Here, we describe our action plan for hit identification (APHID) that guides the process of hit triage, with elimination of less tractable hits and retention of more tractable hits. We exemplify the process with reference to our high-throughput screening (HTS) campaign against the enzyme, KAT6A, that resulted in successful identification of a tractable hit. We hope that APHID could serve as a useful, concise and digestible guide for those involved in HTS and hit triage, especially those that are relatively new to this exciting and continually evolving technology.

Dengue fever is a major health concern worldwide. The virus encoded non-structural protein 3 (NS3) is a multifunctional protein endowed with protease, helicase, nucleoside triphosphatase (NTPase) and RNA 5\' triphosphatase (RTPase) activities. Helicase activity of NS3 catalyzes the unwinding of double stranded polynucleotides by utilizing the energy released from ATP hydrolysis. As this activity is essential for replication, NS3 helicase represents an attractive drug target for developing a dengue antiviral drug. Here, we report fluorescence based molecular beacon helicase assay using a duplex RNA substrate that contains a fluorophore on the 5\' end and a quencher on the 3\' end of one of the strands. The assay was optimized with respect to several parameters and adapted to 384-well high-throughput screening format, with an average Z\' factor of 0.65. Assay validation with a small diverse set library of 1600 compounds identified, suramin as a significant inhibitor of the helicase activity of NS3. Helicase activity deficient NS3 K199A was used in a counter-screen to identify compounds interfering with the assay. Suramin inhibited DENV (dengue virus) NS3 helicase activity with a Ki of 0.75±0.03μM as a non-competitive inhibitor. The molecular beacon helicase assay together with the counter screen and suramin as a tool compound can be used to identify novel inhibitors of DENV helicase.