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637


The possible origin of the amyloid peptides in the BRI2 gene-related dementias [Meeting Abstract]

Lashley, T; Holton, JL; Frangione, B; Bandopadhyay, R; Ghiso, J; Rostagno, A; Revesz, T
ISI:000223058700575
ISSN: 0197-4580
CID: 47722

Synthetic immunogenic but non-amyloidogenic peptides homologous to amyloid beta for induction of an immune response to amyloid beta and amyloid deposits

Frangione, Blas; Wisniewski, Thomas; Sigurdsson, Einar M
The present invention relates to synthetic immunogenic but non-amyloidogenic peptides homologous to amyloid beta which can be used alone or conjugated to an immunostimulatory molecule in an immunizing composition for inducing an immune response to amyloid beta peptides and amyloid deposits
BIOSIS:PREV200400249254
ISSN: 0098-1133
CID: 97981

Systemic catabolism of Alzheimer's Abeta40 and Abeta42

Ghiso, Jorge; Shayo, Marcos; Calero, Miguel; Ng, Douglas; Tomidokoro, Yasushi; Gandy, Samuel; Rostagno, Agueda; Frangione, Blas
To better understand the physiologic excretion and/or catabolism of circulating peripheral amyloid beta (Abeta), we labeled human Abeta40 (monomeric, with predominant unordered structure) and Abeta42 (mixture of monomers and oligomers in approximately 50:50 ratio, rich in beta-sheet conformation) with either Na(125)I or (125)I-tyramine cellobiose, also known as the cell-trapping ligand procedure, testing their blood clearance and organ uptake in B6SJLF1/J mice. Irrespective of the labeling protocol, the peptide conformation, and the degree of oligomerization, both Abeta40 and Abeta42 showed a short half-life of 2.5-3.0 min. The liver was the major organ responsible for plasma clearance, accounting for >60% of the peptide uptake, followed by the kidney. In vivo, hepatocytes captured >90% of the radiolabeled peptides which, after endocytosis, were preferentially catabolized and excreted into the bile. Biliary excretion of intact as well as partially degraded Abeta species became obviously relevant at doses above 10 microg. The use of biotin-labeled Abeta allowed the visualization of the interaction with HepG2 cells in culture, whereas competitive inhibition experiments with unlabeled Abeta demonstrated the specificity of the binding. The capability of the liver to uptake, catabolize, and excrete large doses of Abeta, several orders of magnitude above its physiologic concentration, may explain not only the femtomolar plasma levels of Abeta but the little fluctuation observed with age and disease stages
PMID: 15322125
ISSN: 0021-9258
CID: 47833

Familial and sporadic cerebral amyloid angiopathies associated with dementia and the BRI dementias

Chapter by: Plant, Gordon T; Revesz, Tamas; Holton, Janice L; Ghiso, Jorge; Frangione, Blas
in: The neuropathology of dementia by Esiri, Margaret M; Lee, VM-Y; Trojanowski, John Q [Eds]
Cambridge UK : Cambridge University Press, 2004
pp. ?-?
ISBN: 0521819156
CID: 4822

Biochemical analysis of A beta amyloid deposits in the Iowa variant of Alzheimer's disease [Meeting Abstract]

Tomidokoro, Y; Rostagno, A; Greenberg, SM; Frangione, B; Rebeck, WG; Ghiso, J
ISI:000223058700126
ISSN: 0197-4580
CID: 47713

Insulin degrading enzyme from human brain microvessels degrades amyloid beta and its Flemish, Dutch and Italian vasculotropic variants [Meeting Abstract]

Morelli, L; Llovera, RE; Frangione, B; Ghiso, J; Castano, EM
ISI:000223058700488
ISSN: 0197-4580
CID: 47720

Identification of distinct N-terminal truncated forms of prion protein in different Creutzfeldt-Jakob disease subtypes

Zanusso, Gianluigi; Farinazzo, Alessia; Prelli, Frances; Fiorini, Michele; Gelati, Matteo; Ferrari, Sergio; Righetti, Pier Giorgio; Rizzuto, Nicolo; Frangione, Blas; Monaco, Salvatore
In prion diseases, the cellular prion protein (PrP(C)) is converted to an insoluble and protease-resistant abnormal isoform termed PrP(Sc). In different prion strains, PrP(Sc) shows distinct sites of endogenous or exogenous proteolysis generating a core fragment named PrP27-30. Sporadic Creutzfeldt-Jakob disease (sCJD), the most frequent human prion disease, clinically presents with a variety of neurological signs. As yet, the clinical variability observed in sCJD has not been fully explained by molecular studies relating two major types of PrP27-30 with unglycosylated peptides of 21 (type 1) and 19 kDa (type 2) and the amino acid methionine or valine at position 129. Recently, smaller C-terminal fragments migrating at 12 and 13 kDa have been detected in different sCJD phenotypes, but their significance remains unclear. By using two-dimensional immunoblot with anti-PrP antibodies, we identified two novel groups of protease-resistant PrP fragments in sCJD brain tissues. All sCJD cases with type 1 PrP27-30, in addition to MM subjects with type 2 PrP27-30, were characterized by the presence of unglycosylated PrP fragments of 16-17 kDa. Conversely, brain homogenates from patients VV and MV with type 2 PrP27-30 contained fully glycosylated PrP fragments, which after deglycosylation migrated at 17.5-18 kDa. Interestingly, PrP species of 17.5-18 kDa matched deglycosylated forms of the C1 PrP(C) fragment and were associated with tissue PrP deposition as plaque-like aggregates or amyloid plaques. These data show the presence of multiple PrP(Sc) conformations in sCJD and, in addition, shed new light on the correlation between sCJD phenotypes and disease-associated PrP molecules
PMID: 15247220
ISSN: 0021-9258
CID: 101671

Antibody mediated modulation of A beta induced neurotoxicity in cell culture [Meeting Abstract]

Asuni, AA; Knudsen, E; Frangione, B; Wisniewski, T; Sigurdsson, EM
ISI:000223058701929
ISSN: 0197-4580
CID: 47745

Soluble Abeta homeostasis in AD and DS: impairment of anti-amyloidogenic protection by lipoproteins

Matsubara, Etsuro; Sekijima, Yoshiki; Tokuda, Takahiko; Urakami, Katsuya; Amari, Masakuni; Shizuka-Ikeda, Masami; Tomidokoro, Yasushi; Ikeda, Masaki; Kawarabayashi, Takeshi; Harigaya, Yasuo; Ikeda, Shu-ichi; Murakami, Tetsuro; Abe, Koji; Otomo, Eiichi; Hirai, Shunsaku; Frangione, Blas; Ghiso, Jorge; Shoji, Mikio
In order to assess whether lipoproteins are physiologically able to balance and modulate the sAbeta homeostasis in vivo, soluble Abeta levels in lipoprotein-depleted plasma were measured as a function of age in normal controls, Alzheimer's disease (AD) patients, and Down's syndrome (DS) cases. The reshaping of sAbeta homeostasis, in particular the sAbeta42-lipoprotein interaction, takes place over normal-60's, whereas mild AD patients appear to have impaired this anti-amyloidogenic mechanism resulting in a significant increase of lipoprotein-free sAbeta42. Similar loss of function takes place in Down's syndrome patients. Lipoprotein-free sAbeta remains significantly elevated from the pre-symptomatic through the symptomatic stages of the disease, and declines with the progression of the AD-like pathology. The dissociation of sAbeta from lipoprotein-particles also occurs in brain parenchyma and the presence of soluble dimeric lipoprotein-free Abeta prior to its parenchymal deposition in AD brains would support the hypothesis that functionally declined lipoproteins may be major determinants in the production of metabolic conditions leading to higher levels of sAbeta species and cerebral amyloidosis
PMID: 15212837
ISSN: 0197-4580
CID: 81099

Differential degradation of amyloid beta genetic variants associated with hereditary dementia or stroke by insulin-degrading enzyme

Morelli, Laura; Llovera, Ramiro; Gonzalez, Silvia A; Affranchino, Jose L; Prelli, Frances; Frangione, Blas; Ghiso, Jorge; Castano, Eduardo M
Inherited amino acid substitutions at position 21, 22, or 23 of amyloid beta (Abeta) lead to presenile dementia or stroke. Insulin-degrading enzyme (IDE) can hydrolyze Abeta wild type, yet whether IDE is capable of degrading Abeta bearing pathogenic substitutions is not known. We studied the degradation of all of the published Abeta genetic variants by recombinant rat IDE (rIDE). Monomeric Abeta wild type, Flemish (A21G), Italian (E22K), and Iowa (D23N) variants were readily degraded by rIDE with a similar efficiency. However, proteolysis of Abeta Dutch (E22Q) and Arctic (E22G) was significantly lower as compared with Abeta wild type and the rest of the mutant peptides. In the case of Abeta Dutch, inefficient proteolysis was related to a high content of beta structure as assessed by circular dichroism. All of the Abeta variants were cleaved at Glu3-Phe4 and Phe4-Arg5 in addition to the previously described major sites within positions 13-15 and 18-21. SDS-stable Abeta dimers were highly resistant to proteolysis by rIDE regardless of the variant, suggesting that IDE recognizes a conformation that is available for interaction only in monomeric Abeta. These results raise the possibility that upregulation of IDE may promote the clearance of soluble Abeta in hereditary forms of Abeta diseases
PMID: 12695513
ISSN: 0021-9258
CID: 42004