Searched for: in-biosketch:yes
person:frangb01
Alzheimer patients: preamyloid deposits are immunoreactive with antibodies to extracellular domains of the amyloid precursor protein
Tagliavini F; Giaccone G; Verga L; Ghiso J; Frangione B; Bugiani O
In patients with Alzheimer's disease, in patients with Down's syndrome and in aged non-demented individuals, anti-beta-protein antibodies label not only the fibrillary amyloid, but also preamyloid deposits. The latter are made up of amorphous material lacking the tinctorial, optical and ultrastructural properties of amyloid fibrils. To investigate the antigenic profile of preamyloid deposits, we have carried out an immunohistochemical study on specimens of cerebral cortex from 4 Alzheimer patients and two non-demented individuals, using antibodies to the beta-protein (anti-SP28), the C-terminal region of the amyloid precursor protein (APP) (anti-SP20) and an APP extracellular epitope between residues 50 and 100 (anti-preA4). Anti-preA4 and anti-SP28 immunoreactivity was found to be present in preamyloid deposits, whereas anti-SP20 immunoreactivity was not. These findings suggest that an extracellular portion of APP, close to the N-terminus of the molecule, participates with beta-protein in the composition of preamyloid deposits
PMID: 1922939
ISSN: 0304-3940
CID: 9420
Gelsolin variant and beta-amyloid co-occur in a case of Alzheimer's with Lewy bodies [Case Report]
Haltia M; Ghiso J; Wisniewski T; Kiuru S; Miller D; Frangione B
Familial amyloidosis, Finnish type (FAF), is an autosomal dominant form of amyloidosis which is related to a point mutation in the gelsolin gene localized on chromosome 9. The mutation corresponds to codon 187 of the secreted form of gelsolin, and is expressed in the amyloid fibril at residue 15. Our original FAF patient was demented, and neuropathological analysis showed Alzheimer type brain lesions associated with both classical and cortical Lewy bodies. Furthermore, antiserum against the gelsolin-derived FAF amyloid reacted strongly with both classical and cortical Lewy bodies of this FAF patient. In preliminary experiments similar results were obtained in cases of Parkinson's disease and diffuse Lewy body disease. These observations may indicate a role for gelsolin in the pathogenesis of Parkinson's disease and related conditions
PMID: 1660109
ISSN: 0197-4580
CID: 9421
Lewy bodies are immunoreactive with antibodies raised to gelsolin related amyloid-Finnish type
Wisniewski T; Haltia M; Ghiso J; Frangione B
Lewy bodies (LB) are intraneuronal, cytoplasmic inclusion bodies. They are invariably present in Parkinson's and diffuse LB diseases. Their composition by direct biochemical methods is unknown, although LBs are immunoreactive with a number of antibodies, including anti-ubiquitin and anti-neurofilament antibodies. Familial amyloidosis, Finnish type (FAF), is an autosomal-dominant form of systemic amyloidosis. The authors have isolated and partially sequenced the amyloid. The protein has significant sequence identity with gelsolin, an actin-modulating protein. Rabbit polyclonal antibodies raised to the FAF amyloid not only immunostain the amyloid but also LBs in the cortex and substantia nigra of Parkinson's and diffuse LB disease brains. Immunoreactivity is absorbed by the purified amyloid but is unaffected by ubiquitin. This provides a link between the LB and one of the human amyloidoses, FAF
PMCID:1886019
PMID: 1850958
ISSN: 0002-9440
CID: 9422
Amyloid protein of Gerstmann-Straussler-Scheinker disease (Indiana kindred) is an 11 kd fragment of prion protein with an N-terminal glycine at codon 58
Tagliavini F; Prelli F; Ghiso J; Bugiani O; Serban D; Prusiner SB; Farlow MR; Ghetti B; Frangione B
Gerstmann-Straussler-Scheinker (GSS) disease is a familial neurological disorder pathologically characterized by amyloid deposition in the cerebrum and cerebellum. The GSS amyloid is immunoreactive to antisera raised against the hamster prion protein (PrP) 27-30. This is a proteinase K-resistant glycoprotein of 27-30 kd that is derived from an abnormal isoform of a neuronal glycoprotein of 33-35 kd designated PrPSc and is a molecular marker of amyloid fibrils isolated from animals with scrapie and humans with related disorders. We have purified and characterized proteins extracted from amyloid plaque cores isolated from two patients of the Indiana kindred of GSS disease. We found that the major component of GSS amyloid is an 11 kd degradation product of PrP, whose N-terminus corresponds to the glycine residue at position 58 of the amino acid sequence deduced from the human PrP cDNA. In addition, amyloid fractions contained larger PrP fragments with apparently intact N-termini and amyloid P component. These findings suggest that the disease process leads to proteolytic cleavage of PrP, generating an amyloidogenic peptide that polymerizes into insoluble fibrils. The N-terminal cleavage of PrP in GSS disease occurs at a tryptophan-glycine peptide bond identical to that cleaved by proteinase K in vitro to generate PrP 27-30 from hamster PrPSc at codon 90. Since no mutations of the structural PrP gene have been found in the Indiana family of GSS disease, it is conceivable that factors other than the primary structure of PrP play a crucial role in the process of amyloid formation and the development of clinical neurologic dysfunction
PMCID:452678
PMID: 1672107
ISSN: 0261-4189
CID: 9423
The primary structure of the Fab fragment of protein KAU, a monoclonal immunoglobulin M cold agglutinin
Leoni J; Ghiso J; Goni F; Frangione B
The complete amino acid sequence of the Fab fragment of protein KAU, a human monoclonal cold agglutinin (IgMk) with anti-I activity, was determined. The light chain (L-chain) consists of 215 residues; the variable (V)L region belongs to the Hum/Kv325/kIIIb sub-subgroup that is preferentially selected in human IgM autoimmune response. The joining (J) region is encoded by the Jk4 gene, and the constant region (C)L domain expresses the km3 allotypic marker. The Fd fragment contains 232 amino acids, and 120 of them comprise the variable domain. The VH region corresponds to the VHIV subgroup and is closely related to the VHIV 2.1 gene isolated from genomic DNA expressed in peripheral blood of a healthy Caucasian. The complementary-determining region 1 has a unique amino acid (Asp) at position 31, and the complementary-determining region 3 codified by the diversity segment (D) gene, shows poor homology with other known D sequences. The joining segment with two unusual substitutions at the D-J junction is encoded by the JH4 gene. Thus, cold agglutinin KAU is an IgM, VkIIIb-Jk4-km3; VHIV-JH4-C mu
PMID: 1993660
ISSN: 0021-9258
CID: 9424
Inherited amyloids of the nervous system
Castano EM; Wisniewski T; Frangione B
A diverse group of biochemically distinct proteins give rise to amyloids, each of which is associated with a different disease. These amyloid proteins share numerous properties and typically arise from the abnormal processing of an amyloid precursor protein. The classification, mechanisms and biochemistry of amyloid fibril formation are reviewed here, and two inherited types of amyloid affecting the nervous system are described
PMID: 1821690
ISSN: 0959-4388
CID: 9542
DNA diagnosis for hereditary cerebral hemorrhage with amyloidosis (Dutch type) [see comments] [Comment]
Bakker E; van Broeckhoven C; Haan J; Voorhoeve E; van Hul W; Levy E; Lieberburg I; Carman MD; van Ommen GJ; Frangione B; et al
Hereditary cerebral hemorrhage with amyloidosis of the Dutch type (HCHWA-D) is tightly linked to the Alzheimer amyloid precursor protein gene on chromosome 21, which codes for the amyloid beta-protein. A point mutation detected at position 1852 of the amyloid precursor protein gene in four HCHWA-D patients was hypothesized to be the basic defect. This study proves that 22 HCHWA-D patients from three pedigrees all carry this point mutation, whereas the mutation is absent in escapees from the HCHWA-D families as well as in randomly selected Dutch individuals. A mutation-specific oligonucleotide is now available for the confirmation of the HCHWA-D diagnosis. Therefore, presymptomatic testing and prenatal evaluation of individuals at risk in the HCHWA-D families is now feasible
PMCID:1683137
PMID: 1679289
ISSN: 0002-9297
CID: 9543
Relationship between non-fibrillary amyloid precursors and cell processes in the cortical neuropil of Alzheimer patients
el Hachimi KH; Verga L; Giaccone G; Tagliavini F; Frangione B; Bugiani O; Foncin JF
We examined the ultrastructural localization of amyloid beta-protein in 8 Alzheimer neocortical biopsies. Intense immunoreactivity was located extracellularly on amyloid fibrils and amorphous material. Amorphous labelled material was also found in cell processes. No ultrastructural cell marker, such as glial fibrils, glycogen, tubules, paired helical filaments (PFHs) or synaptic vesicles could be seen in these processes that could allow their identification as glial processes, neurites or presynaptic terminals, respectively; occasional membrane stacks were observed. These findings suggest that preamyloid deposits are related to cell processes and, by elimination, that postsynaptic terminals may be involved in abnormal metabolism of the amyloid fibril precursors
PMID: 1922961
ISSN: 0304-3940
CID: 9544
Nodular cutaneous amyloidosis [Case Report]
Trau H; Shpiro D; Schewach-Millet M; Pras M; Prelli F; Frangione B
A nodular cutaneous amyloidosis biopsy specimen from a solitary nodule of a 75-year-old patient was characterized by amino terminal sequence analysis and was proved to be derived from immunoglobulin kIII light chain. Five years after the diagnosis of amyloidosis in the skin was made, a rectal biopsy demonstrated amyloid deposits in a blood vessel. It is suggested that nodular cutaneous amyloidosis is a slowly progressive systemic disease of the AL type, that manifest itself mainly in the skin
PMID: 1928625
ISSN: 0193-1091
CID: 9545
Characterization of high molecular weight amyloid A proteins
Prelli F; Pras M; Shtrasburg S; Frangione B
Human amyloid A protein (AA) is usually composed of the NH2-terminal 76 amino acid residue of serum amyloid A protein (SAA), although lower and higher molecular weight fragments have been reported. We studied the primary structure of six AA proteins with molecular weights of 11 kDA-15kDA, as determined by SDS-PAGE. Automated Edman degradation of the intact purified proteins and sequence analysis of enzymatic peptides revealed that the AA proteins were composed of only 74 to 87 residues. Moreover, fragments of apolipoprotein E or histones 2a, 3 and 4 were associated with these AA molecules. Thus, AA heterogeneity may reflect diverse processing of the SAA precursor and a very close association with other proteins
PMID: 2047766
ISSN: 0300-9475
CID: 9546