Acridine and phenothiazine derivatives as pharmacotherapeutics for prion disease

Korth, Carsten; May, Barnaby C. H.; Cohen, Fred E.; Prusiner, Stanley B.

doi:10.1073/pnas.161274798

Cited by 606 publications

(437 citation statements)

References 42 publications

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“…One of the most commonly used cell line for in vitro prion studies is the mouse neuroblastoma cell line N2a which is readily susceptible to mouse adapted sheep scrapie prion strains. In fact, these cells can become chronically infected with the prion agent and have served as an in vitro model for testing potential therapeutic approaches against prion diseases [21,39]. Several recent reports demonstrated that non-neuronal cells can also support TSE infection.…”

Section: Page | 24mentioning

confidence: 99%

Canine MDCK cell lines are refractory to infection with human and mouse prions

Polymenidou

Trusheim

Stallmach

et al. 2008

Vaccine

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Section: Page | 24mentioning

confidence: 99%

Canine MDCK cell lines are refractory to infection with human and mouse prions

Polymenidou

Trusheim

Stallmach

et al. 2008

Vaccine

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“…The solution was cooled to °C, treated with Et 2 O (500 ml), and extracted with HCl (1M aq., 2×300 ml). The combined aqueous layers were washed with Et 2 O (200 ml), cooled to 0 °C , treated directly with solid NaOH until the mixture was visibly heterogeneous, and then extracted with EtOAc (3×200 ml), dried over Na 2 SO 4 , and concentrated in vacuo to yield the desired secondary amines (15) in high purity (50-71% yield).…”

Section: General Procedures For Amidation/reduction To Generate the Sementioning

confidence: 99%

Parallel synthesis of 9-aminoacridines and their evaluation against chloroquine-resistant Plasmodium falciparum

Anderson

Sherrill

Madrid

et al. 2006

Bioorganic & Medicinal Chemistry

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A parallel synthetic strategy to the 9-aminoacridine scaffold of the classical anti-malarial drug quinacrine (2) is presented. The method features a new route to 9-chloroacridines that utilizes triflates of salicylic acid derivatives, which are commercially available in a variety of substitution patterns. The route allows ready variation of the two diversity elements present in this class of molecules: the tricyclic aromatic heterocyclic core, and the disubstituted diamine sidechain. In this study, a library of 175 compounds was designed, although only 93 of the final products had purities acceptable for screening. Impurity was generally due to incomplete removal of 9-acridones (18), a degradation product of the 9-chloroacridine synthetic intermediates. The library was screened against two strains of Plasmodium falciparum, including a model of the drug-resistant parasite, and six novel compounds were found to have IC 50 values in the low nanomolar range.

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“…Thus, a cluster of aromatic residues is formed in the peptide, which is solvent-exposed to a large part even in the structure of PrP. In addition to its importance for the stability of helix 1 itself and for the attachment of helix 1 to helices 2 and 3, this cluster of aromatic residues may play an important role for the binding of potential therapeutic drugs such as quinacrine (49). 2 Our data underline the importance of interleaved placement of i,iϩ4 electrostatic and aromatic interactions for the formation of stable helices.…”

Section: [De]-x-x-a-[rk]-x-x-[rk]-[de] Modeling the D147a Mutation Anmentioning

confidence: 99%

CD and NMR Studies of Prion Protein (PrP) Helix 1

Ziegler

Sticht

Marx

et al. 2003

Journal of Biological Chemistry

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The conversion of prion helix 1 from an ␣-helical into an extended conformation is generally assumed to be an essential step in the conversion of the cellular isoform PrP C of the prion protein to the pathogenic isoform PrP Sc . Peptides encompassing helix 1 and flanking sequences were analyzed by nuclear magnetic resonance and circular dichroism. Our results indicate a remarkably high instrinsic helix propensity of the helix 1 region. In particular, these peptides retain significant helicity under a wide range of conditions, such as high salt, pH variation, and presence of organic co-solvents. As evidenced by a data base search, the pattern of charged residues present in helix 1 generally favors helical structures over alternative conformations. Because of its high stability against environmental changes, helix 1 is unlikely to be involved in the initial steps of the pathogenic conformational change. Our results implicate that interconversion of helix 1 is rather representing a barrier than a nucleus for the PrP C 3 PrP Sc conversion.Prion protein, PrP, 1 is probably the disease-causing agent of transmissible spongiform encephalopathies such as bovine spongiform encephalopathy in cattle or Creutzfeldt-Jakob disease in man (1). Its cellular form, PrP C , is a highly conserved cell surface glycoprotein of 230 amino acids expressed in all of the mammals studied so far as well as in several species of fish and birds (2, 3). The physiological function of PrP C is not yet fully understood. PrP C seems to be involved in the maintenance of proper presynaptic copper levels as well as in protecting neurons from oxidative stress (4, 5). In addition, the physiological function of PrP C could be associated with higher neurological functions such as learning and memory (5). According to the protein-only hypothesis, disease is caused by accumulation of a misfolded pathogenic isoform, PrP Sc , which is the result of an irreversible large scale conformational change of PrP C . Although PrP C is largely ␣-helical and soluble in polar solvents and sensitive to protease K digestion, PrP Sc consists mostly of ␤-sheets, is soluble only in nonpolar, denaturing solvents, and is resistant to digestion with protease K (6). PrP Sc forms fibrillar aggregates similar to other amyloid fibrils (7). Accumulation of PrP Sc aggregates is accompanied by astrocytosis and gliosis in central nervous tissue, which in turn result in vacuoles in the brains of patients.The solution structures of human PrP-(23-230), huPrP (8), mouse PrP-(121-231) (9), bovine PrP-(23-230) (10), and Syrian hamster PrP-(29 -231) (11) have been determined by NMR spectroscopy. They possess a high degree of structural conservation consistent with the high sequence identity of these proteins. Prion proteins consist of a flexible NH 2 -terminal domain spanning residues 23-124 (huPrP C -numbering scheme), which is largely disordered. This region includes an octapeptide sequence that is repeated four times from residues 60 to 92 and that is likely to bind copper (4). This part al...

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Acridine and phenothiazine derivatives as pharmacotherapeutics for prion disease

Cited by 606 publications

References 42 publications

Canine MDCK cell lines are refractory to infection with human and mouse prions

Canine MDCK cell lines are refractory to infection with human and mouse prions

Parallel synthesis of 9-aminoacridines and their evaluation against chloroquine-resistant Plasmodium falciparum

CD and NMR Studies of Prion Protein (PrP) Helix 1

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