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Beta-sheet breaker peptides inhibit fibrillogenesis in a rat brain model of amyloidosis: implications for Alzheimer's therapy [see comments] [Comment]
Soto C; Sigurdsson EM; Morelli L; Kumar RA; Castano EM; Frangione B
Inhibition of cerebral amyloid beta-protein deposition seems to be an important target for Alzheimer's disease therapy. Amyloidogenesis could be inhibited by short synthetic peptides designed as beta-sheet breakers. Here we demonstrate a 5-residue peptide that inhibits amyloid beta-protein fibrillogenesis, disassembles preformed fibrils in vitro and prevents neuronal death induced by fibrils in cell culture. In addition, the beta-sheet breaker peptide significantly reduces amyloid beta-protein deposition in vivo and completely blocks the formation of amyloid fibrils in a rat brain model of amyloidosis. These findings may provide the basis for a new therapeutic approach to prevent amyloidosis in Alzheimer's disease
PMID: 9662374
ISSN: 1078-8956
CID: 7803
The prionoses and other conformational disorders
Wisniewski T; Aucouturier P; Soto C; Frangione B
The basic pathogenesis of numerous neurodegenerative disorders is now thought to be related to abnormal protein conformation. The common theme in all these diseases is the conversion of a normal cellular and/or circulating protein into an insoluble, aggregated, beta-sheet rich form which is deposited in the brain, sometimes in the form of amyloid. These deposits are toxic and produce neuronal dysfunction and death. The most common of these illnesses is Alzheimer's disease (AD), in which a central event is the conversion of the normal soluble amyloid beta (sA beta) peptide to amyloid beta (A beta) within neuritic plaques and cerebral vessels. A unique category of the conformational conditions are prion related diseases (or prionoses), where the etiology is thought to be related to conversion of the normal prion protein, PrPC, into an infectious and pathogenic form, PrPSc. In the case of AD and the prionoses, the conformational change can be influenced by the presence of mutations in various gene products, as well as by chaperone proteins. Apolipoprotein E is thought to act as such a chaperone protein in AD; however, among the prionoses such a protein has been hypothesized to exist only by indirect evidence and is called 'protein X'. Our growing understanding of the mechanisms involved in this category of diseases, raises the possibility of therapeutic approaches based directly on the prevention and reversal of pathologic protein conformation
PMID: 9818059
ISSN: 1350-6129
CID: 7855
Alzheimer's beta-amyloid vasoactivity: identification of a novel beta-amyloid conformational intermediate
Crawford F; Soto C; Suo Z; Fang C; Parker T; Sawar A; Frangione B; Mullan M
The beta-amyloid (A beta) peptide has previously been shown to enhance phenylephrine or endothelin-1 induced constriction of aortic rings in vitro. The characteristics of A beta vasoactivity (dose, fragment length, timing) suggest that the mechanism is distinct from A beta cytotoxicity. To identify which properties of A beta determine its biological activity on vessels, we investigated a number of A beta analogues and fragments, individually and in combination, including those that are known to be associated with Alzheimer's disease (A beta(1-42)) and hereditary cerebral hemorrhage with amyloidosis--Dutch type (A beta(22Q)(1-40)). The vasoactivity appears to be related to the conformation adopted by the peptide in solution. The beta-pleated sheet rich A beta(1-42) and A beta(22Q)(1-40) were each less vasoactive than the mainly random coil wild type A beta(1-40). However, the most vasoactive A beta peptides were combinations which contain mixtures of random coil and beta-sheet structure. The finding that peptides containing low or high levels of beta-pleated conformation are less vasoactive than those containing intermediate amounts of this structural motif allows us to propose the existence of a transitional form between random coil and beta-pleated that is the vasoactive species of A beta. This is the first time that A beta conformational intermediates have been identified and a biological activity associated with them
PMID: 9801166
ISSN: 0014-5793
CID: 57129
A novel Polish presenilin-1 mutation (P117L) is associated with familial Alzheimer's disease and leads to death as early as the age of 28 years
Wisniewski T; Dowjat WK; Buxbaum JD; Khorkova O; Efthimiopoulos S; Kulczycki J; Lojkowska W; Wegiel J; Wisniewski HM; Frangione B
The majority of early-onset familial Alzheimer's disease (FAD) is associated with mutations in the presenilin-1 (PS1) gene. We describe a novel Polish PS1 mutation of Pro117Leu, associated with the earliest average age of onset and death so far reported in a PS-linked, FAD kindred. Human kidney 293 and mouse neuroblastoma N2a cells were stably transfected with wild-type and PS1 P117L. There was a significant increase in the amyloid beta42/40 ratio in the N2a P117L PS1 transfected cells compared with N2a transfected with wild-type PS1. What role PS has in the pathogenesis of AD remains to be determined, however, the severity of the clinical picture associated with this PS1 mutation stresses the importance of presenilin
PMID: 9507958
ISSN: 0959-4965
CID: 7856
Antibodies directed to the carboxyl terminus of amyloid beta peptides recognize sequence epitopes and distinct immunoreactive deposits in Alzheimer's disease brain
Jimenez-Huete A; Alfonso P; Soto C; Albar P; Rabano A; Ghiso J; Frangione B; Mendez E
ORIGINAL:0006636
ISSN: 1461-6130
CID: 102367
beta-sheet breaker peptides as potential therapy for Alzheimer's disease
Sigurdsson, EM; Morelli, L; Kumar, RA; Castano, EM; Frangione, B; Soto, C
ISI:000078064200016
ISSN: 1461-6130
CID: 98326
A novel Polish presenilin-1 mutation (P117L) associated with a very early onset of familial Alzheimer's disease [Meeting Abstract]
Wisniewski, T; Dowjat, WK; Buxbaum, JD; Kulczycki, J; Lojkowska, W; Wegiel, J; Wisniewski, HM; Frangione, B
ISI:000073240900675
ISSN: 0028-3878
CID: 97627
HB-GAM, a novel amyloid associated protein, is present in prion related disorders and other cerebral amyloidoses
Chapter by: Lalowski M; Baumann M; Rauvala H; Frangione B; Wisniewski T
in: Progress in Alzheimer's and Parkinson's diseases by Fischer A [Eds]
New York : Plenum, 1998
pp. 121-131
ISBN: 0306459035
CID: 4982
Cerebrovascular accumulation and increased blood-brain barrier permeability to circulating Alzheimer's amyloid beta peptide in aged squirrel monkey with cerebral amyloid angiopathy
Mackic JB; Weiss MH; Miao W; Kirkman E; Ghiso J; Calero M; Bading J; Frangione B; Zlokovic BV
Senescent squirrel monkey is a valuable model to study pathogenesis of cerebrovascular amyloid angiopathy (CAA). Cerebrovascular sequestration and blood-brain barrier (BBB) permeability to 121I-amyloid beta(1-40) synthetic peptide (sA beta(1-40)) were studied in adult versus aged squirrel monkey 1 h after a single intravenous injection. In aged monkey, the half-time of elimination of sA beta(1-40), t(1/2)e, was prolonged by 0.6 h, the systemic clearance, ClSS, was reduced from 1.8 to 1.1 ml/min/kg, and the mean residence time of intact peptide in the circulation was increased by 1 h (45%). In adult monkey, cerebrovascular sequestration of intact sA beta(1-40) was significant, and the BBB permeability was 18.6-fold higher than for inulin. In aged monkey, the sequestration of intact sA beta(1-40) by cortical and leptomeningeal microvessels and the BBB permeability were increased by 5.9, 1.8-, and 2.1-fold, respectively, in the presence of an unchanged barrier to inulin. In brain parenchyma of aged animals, 76.1% of circulating sA beta(1-40) remained intact versus 45.7% in adult. We conclude that multiple age-related systemic effects, i.e., reduced body elimination and systemic clearance of sA beta(1-40), and reduced peripheral metabolism, may act in concert with BBB mechanisms, i.e., increased transendothelial transport and microvascular accumulation of blood-borne sA beta(1-40), and reduced brain metabolism to enhance the development of CAA
PMID: 9422364
ISSN: 0022-3042
CID: 57200
The four genes linked to Alzheimer's Disease are expressed in neuritic plaques
Wisniewski, T.; Lalowski, M.; Dowjat, K.; Frangione, B.
BIOSIS:PREV199799540669
ISSN: 1081-5589
CID: 97622