Michael Willis

The use of aptamers in large arrays for molecular diagnostics.

BACKGROUND Aptamers are single-stranded oligonucleotides derived from an in vitro evolution protocol called systematic evolution of ligands by exponential enrichment (SELEX). They bind tightly and specifically to target molecules; most aptamers to proteins bind with Kds (equilibrium dissociation constant) in the range of 1 pM to 1 nM. METHODS AND RESULTS The SELEX protocol has been automated; therefore, hundreds to thousands of aptamers can be made in an economically feasible fashion. Blood and urine can be analyzed on chips that capture and quantitate proteins. SELEX has been adapted to the use of 5-bromo (5-Br) and 5-iodo (5-I) deoxyuridine residues. These halogenated bases can be specifically cross-linked to proteins. Selection pressure during in vitro evolution can be applied for both binding specificity and specific photo-cross-linkability. These are sufficiently independent parameters to allow one reagent, a photo-cross-linkable aptamer, to substitute for two reagents, the capture antibody and the detection antibody, in a typical sandwich array. After a cycle of binding, washing, cross-linking, and detergent washing, proteins will be specifically and covalently linked to their cognate aptamers. CONCLUSIONS Because no other proteins are present on the chips, protein-specific stain will now show a meaningful array of pixels on the chip. Learning algorithms and retrospective studies should lead to a robust, simple, diagnostic chip.

Diagnostic potential of PhotoSELEX-evolved ssDNA aptamers

High sensitivity and specificity of two modified ssDNA aptamers capable of photocross-linking recombinant human basic fibroblast growth factor (bFGF((155))) were demonstrated. The aptamers were identified through a novel, covalent, in vitro selection methodology called photochemical systematic evolution of ligands by exponential enrichment (PhotoSELEX). The aptamers exhibited high sensitivity for bFGF((155)) comparable with commercially available ELISA monoclonal antibodies with an absolute sensitivity of at least 0.058 ppt bFGF((155)) under prevailing test conditions. The aptamers exquisitely distinguished bFGF((155)) from consanguine proteins, vascular endothelial growth factor (VEGF) and platelet derived growth factor (PDGF). A commercially viable diagnostic system incorporating PhotoSELEX-evolved aptamers capable of simultaneous quantification of a large number of analyte molecules is also described. Such a system benefits from covalent bonding of aptamer to target protein allowing vigorous washing with denaturants to improve signal to noise.

Post-SELEX combinatorial optimization of aptamers.

In vitro selection techniques provide a means of isolating nucleic acid ligands for binding to particular protein targets. Although most aptamers have quite high affinities for their target proteins, it has been shown that post-SELEX modification can result in further enhancement of binding affinity, as well as other desired properties. This has led to the current development of a more systematic approach to aptamer optimization using a combinatorial screening methodology.