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  • Title: PISA, a novel pharmacodynamic assay for assessing poly(ADP-ribose) polymerase (PARP) activity in situ.
    Author: Lubbers LS, Rowe BA, Hodge LM, Browne SE, Gundersdorf R, Jones P, Hess FJ, Reynolds IJ.
    Journal: J Pharmacol Toxicol Methods; 2010; 61(3):319-28. PubMed ID: 20132901.
    Abstract:
    INTRODUCTION: Poly ADP-ribose polymerase (PARP) maintains genomic integrity by repairing DNA strand breaks, however over-activation of PARP following neural tissue injury is hypothesized to cause neuronal death. Therefore, PARP inhibitors have potential for limiting neural injury under certain conditions. A reliable method for assessing PARP activity in brain is critical for development of novel inhibitors with CNS activity. We developed the PARP In Situ Activity (PISA) assay to provide a direct, quantitative assessment of CNS PARP activity in vitro or in vivo. METHODS: The assay utilized brain sections from rats with striatal kainic acid (KA) lesions and 3H- or biotinylated NAD+ as the substrate to assess PARP activity. Following optimization of the assay, it was used to assess in vitro and in vivo efficacy of known and novel PARP inhibitors. The assay also was used to assess PARP activity in male and female gonad-intact and ovariectomized rats. RESULTS: Using 3H-NAD+ as the substrate, PARP activity was greater (p<0.01) in tissue from KA-lesioned vs. non-lesioned rats. Using biotinylated NAD+ it was revealed that PARP activity was present ipsilateral to the KA injection site, and labeling was blocked by incubation with excess unlabeled NAD+ or PARP inhibitors. The PARP inhibitor, 3-aminobenzamide and several novel inhibitors reduced (p<0.01) polymerase activity in vitro. Furthermore, the inhibitor MRLSD303 reduced (p<0.001) PARP activity in vivo in both male and female rats. Finally, administration of the novel PARP inhibitor MRLIT115 dose-dependently reduced (p<0.001) polymerase activity in vivo. DISCUSSION: The PISA assay provides a direct, quantitative method for assessing PARP activity in vitro and provides critical information on factors underlying in vivo efficacy of chemical inhibitors including brain penetration and target engagement. These findings support use of the PISA assay as a screening tool for testing efficacy of PARP inhibitors in brain.
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