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APP processing, A beta-amyloidogenesis, and the pathogenesis of Alzheimer's disease
Gandy S; Caporaso G; Buxbaum J; Frangione B; Greengard P
PMID: 7838304
ISSN: 0197-4580
CID: 9524
Brain uptake of circulating apolipoproteins J and E complexed to Alzheimer's amyloid beta
Zlokovic BV; Martel CL; Mackic JB; Matsubara E; Wisniewski T; McComb JG; Frangione B; Ghiso J
Amyloid beta (A beta) is a fibrillar component in Alzheimers' disease amyloid deposits and a soluble peptide (sA beta) normally present in body fluids. We have recently reported that the blood-brain barrier (BBB) has a capability to control cerebrovascular sequestration and transport of circulating sA beta. In this study, we examined whether two circulating amyloid-associated proteins shown to bind sA beta, apolipoproteins J (apo J) and E (apo E), can cross the BBB alone and/or complexed to a synthetic peptide homologous to a major form of sA beta, sA beta 1-40. Brain perfusion experiments in guinea pigs showed significant uptake of both apo J and sA beta 1-40-apo J complexes. In contrast, blood-brain transport of sA beta 1-40-apo E was negligible, while apo E had a limited access across the BBB, indicating that the apo E found within the brain is produced locally. It is concluded that sA beta 1-40 binding to apo J and apo E results in significant (> 100-fold) difference in brain uptake of their respective complexes. We hypothesize that in normal brain apo J facilitates sA beta transport
PMID: 7802679
ISSN: 0006-291x
CID: 9399
Ocular amyloid deposition in familial amyloidosis, Finnish: an analysis of native and variant gelsolin in Meretoja's syndrome
Kivela T; Tarkkanen A; Frangione B; Ghiso J; Haltia M
PURPOSE: To analyze the deposition of amyloid and its precursors in eyes of patients with familial amyloidosis, Finnish (FAF; Meretoja's syndrome), a hereditary systemic amyloidosis. METHODS. Autopsy eyes from three patients with FAF and ten control eyes were studied by Congo red staining and with antibodies to the nonmutated part of gelsolin (GS-2C4), the mutated gelsolin Asn-187 fragment (AGel), and amyloid-P component (AP). RESULTS. Congo red and antisera to AP and AGel bound to amyloid deposits in the cornea and conjunctiva, the sclera, the perineurium of ciliary nerves, the walls of ciliary vessels, the optic nerve sheaths, the stroma of the ciliary body, and along the choriocapillaris. mAb GS-2C4 bound weakly and focally to most deposits and strongly around the choriocapillaris. It labeled the corneal epithelium and endothelium, keratocytes, scleral fibroblasts, trabecular and lens epithelial cells, the ciliary muscle and epithelium, the iris sphincter and dilator, and stromal cells of the conjunctiva and uveal tract. CONCLUSIONS. Local production, especially in the cornea, conjunctiva, sclera, and ciliary muscle, and systemic deposition, particularly in blood vessles and in the sclera, may contribute to amyloid deposits in FAF. To explain the complex pattern of deposition, microenvironmental factors such as lamellar architecture of the cornea and sclera, altered processing of gelsolin, or blood-tissue barriers must be invoked. In addition to corneal lattice dystrophy type II, the observed deposits help to explain glaucoma in patients with FAF
PMID: 8088963
ISSN: 0146-0404
CID: 9400
Potential role of apolipoprotein-E in fibrillogenesis
Gallo G; Wisniewski T; Choi-Miura NH; Ghiso J; Frangione B
Immunohistochemical and biochemical studies have demonstrated several different proteins in amyloid deposits that are not intrinsic components of the fibril itself but may play a role in their deposition and fibril formation. We compared the distribution of several amyloid-associated proteins, ie, amyloid P component, apolipoprotein-E, apolipoprotein-J, and vitronectin, in the deposits of several different amyloids, in particular light chain amyloid, with those in the deposits of nonamyloid monoclonal immunoglobulin, which may be considered a form of preamyloid disease. Although 100% of amyloid specimens (7 amyloid A, 15 immunoglobulin light chain, and 1 transthyretin) had amyloid P component and 100% had apolipoprotein-E (2 amyloid A, 10 immunoglobulin light chain, and 1 transthyretin) co-localized with the primary amyloid protein, none of the monoclonal nonamyloid cases (14 light chain deposition disease and 6 light and heavy chain deposition disease) had amyloid P component and only 1 of 11 had apolipoprotein-E. On the other hand, staining for apolipoprotein-J and vitronectin was positive in 100% of cases of amyloid and nonamyloid monoclonal deposits. The association between the presence of apolipoprotein-E and amyloid P component in the fibrillar form of monoclonal light chain deposits and their absence in the nonfibrillar form of deposits suggest a role for these proteins in the process of fibrillogenesis. This lends support for the previously proposed concept that apolipoprotein-E functions as a pathological chaperone by altering the conformation of amyloidogenic proteins
PMCID:1890322
PMID: 8080036
ISSN: 0002-9440
CID: 9401
Amyloid fibrils in Gerstmann-Straussler-Scheinker disease (Indiana and Swedish kindreds) express only PrP peptides encoded by the mutant allele [Case Report]
Tagliavini F; Prelli F; Porro M; Rossi G; Giaccone G; Farlow MR; Dlouhy SR; Ghetti B; Bugiani O; Frangione B
Gerstmann-Straussler-Scheinker (GSS) disease is a cerebral amyloidosis linked to mutations of the PRNP gene. We previously reported that the amyloid protein in the Indiana kindred of GSS is an internal fragment of prion protein (PrP). To investigate whether this fragment originates only from mutant or from both mutant and wild-type PrP, we have characterized amyloid proteins purified from patients of the Indiana and Swedish GSS families. These patients were heterozygous for the Met-Val polymorphism at PRNP codon 129 and carried a mutation at PRNP codon 198 (Phe-->Ser) and codon 217 (Gln-->Arg), respectively. The smallest amyloid subunit was a 7 kDa peptide spanning residues approximately 81 to approximately 150 in the Indiana patient and approximately 81 to approximately 146 in the Swedish patient. In both patients, only Val was present at position 129. Since Val-129 was in coupling phase with Ser-198 and Arg-217, our findings indicate that only the mutant PrP is involved in amyloid formation in both kindreds
PMID: 7954833
ISSN: 0092-8674
CID: 9522
AMYLOIDS, GENES AND CHAPERONES IN ALZHEIMERS-DISEASE [Meeting Abstract]
FRANGIONE, B
ISI:A1994NV60900162
ISSN: 0197-4580
CID: 52403
CHARACTERIZATION BY RADIOSEQUENCING OF THE CARBOXY-TERMINAL DERIVATIVES PRODUCED FROM NORMAL AND MUTANT AMYLOID-BETA PROTEIN PRECURSORS [Meeting Abstract]
CHEUNG, TT; GHISO, J; SHOJI, M; CAI, XD; GOLDE, T; GANDY, S; FRANGIONE, B; YOUNKIN, S
ISI:A1994NV60900225
ISSN: 0197-4580
CID: 52404
BETA-PROTEIN PRECURSOR INTERACTION WITH TAU [Meeting Abstract]
PERRY, G; SIEDLAK, S; MULVIHILL, P; RICHEY, PL; PRAPROTNIK, D; GHISO, J; FRANGIONE, B; KALARIA, R; SMITH, MA
ISI:A1994NV60900321
ISSN: 0197-4580
CID: 52406
Alzheimer's disease and soluble A beta
Wisniewski T; Ghiso J; Frangione B
The discovery of soluble amyloid beta (sA beta) suggests that the role of amyloid in Alzheimer's disease (AD) is similar to the previously studied systemic amyloidoses and alters the notion that membrane damage is the initial event in AD. The disease state is characterized by the abnormal accumulation of a normal degradative peptide, which becomes resistant to further proteolysis due to a conformational change. Mutations in the beta PP gene have been found in a very small percentage of AD cases; hence other factors, both genetic and environmental, need to be identified. Priority needs to be given to detailed studies of the structural differences between sA beta and the A beta in amyloid deposits. This will help uncover the determining factors governing the aggregation of sA beta. These structural alterations may be critical for the possible toxic effects A beta and/or associated proteins (molecular chaperones, e.g., apolipoprotein E) have on brain cell function
PMID: 7838284
ISSN: 0197-4580
CID: 6778
7-KD AMYLOID SUBUNIT IN GSS DISEASE (INDIANA AND SWEDISH KINDREDS) CONTAINS ONLY PRP PE [Meeting Abstract]
TAGLIAVINI, F; PRELLI, F; PORRO, M; ROSSI, G; GIACCONE, G; FARLOW, MR; DLOUHY, SR; GHETTI, B; BUGIANI, O; FRANGIONE, B
ISI:A1994NV60900590
ISSN: 0197-4580
CID: 52410