin-1 in APP/Ld mice, which resulted in selectively higher levels of Abeta42, caused an increase in CAA and senile plaques. This mouse model will be useful in further elucidating the pathogenesis of CAA and Alzheimer's disease, and will allow testing of diagnostic and therapeutic strategies.",
keywords = "Aging/physiology, Amyloid/metabolism, Amyloid beta-Protein Precursor/genetics, Animals, Blood Vessels/metabolism, Cerebral Amyloid Angiopathy/genetics, Cerebrovascular Circulation, Gene Expression, Humans, Hypercapnia/physiopathology, Immunohistochemistry, Membrane Proteins/genetics, Mice, Mice, Transgenic, Microscopy, Electron, Mutation/physiology, Presenilin-1, Transgenes/physiology",
author = "{Van Dorpe}, J and L Smeijers and I Dewachter and D Nuyens and K Spittaels and {Van Den Haute}, C and M Mercken and D Moechars and I Laenen and C Kuiperi and K Bruynseels and I Tesseur and R Loos and H Vanderstichele and F Checler and R Sciot and {Van Leuven}, F",
year = "2000",
month = oct,
doi = "10.1016/S0002-9440(10)64644-5",
language = "English",
volume = "157",
pages = "1283--98",
journal = "American Journal of Pathology",
issn = "0002-9440",
publisher = "Elsevier",
number = "4",

}

RIS

TY - JOUR

T1 - Prominent cerebral amyloid angiopathy in transgenic mice overexpressing the london mutant of human APP in neurons

AU - Van Dorpe, J

AU - Smeijers, L

AU - Dewachter, I

AU - Nuyens, D

AU - Spittaels, K

AU - Van Den Haute, C

AU - Mercken, M

AU - Moechars, D

AU - Laenen, I

AU - Kuiperi, C

AU - Bruynseels, K

AU - Tesseur, I

AU - Loos, R

AU - Vanderstichele, H

AU - Checler, F

AU - Sciot, R

AU - Van Leuven, F

PY - 2000/10

Y1 - 2000/10

N2 - Deposition of amyloid beta-peptide (Abeta) in cerebral vessel walls (cerebral amyloid angiopathy, CAA) is very frequent in Alzheimer's disease and occurs also as a sporadic disorder. Here, we describe significant CAA in addition to amyloid plaques, in aging APP/Ld transgenic mice overexpressing the London mutant of human amyloid precursor protein (APP) exclusively in neurons. The number of amyloid-bearing vessels increased with age, from approximately 10 to >50 per coronal brain section in APP/Ld transgenic mice, aged 13 to 24 months. Vascular amyloid was preferentially deposited in arterioles and ranged from small focal to large circumferential depositions. Ultrastructural analysis allowed us to identify specific features contributing to weakening of the vessel wall and aneurysm formation, ie, disruption of the external elastic lamina, thinning of the internal elastic lamina, interruption of the smooth muscle layer, and loss of smooth muscle cells. Biochemically, the much lower Abeta42:Abeta40 ratio evident in vascular relative to plaque amyloid, demonstrated that in blood vessel walls Abeta40 was the more abundant amyloid peptide. The exclusive neuronal origin of transgenic APP, the high levels of Abeta in cerebrospinal fluid compared to plasma, and the specific neuroanatomical localization of vascular amyloid strongly suggest specific drainage pathways, rather than local production or blood uptake of Abeta as the primary mechanism underlying CAA. The demonstration in APP/Ld mice of rare vascular amyloid deposits that immunostained only for Abeta42, suggests that, similar to senile plaque formation, Abeta42 may be the first amyloid to be deposited in the vessel walls and that it entraps the more soluble Abeta40. Its ability to diffuse for larger distances along perivascular drainage pathways would also explain the abundance of Abeta40 in vascular amyloid. Consistent with this hypothesis, incorporation of mutant presenilin-1 in APP/Ld mice, which resulted in selectively higher levels of Abeta42, caused an increase in CAA and senile plaques. This mouse model will be useful in further elucidating the pathogenesis of CAA and Alzheimer's disease, and will allow testing of diagnostic and therapeutic strategies.

AB - Deposition of amyloid beta-peptide (Abeta) in cerebral vessel walls (cerebral amyloid angiopathy, CAA) is very frequent in Alzheimer's disease and occurs also as a sporadic disorder. Here, we describe significant CAA in addition to amyloid plaques, in aging APP/Ld transgenic mice overexpressing the London mutant of human amyloid precursor protein (APP) exclusively in neurons. The number of amyloid-bearing vessels increased with age, from approximately 10 to >50 per coronal brain section in APP/Ld transgenic mice, aged 13 to 24 months. Vascular amyloid was preferentially deposited in arterioles and ranged from small focal to large circumferential depositions. Ultrastructural analysis allowed us to identify specific features contributing to weakening of the vessel wall and aneurysm formation, ie, disruption of the external elastic lamina, thinning of the internal elastic lamina, interruption of the smooth muscle layer, and loss of smooth muscle cells. Biochemically, the much lower Abeta42:Abeta40 ratio evident in vascular relative to plaque amyloid, demonstrated that in blood vessel walls Abeta40 was the more abundant amyloid peptide. The exclusive neuronal origin of transgenic APP, the high levels of Abeta in cerebrospinal fluid compared to plasma, and the specific neuroanatomical localization of vascular amyloid strongly suggest specific drainage pathways, rather than local production or blood uptake of Abeta as the primary mechanism underlying CAA. The demonstration in APP/Ld mice of rare vascular amyloid deposits that immunostained only for Abeta42, suggests that, similar to senile plaque formation, Abeta42 may be the first amyloid to be deposited in the vessel walls and that it entraps the more soluble Abeta40. Its ability to diffuse for larger distances along perivascular drainage pathways would also explain the abundance of Abeta40 in vascular amyloid. Consistent with this hypothesis, incorporation of mutant presenilin-1 in APP/Ld mice, which resulted in selectively higher levels of Abeta42, caused an increase in CAA and senile plaques. This mouse model will be useful in further elucidating the pathogenesis of CAA and Alzheimer's disease, and will allow testing of diagnostic and therapeutic strategies.

KW - Aging/physiology

KW - Amyloid/metabolism

KW - Amyloid beta-Protein Precursor/genetics

KW - Animals

KW - Blood Vessels/metabolism

KW - Cerebral Amyloid Angiopathy/genetics

KW - Cerebrovascular Circulation

KW - Gene Expression

KW - Humans

KW - Hypercapnia/physiopathology

KW - Immunohistochemistry

KW - Membrane Proteins/genetics

KW - Mice

KW - Mice, Transgenic

KW - Microscopy, Electron

KW - Mutation/physiology

KW - Presenilin-1

KW - Transgenes/physiology

U2 - 10.1016/S0002-9440(10)64644-5

DO - 10.1016/S0002-9440(10)64644-5

M3 - Journal article

C2 - 11021833

VL - 157

SP - 1283

EP - 1298

JO - American Journal of Pathology

JF - American Journal of Pathology

SN - 0002-9440

IS - 4

ER -

ID: 258039819