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Melatonin abolishes the pro-aggregatory effects of apoE4 on the Alzheimer beta-protein [Meeting Abstract]
Poeggeler, B.; Chyan, Y.-J.; Bryant, T.; Wisniewski, T.; Frangione, B.; Ghiso, J.; Pappolla, M.
BIOSIS:PREV200000210599
ISSN: 0190-5295
CID: 97638
Beta-sheet breaker peptide inhibitor of Alzheimer's amyloidogenesis with increased blood-brain barrier permeability and resistance to proteolytic degradation in plasma
Poduslo JF; Curran GL; Kumar A; Frangione B; Soto C
Short synthetic peptides homologous to the central region of Abeta but bearing proline residues as beta-sheet blockers have been shown in vitro to bind to Abeta with high affinity, partially inhibit Abeta fibrillogenesis, and redissolve preformed fibrils. While short peptides have been used extensively as therapeutic drugs in medicine, two important problems associated with their use in central nervous system diseases have to be addressed: (a) rapid proteolytic degradation in plasma, and (b) poor blood-brain barrier (BBB) permeability. Recently, we have demonstrated that the covalent modification of proteins with the naturally occurring polyamines significantly increases their permeability at the BBB. We have extended this technology to iAbeta11, an 11-residue beta-sheet breaker peptide that inhibits Abeta fibrillogenesis, by covalently modifying this peptide with the polyamine, putrescine (PUT), and evaluating its plasma pharmacokinetics and BBB permeability. After a single intravenous bolus injection in rats, both 125I-YiAbeta11 and 125I-PUT-YiAbeta11 showed rapid degradation in plasma as determined by trichloroacetic acid (TCA) precipitation and paper chromatography. By switching to the all D-enantiomers of YiAbeta11 and PUT-YiAbeta11, significant protection from degradation by proteases in rat plasma was obtained with only 1.9% and 5.7% degradation at 15 min after intravenous bolus injection, respectively. The permeability coefficient x surface area product at the BBB was five- sevenfold higher in the cortex and hippocampus for the 125I-PUT-D-YiAbeta11 compared to the 125I-D-YiAbeta11, with no significant difference in the residual plasma volume. In vitro assays showed that PUT-D-YiAbeta11 retains its ability to partially inhibit Abeta fibrillogenesis and dissolve preformed amyloid fibrils. Because of its five- to sevenfold increase in permeability at the BBB and its resistance to proteolysis in the plasma, this polyamine-modified beta-sheet breaker peptide may prove to be an effective inhibitor of amyloidogenesis in vivo and, hence, an important therapy for Alzheimer's disease
PMID: 10363910
ISSN: 0022-3034
CID: 9502
Kappa light chain-associated Fanconi's syndrome: molecular analysis of monoclonal immunoglobulin light chains from patients with and without intracellular crystals
Deret S; Denoroy L; Lamarine M; Vidal R; Mougenot B; Frangione B; Stevens FJ; Ronco PM; Aucouturier P
Plasma cell dyscrasias may be responsible for Fanconi's syndrome, due to the toxicity of a free monoclonal kappa light chain toward kidney proximal tubules. Eight cases of Fanconi's syndrome were analyzed. We compared the structures of VkappaI variability subgroup V domains from five cases of Fanconi's syndrome and one myeloma without renal involvement. Among Fanconi cases, four putative structures were obtained after molecular modeling by homology, and the other had previously been refined by X-ray crystallography. The complete sequences of one VkappaI, one VkappaIII and N-terminal sequences of two VkappaI light chains, from patients with different forms of Fanconi's syndrome, were compared with four previously studied sequences. All three kappa chains responsible for a 'classical' form with intralysosomal crystals and a low mass myeloma, were encoded by the LCO2/O12 germline gene and had an unusual non-polar residue exposed to the solvent in the CDR-L1 loop. Of both VkappaI light chains from patients with Fanconi's syndrome without intracellular crystals, one derived from LCO2/O12 and the other from LCO8/O18 gene. Another feature that could be related to non-crystallization was the absence of accessible side chains in the CDR-L3 loop which is known to be implicated in dimer formation
PMID: 10325408
ISSN: 0269-2139
CID: 9503
Nomenclature of amyloid fibril proteins. Report from the meeting of the International Nomenclature Committee on Amyloidosis, August 8-9, 1998. Part 1 [Editorial]
Westermark P; Araki S; Benson MD; Cohen AS; Frangione B; Masters CL; Saraiva MJ; Sipe JD; Husby G; Kyle RA; Selkoe D
PMID: 10211413
ISSN: 1350-6129
CID: 9504
Abeta40 and Abeta42 clearance in a transgenic mouse model expressing human apoE3 and apoE4 [Meeting Abstract]
Permanne, B.; Ji, Yong; Holtzman, D. M.; Frangione, B.; Wisniewski, T.
BIOSIS:PREV200000136514
ISSN: 0190-5295
CID: 97637
Mechanisms of amyloidosis
Frangione, B
SCOPUS:2542520974
ISSN: 0031-2983
CID: 638332
Antibodies directed to the carboxyl terminus of amyloid ?-peptide recognize sequence epitopes and distinct immunoreactive deposits in Alzheimer's disease brain
Jimenez-Huete, A; Alfonso, P; Soto, C; Albar, JP; Rabano, A; Ghiso, J; Frangione, B; Mendez, E
Amyloid ?-peptide (A?) deposits in Alzheimer disease (AD) are composed of species with heterogeneous N- and C-terminl. The availability of antibodies selective for the different A? variants represents a major advance in the investigation of A? amyloidogenesis. The precise characterization of these antibodies is essential to allow valid interpretation of the data. To further analyze this subject, EM1, EM2, EM3 and EM4 polyclonal antibodies were raised against A? 1-42, A? 1-40, A? 37-42 and A? 37-40 synthetic peptides. As shown by ELISA, immunoblot analysis and inhibition assays, EM2 and EM3 presented a selective recognition of A? x-40 and A? x-42 variants, respectively. This recognition was not dependent on the secondary structure of the A? peptides, indicating that EM2 and EM3 antisera react with sequence epitopes. Immunohistochemical studies using EM2 and EM3 confirm previous reports on the differential distribution of A? x-40 and A? x-42. species in AD brains. While A? x-40 deposits were restricted mainly to cored plaques and arterial vessels, A? x-42 peptides were found in preamyloid lesions, cored and uncored plaques, and arterial and capillary vessels. The mechanisms underlying these differences are unknown, but local divergences in the processing of either the amyloid precursor protein or A? x-42(43) species may be important.
SCOPUS:0001792809
ISSN: 1461-6130
CID: 638202
Inhibition of Alzheimer beta-fibrillogenesis by melatonin
Pappolla M; Bozner P; Soto C; Shao H; Robakis NK; Zagorski M; Frangione B; Ghiso J
It is generally postulated that the amyloid beta protein (Abeta) plays a central role in the progressive neurodegeneration observed in Alzheimer's disease. Important pathologic properties of this protein, such as neurotoxicity and resistance to proteolytic degradation, depend on the ability of Abeta to form beta-sheet structures or amyloid fibrils. We report that melatonin, a hormone recently found to protect neurons against Abeta toxicity, interacts with Abeta1-40 and Abeta1-42 and inhibits the progressive formation of beta-sheets and amyloid fibrils. These interactions between melatonin and the amyloid peptides were demonstrated by circular dichroism and electron microscopy for Abeta1-40 and Abeta1-42 and by nuclear magnetic resonance spectroscopy for Abeta1-40. Inhibition of beta-sheets and fibrils could not be accomplished in control experiments when a free radical scavenger or a melatonin analog were substituted for melatonin under otherwise identical conditions. In sharp contrast with conventional anti-oxidants and available anti-amyloidogenic compounds, melatonin crosses the blood-brain barrier, is relatively devoid of toxicity, and constitutes a potential new therapeutic agent in Alzheimer's disease
PMID: 9516407
ISSN: 0021-9258
CID: 9390
Endogenous proteolytic cleavage of normal and disease-associated isoforms of the human prion protein in neural and non-neural tissues
Jimenez-Huete A; Lievens PM; Vidal R; Piccardo P; Ghetti B; Tagliavini F; Frangione B; Prelli F
We have investigated the proteolytic cleavage of the cellular (PrPC) and pathological (PrPSc) isoforms of the human prion protein (PrP) in normal and prion-affected brains and in tonsils and platelets from neurologically intact individuals. The various PrP species were resolved after deglycosylation according to their electrophoretic mobility, immunoreactivity, Sarkosyl solubility, and, as a novel approach, resistance to endogenous proteases. First, our data show that PrPC proteolysis in brain originates amino-truncated peptides of 21 to 22 and 18 (C1) kd that are similar in different regions and are not modified by the PrP codon 129 genotype, a polymorphism that affects the expression of prion disorders. Second, this proteolytic cleavage of PrPC in brain is blocked by inhibitors of metalloproteases. Third, differences in PrPC proteolysis, and probably in Asn glycosylation and glycosylphosphatidylinositol anchor composition, exist between neural and non-neural tissues. Fourth, protease-resistant PrPSc cores in sporadic Creutzfeldt-Jakob disease (CJD) and Gerstmann-Straussler-Scheinker F198S disease brains all have an intact C1 cleavage site (Met111-His112), which precludes disruption of a domain associated with toxicity and fibrillogenesis. Fifth, the profile of endogenous proteolytic PrPSc peptides is characteristic of each disorder studied, thus permitting the molecular classification of these prion diseases without the use of proteinase K and even a recognition of PrPSc heterogeneity within type 2 CJD patients having different codon 129 genotype and neuropathological phenotype. This does not exclude the role of additional factors in phenotypic expression; in particular, differences in glycosylation that may be especially relevant in the new variant CJD. Proteolytic processing of PrP may play an important role in the neurotropism and phenotypic expression of prion diseases, but it does not appear to participate in disease susceptibility
PMCID:1853409
PMID: 9811348
ISSN: 0002-9440
CID: 7624
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