UMLS:C0042373 - FACTA Search

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Query: UMLS:C0042373 (vascular disease)
17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alzheimer disease (AD) is accompanied by a marked loss of acetylcholinesterase (AChE) activity associated with cortical cholinergic axons and cholinoceptive neurons. Simultaneous with this loss, cholinesterase (ChE) activity emerges in AD cortex in the form of AChE and butyrylcholinesterase activity associated with plaques, tangles, and amyloid angiopathy. Our observations have shown that the ChEs associated with the pathological lesions of AD (ADChEs) possess different enzymatic properties and quite possibly are of a different source as compared with the ChEs associated with normal neurons and axons. The ADChEs most likely have noncholinergic functions involved in the pathogenesis of AD. The postulated functions include acting as proteases/peptidases, participating directly in the amyloidogenic processing of the amyloid precursor protein, and causing aberrant growth of neuronal processes. The therapeutic and diagnostic implications of ADChEs are discussed.
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PMID:Cholinesterases and the pathology of Alzheimer disease. 853 19

To study the pathogenesis of cerebral amyloid angiopathy (CAA), organ cultures of canine leptomeninges were incubated with fluorescein-conjugated amyloid beta-protein (FA beta, residues 1-40; 10 nM to 200 microM). Fluorescence microscopy showed focal and dose-dependent FA beta binding to blood vessels affected by CAA at FA beta-concentrations as low as 10 nM. The new A beta deposits appeared to be extracellular and were localized to the middle and outer layers of leptomeningeal arterioles. FA beta partially co-localized with apolipoprotein E (ApoE) as revealed by confocal microscopy, suggesting that A beta in situ binds to ApoE. Young dogs or old dogs without CAA showed no deposition of FA beta. Our results indicate that after initiation of CAA pathology, physiological concentrations of soluble A beta are sufficient to sustain its further deposition and therefore the progression of CAA.
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PMID:Experimental deposition of Alzheimer amyloid beta-protein in canine leptomeningeal vessels. 854 73

Deposition of PrP amyloid in cerebral vessels in conjunction with neurofibrillary lesions is the neuropathologic hallmark of the dementia associated with a stop mutation at codon 145 of PRNP, the gene encoding the prion protein (PrP). In this disorder, the vascular amyloid in tissue sections and the approximately 7.5-kDa fragment extracted from amyloid are labeled by antibodies to epitopes located in the PrP sequence including amino acids 90-147. Amyloid-laden vessels are also labeled by antibodies against the C terminus, suggesting that PrP from the normal allele is involved in the pathologic process. Abundant neurofibrillary lesions are present in the cerebral gray matter. They are composed of paired helical filaments, are labeled with antibodies that recognize multiple phosphorylation sites in tau protein, and are similar to those observed in Alzheimer disease. A PrP cerebral amyloid angiopathy has not been reported in diseases caused by PRNP mutations or in human transmissible spongiform encephalopathies; we propose to name this phenotype PrP cerebral amyloid angiopathy (PrP-CAA).
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PMID:Vascular variant of prion protein cerebral amyloidosis with tau-positive neurofibrillary tangles: the phenotype of the stop codon 145 mutation in PRNP. 857 Jun 27

In the brains of ine cases with cerebrovascular disease, one with mixed dementia, one with amyloid angiopathy and two non-neurological controls, we found three cases with focal accumulation of apolipoprotein E (apo-E) in dystrophic axons and accompanying macrophages. Since amyloid precursor protein (APP) and chromogranin A (CgA) accumulate after axonal damages, and are sensitive markers of the white matter lesions, the regional distribution of apo-E was compared to that of APP and CgA. apo-E-immunoreactive axons were present in the periphery of an infarction with neighboring macrophages, but not in mild white matter lesions that contained APP- or CgA-immunoreactive fiber bundles. The results suggest a role of apo-E in recycling cholesterol and other membrane components via macrophages into remodeling neurites in the brain, but this phenomenon is restricted to the periphery of infarction and may be less prominent than in the peripheral nervous system.
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PMID:Immunohistochemical study of apolipoprotein E in human cerebrovascular white matter lesions. 861 81

One of the hallmark pathologic characteristics of Alzheimer's disease (AD) and related disorders is deposition of the 39-42 amino acid amyloid beta-protein (A beta) in the walls of cerebral blood vessels. The cerebrovascular A beta deposits in these disorders are associated with degenerating smooth muscle cells in the vessel wall which have been implicated in the expression of the amyloid beta-protein precursor (A beta PP) and formation of A beta. We have established primary cultures of human cerebrovascular smooth muscle cells as a model for investigating the cellular pathologic processes involved in the cerebral amyloid angiopathy of AD and related disorders. Recently, we have shown that A beta 1-42, the predominant pathologic cerebrovascular form of A beta, causes extensive cellular degeneration that is accompanied by a striking increase in the levels of cellular A beta PP, potentially amyloidogenic carboxyl terminal A beta PP fragments, and soluble A beta peptide in the cultured human cerebrovascular smooth muscle cells. Together, these studies provide evidence that A beta contributes to the onset and progression of the cerebrovascular pathology associated with AD and related disorders and suggests the mechanism involves a molecular cascade with a novel product-precursor relationship that results in the adverse production and accumulation of A beta.
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PMID:Amyloid beta-protein induces the cerebrovascular cellular pathology of Alzheimer's disease and related disorders. 862 2

Alzheimer's disease is characterized by the progressive accumulation of amyloid-beta protein (Abeta) in senile plaques and cerebral amyloid angiopathy. It is not known whether the plaque growth is a continuous and homogeneous process or whether some plaques have a more rapid evolution. As plaques grow by the deposition of Abeta, we used an in situ binding technique to analyze the deposition of fluorescein-conjugated and biotinylated Abeta1 40 and Abeta1-42 in cryosections of brains from Alzheimer's disease patients. Only a subset of senile plaques but all cerebrovascular Abeta deposits were labeled by both Abeta1-40 and Abeta1-42. Striking differences in binding were observed among adjacent plaques. Quantitative analysis showed that on average 60% of all plaques were labeled with Abeta1-42 and 31% of all plaques were labeled with Abeta1-40 (n=7; P<0.001). Confocal laser scanning microscopy of double-labeled sections revealed that the newly deposited Abeta was only partially co-localized to pre-existing Abeta and apolipoprotein E and was not co-localized to heparan sulfate proteoglycan. Abeta binding was preserved after glycolytic pretreatment with periodic acid. Our results suggest that at a given time point only a subset of active senile plaques accumulate A(beta) and that plaque growth may be conditioned by the presence of other distinct plaque components different from Abeta, apolipoprotein E or heparan sulfate proteoglycan.
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PMID:Selective binding of soluble Abeta1-40 and Abeta1-42 to a subset of senile plaques. 866 61

Significant developments in our understanding of the pathophysiology of Alzheimer's disease have been obtained in the recent years. Diagnostic criteria, based on clinical data, have been proposed and have been validated by clinico-pathological correlations. Some neuroimaging techniques and laboratory tests (e.g. dosage in the cerebrospinal fluid) are promising diagnostic avenues. Genetic mutations associated with familial cases of the disease have been identified and the involved genes localized on chromosome 1, 14 or 21. The apolipoprotein E genotype has been discovered to affect the risk of developing the disease, i.e. homozygotes for the apolipoprotein E4 allele are much more prone to develop Alzheimer's disease The definitive diagnosis of the disease still relies on the demonstration of characteristic neuropathological lesions, i.e. neurofibrillary tangles and senile plaques, whose numbers are correlated with the severity of the dementia. Other lesions include neuronal and synaptic loss, amyloid angiopathy, and severe decrease in the level of cortical acetylcholine. Neurofibrillary tangles have been found to be composed of the microtubule-associated protein tau, in highly phosphorylated state. The accumulation of these phosphorylated tau proteins is thought to be associated to disturbances of intracellular transport of molecules and organelles in affected neurones, leading to cell dysfunction and death. An inbalance in the activities of selected protein kinases and phosphatases is also thought to generate these highly phosphorylated tau species. The major component of senile plaques is the A4/beta amyloid peptide, generated by proteolysis of the amyloid peptide precursor, a transmembrane protein. When aggregated into amyloid fibrils, the A4/beta amyloid peptide is thought to be neurotoxic. An abnormal metabolism of the amyloid peptide precursor is often considered as a central physiopathological mechanism of the disease. Although many pharmacological treatments of the disease have been investigated, they have not yet led to sustained and major clinical improvements.
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PMID:The neurobiology of Alzheimer's disease. 869 72

Recent advances indicate soluble amyloid beta (A beta) protein is produced constitutively during normal metabolism of the amyloid precursor protein (APP). This has not been directly examined in human brain vascular tissues. Using a panel of well-characterized antibodies, here we show that increased amounts of soluble A beta were found in isolated vascular tissues from AD subjects compared to age-matched controls without significant Alzheimer pathology. Immunocytochemical analyses of isolated vessel preparations showed characteristic transverse patterns of A beta deposits in large vessels with smooth muscle, however, fine A beta deposits were apparent even in capillaries. A proportion of such A beta protein and potentially amyloidogenic carboxyl terminal fragments were released by solubilization and disruption of the vascular basement membrane by collagenase treatments. We further demonstrated by in vitro metabolic labelling that soluble A beta or an A beta-like peptide is associated and produced by cerebral microvessels, meningeal vessels and the choroid plexus isolated postmortem from human as well as rat brain. Compared to those from young rats, cerebral microvessels from aging rats showed increased release of carboxyl terminal fragments of APP and A beta-like peptide. Our observations provide the first direct demonstration that human vascular tissues produce soluble A beta, a product of the secretory pathway in APP processing. Our findings also suggest that aging associated alterations in the basement membranes are a factor in A beta accumulation that results in vascular amyloid deposition, the principal feature of cerebral amyloid angiopathy.
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PMID:Production and increased detection of amyloid beta protein and amyloidogenic fragments in brain microvessels, meningeal vessels and choroid plexus in Alzheimer's disease. 871 40

Hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D) is an autosomal dominant disease caused by deposition of beta-amyloid in the leptomeningeal arteries and cortical arterioles, in addition to preamyloid deposits and amyloid plaques in the brain parenchyma. The disease is due to a point mutation at codon 693 of the amyloid precursor protein (beta PP) gene at chromosome 21. Since this point mutation is diagnostic for HCHWA-D, presymptomatic testing is feasible and offered, together with genetic counselling and psychological support, to subjects at risk. HCHWA-D is clinically characterized by recurrent strokes, in addition to dementia, which can occur after the first stroke but also preceding it. Radiological studies revealed focal lesions (hemorrhages, hemorrhagic and non-hemorrhagic infarctions) and diffuse white matter damage. Diffuse white matter hyperintensities on MRI are an early symptom of HCHWA-D since they have been found on MRI scans of subjects who had not suffered a stroke. The presence of the diagnostic point mutation makes HCHWA-D a useful model to study the effects of cerebral amyloid angiopathy in vivo. The characteristic pathological abnormalities and its implications for Alzheimer's disease will be discussed in Part II of this article.
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PMID:Hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D): I--A review of clinical, radiologic and genetic aspects. 873 26

Brains of patients with Alzheimer disease/senile dementia of Alzheimer type (AD/SDAT) develop a progressive accumulation of amyloid, which deposits primarily in the form of characteristic parenchymal 'plaques' (senile or neuritic plaques/SP's) and as mural deposits in the walls of capillaries and arterioles (cerebral amyloid angiopathy /CAA). A major component of this amyloid is a small and unique peptide composed of 39-43 amino acids, beta/A4, which is cleaved from a much larger precursor protein (APP) that has several isoforms. Brain amyloid can be detected in autopsy or biopsy brain tissue by classical, immunohistochemical and ultrastructural (including immuno-electron microscopic) methods of varying sensitivity and specificity. Beta/A4 amyloid deposition is remarkably variable (e.g. predominantly parenchymal or vascular, or a mixture of parenchymal and vascular) among patients with AD/SDAT. Despite its abundance in the brains of AD/SDAT patients, the precise role of beta/A4 in the pathogenesis of the neurological deficit, neocortical atrophy and progressive synapse loss associated with AD/SDAT has yet to be determined. However, mutations in the gene that encodes APP are clearly associated with familial AD syndromes in which there is significant brain amyloid deposition. CAA, in addition to its association with AD/SDAT, can result in hemorrhagic and (possibly) ischemic forms of stroke. Work with recently developed transgenic mice which express large amounts of beta/A4 in the central nervous system is likely to elucidate mechanisms by which the protein is selectively or deposited in the brain in a parenchymal or microvascular form, and how it contributes to the pathogenesis of neurodegeneration.
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PMID:Brain parenchymal and microvascular amyloid in Alzheimer's disease. 873 32

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