D. L. Venton scite author profile

In recent studies of transgenic models of Alzheimer's disease (AD), it has been reported that antibodies to aged beta amyloid peptide 1±42 (Ab 1242 ) solutions (mixtures of Ab monomers, oligomers and amyloid ®brils) cause conspicuous reduction of amyloid plaques and neurological improvement. In some cases, however, neurological improvement has been independent of obvious plaque reduction, and it has been suggested that immunization might neutralize soluble, non®brillar forms of Ab. It is now known that Ab toxicity resides not only in ®brils, but also in soluble proto®brils and oligomers. The current study has investigated the immune response to low doses of Ab 1242 oligomers and the characteristics of the antibodies they induce. Rabbits that were injected with Ab 1242 solutions containing only monomers and oligomers produced antibodies that preferentially bound to assembled forms of Ab in immunoblots and in physiological solutions. The antibodies have proven useful for assays that can detect inhibitors of oligomer formation, for immuno¯uorescence localization of cell-attached oligomers to receptor-like puncta, and for immunoblots that show the presence of SDS-stable oligomers in Alzheimer's brain tissue. The antibodies, moreover, were found to neutralize the toxicity of soluble oligomers in cell culture. Results support the hypothesis that immunizations of transgenic mice derive therapeutic bene®t from the immunoneutralization of soluble Ab-derived toxins. Analogous immuno-neutralization of oligomers in humans may be a key in AD vaccines.

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Pulsed Ultrafiltration Mass Spectrometry: A New Method for Screening Combinatorial Libraries

Breemen

et al. 1997

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In response to the need for rapid screening of combinatorial libraries to identify new lead compounds during drug discovery, we have developed an on-line combination of ultrafiltration and electrospray mass spectrometry, called pulsed ultrafiltration mass spectrometry, which facilitates the identification of solution-phase ligands in library mixtures that bind to solution-phase receptors. After ligands contained in a library mixture were bound to a macromolecular receptor, e.g., human serum albumin or calf intestine adenosine deaminase, the ligand-receptor complexes were purified by ultrafiltration and then dissociated using methanol to elute the ligands into the electrospray mass spectrometer for detection. Ligands with dissociation constants in the micromolar to nanomolar range were successfully bound, released, and detected using this method, including warfarin, salicylate, furosemide, and thyroxine binding to human serum albumin, and erythro-9-(2-hydroxy-3-nonyl)adenine binding to calf intestine adenosine deaminase. Repetitive bind- and-release experiments demonstrated that the receptor could be reused. Thus, pulsed ultrafiltration mass spectrometry was shown to provide a simple and powerful new method for the screening of combinatorial libraries in support of new drug discovery.

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Femtomole Immunodetection of Synthetic and Endogenous Amyloid-β Oligomers and Its Application to Alzheimer's Disease Drug Candidate Screening

Chang¹,

Bakhos²,

Wang

et al. 2003

JMN

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Alzheimer's disease (AD) is a fatal, progressive dementia for which there is no cure and for which a molecular basis has yet to be established. However, considerable evidence suggests that AD is linked to neurotoxic assemblies of the 42-amino-acid peptide amyloid beta (Abeta). There is now a clear body of evidence that shows this neurotoxicity resides not only in insoluble fibrils of Abeta but also in soluble Abeta ADDLs (Abeta-derived diffusible ligands) and larger protofibrils. Further, anti-Abeta antibodies have been reported to reverse memory failure in human amyloid precursor protein (hAPP)-expressed transgenic mice in a manner that suggests symptom reversal is attributable to targeting of ADDLs. Clearly, a search for drugs targeting the assembly of these soluble Abeta species represents a new and potentially important approach to the treatment of AD. In this work we describe the development of a dot-blot immunoassay to measure ADDL at the femtomole level, its use in defining the time course of ADDL formation, and its use in determining the presence of ADDLs in the hAPP transgenic mouse brain. Discussion of a protocol to screen agents for inhibition of neurotoxic ADDLformation both in vivo and in vitro is also presented. The methods are suitable for screening combinatorial libraries and, importantly, provide the potential for simultaneous information on candidate transport across the blood-brain barrier.

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Nonspecific protease-catalyzed hydrolysis/synthesis of a mixture of peptides: Product diversity and ligand amplification by a molecular trap

Swann¹,

Casanova²,

Desai³

et al. 1996

Biopolymers

106

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Screening Solution-Phase Combinatorial Libraries Using Pulsed Ultrafiltration/Electrospray Mass Spectrometry

et al. 1997

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A method is described whereby a family of homologues is synthesized in a one-pot reaction, without isolation or purification, and the reaction mixture is screened using a competitive binding assay based on pulsed ultrafiltration/electrospray mass spectrometry (PUF/ESMS) to tentatively identify those derivatives having the highest affinity for a target receptor. As a model system to test this approach, a synthetic scheme designed to prepare a series of analogues of the adenosine deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), as diastereomeric mixtures, was carried out. Pulsed ultrafiltration screening of the crude reaction mixture against controls without protein detected protonated molecules corresponding to EHNA-type derivatives and three of its linear, alkyl homologues but did not show protonated molecules for an isobutyl or benzylic EHNA derivative, suggesting the latter was inactive. To verify this conclusion, we prepared E/THNA, the linear homologues, and the benzylic derivative (each as a diastereomeric mixture) and bioassayed them for them adenosine deaminase inhibition index ([I]/[S]0.5). The bioassay results for the individually synthesized analogues were in good agreement with that predicted by the observed relative ion enhancement in the PUF experiments. Thus, the PUF protocol might be used as a general method to quickly provide direction to the chemist in search of drug candidates.

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D. L. Venton

Vaccination with soluble Aβ oligomers generates toxicity‐neutralizing antibodies

Pulsed Ultrafiltration Mass Spectrometry: A New Method for Screening Combinatorial Libraries

Femtomole Immunodetection of Synthetic and Endogenous Amyloid-β Oligomers and Its Application to Alzheimer's Disease Drug Candidate Screening

Nonspecific protease-catalyzed hydrolysis/synthesis of a mixture of peptides: Product diversity and ligand amplification by a molecular trap

Screening Solution-Phase Combinatorial Libraries Using Pulsed Ultrafiltration/Electrospray Mass Spectrometry

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