Conjugation to polyethylene glycol polymer promotes aptamer biodistribution to healthy and inflamed tissues.

Here, we examine biodistribution of radiolabeled aptamers and assess the relative ability of different stabilized aptamer compositions (mixed 2'-F/2'-O-Me; fully 2'-O-Me modified) to access inflamed tissues in a murine inflammation model. Biodistribution of 3H-labeled aptamers, including pegylated and unpegylated compositions, was assessed 3 hours postadministration using quantitative whole body autoradiography (QWBA). Aptamer penetration of cells in kidney and liver was also examined at a qualitative level by microautoradiography.

Pharmacokinetics and biodistribution of novel aptamer compositions.

Purpose: Aptamers are highly selective nucleic acid-based drugs that are currently being developed for numerous therapeutic indications. Here, we determine plasma pharmacokinetics and tissue distribution in rat of several novel aptamer compositions, including fully 2'-O-methylated oligonucleotides and conjugates bearing high-molecular weight polyethylene glycol (PEG) polymers, cell-permeating peptides, and cholesterol.

Methods: Levels of aptamer conjugates in biological samples were quantified radiometrically and by a hybridization-based dual probe capture assay with enzyme-linked fluorescent readout.

ADP-specific sensors enable universal assay of protein kinase activity.

Two molecular sensors that specifically recognize ADP in a background of over 100-fold molar excess of ATP are described. These sensors are nucleic-acid based and comprise a general method for monitoring protein kinase activity. The ADP-aptamer scintillation proximity assay is configured in a single-step, homogeneous format while the allosteric ribozyme (RiboReporter) sensor generates a fluorescent signal upon ADP-dependent ribozyme self-cleavage.

A novel strategy for selection of allosteric ribozymes yields RiboReporter sensors for caffeine and aspartame.

We have utilized in vitro selection technology to develop allosteric ribozyme sensors that are specific for the small molecule analytes caffeine or aspartame. Caffeine- or aspartame-responsive ribozymes were converted into fluorescence-based RiboReporter trade mark sensor systems that were able to detect caffeine or aspartame in solution over a concentration range from 0.5 to 5 mM.