Diffuse beta-amyloid (A beta) deposits and neurons: in situ secretion or diffusion of A beta?

Richard A. Armstrong

Research output: Contribution to journalArticle

Abstract

The association between diffuse-type beta -amyloid (AP) deposits and neuronal cell bodies in Alzheimer's disease (AD) and Down's syndrome (DS) could result from the secretion of AP from clusters of neurons in situ or the diffusion of A beta from cell processes, glial cells or blood vessels. To decide between these hypotheses, spatial pattern analysis was used to study the relationship between the degree of clustering of neuronal cell bodies and the presence of diffuse deposits in the temporal lobe of patients with DS. Significant clustering of neuronal cell bodies was present in 17/24 (71%) of brain areas studied. in addition, in 23/24 (96%) of brain areas, there was a positive correlation between the presence of diffuse deposits and the density of neurons. Hence, the data support the hypothesis that diffuse deposits develop in situ mainly as a result of the secretion of A beta by local clusters of neurons rather than by significant diffusion. Furthermore, the size of a diffuse deposit is likely to be determined by the number of neurons within a cluster which secrete A beta. The number and density of neurons could also be a factor determining the evolution of a diffuse into a mature amyloid deposit.
Original languageEnglish
Pages (from-to)289-294
Number of pages6
JournalAlzheimers Reports
Volume3
Issue number5-6
Publication statusPublished - Sep 2000

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Amyloid
Neurons
Amyloid Plaques
Down Syndrome
Cluster Analysis
Alzheimer Disease
Spatial Analysis
Brain
Temporal Lobe
Neuroglia
Blood Vessels
Cell Body

Keywords

  • Alzheimer's disease
  • clustering
  • diffuse A beta deposits
  • Down's syndrome
  • neuronal perikarya
  • variance/mean ratio

Cite this

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title = "Diffuse beta-amyloid (A beta) deposits and neurons: in situ secretion or diffusion of A beta?",
abstract = "The association between diffuse-type beta -amyloid (AP) deposits and neuronal cell bodies in Alzheimer's disease (AD) and Down's syndrome (DS) could result from the secretion of AP from clusters of neurons in situ or the diffusion of A beta from cell processes, glial cells or blood vessels. To decide between these hypotheses, spatial pattern analysis was used to study the relationship between the degree of clustering of neuronal cell bodies and the presence of diffuse deposits in the temporal lobe of patients with DS. Significant clustering of neuronal cell bodies was present in 17/24 (71{\%}) of brain areas studied. in addition, in 23/24 (96{\%}) of brain areas, there was a positive correlation between the presence of diffuse deposits and the density of neurons. Hence, the data support the hypothesis that diffuse deposits develop in situ mainly as a result of the secretion of A beta by local clusters of neurons rather than by significant diffusion. Furthermore, the size of a diffuse deposit is likely to be determined by the number of neurons within a cluster which secrete A beta. The number and density of neurons could also be a factor determining the evolution of a diffuse into a mature amyloid deposit.",
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Diffuse beta-amyloid (A beta) deposits and neurons: in situ secretion or diffusion of A beta? / Armstrong, Richard A.

In: Alzheimers Reports, Vol. 3, No. 5-6, 09.2000, p. 289-294.

Research output: Contribution to journalArticle

TY - JOUR

T1 - Diffuse beta-amyloid (A beta) deposits and neurons: in situ secretion or diffusion of A beta?

AU - Armstrong, Richard A.

PY - 2000/9

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AB - The association between diffuse-type beta -amyloid (AP) deposits and neuronal cell bodies in Alzheimer's disease (AD) and Down's syndrome (DS) could result from the secretion of AP from clusters of neurons in situ or the diffusion of A beta from cell processes, glial cells or blood vessels. To decide between these hypotheses, spatial pattern analysis was used to study the relationship between the degree of clustering of neuronal cell bodies and the presence of diffuse deposits in the temporal lobe of patients with DS. Significant clustering of neuronal cell bodies was present in 17/24 (71%) of brain areas studied. in addition, in 23/24 (96%) of brain areas, there was a positive correlation between the presence of diffuse deposits and the density of neurons. Hence, the data support the hypothesis that diffuse deposits develop in situ mainly as a result of the secretion of A beta by local clusters of neurons rather than by significant diffusion. Furthermore, the size of a diffuse deposit is likely to be determined by the number of neurons within a cluster which secrete A beta. The number and density of neurons could also be a factor determining the evolution of a diffuse into a mature amyloid deposit.

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