An improved zinc cocktail-mediated fluorescence polarization-based kinase assay for high-throughput screening of kinase inhibitors.

During the past few years, high-throughput screening (HTS) has provided a useful resource to researchers involved in the development of kinase inhibitors as a novel therapeutic modality. However, with all the choices among kinase assays, there is not yet a one-size-fits-all assay. Therefore, selection of a specific kinase assay is a daunting task. HTS assays should be homogeneous, cost effective, use nonradioactive reagents, generic and not time consuming. Here, we report an improved method of assaying protein kinase activity using a zinc cocktail in a fluorescence polarization-(FP) based format. Assay conditions were standardized manually and validated in a HTS format using a liquid handler. We validated this assay for both serine/threonine and tyrosine (receptor/nonreceptor) kinases. The results obtained in the HTS assay system were comparable to the commercially available fluorescence-based assay. We suggest that the reported assay is a cost-effective alternative to the IMAP-based generic kinase assay.

Molecular targeting of E3 ligases--a therapeutic approach for cancer.

BACKGROUND: The ubiquitin-proteasomal degradation pathway plays a critical role in protein degradation and regulates a wide variety of cellular functions. This highly conserved post-translational modification of proteolytic processes is mainly carried out by substrate-specific E3 ligases. The deregulation of E3 ligases contributes to cancer development and their overexpression is often associated with poor prognosis. OBJECTIVES: We review the current understanding of E3 ligases, their functional role in cancer pathogenesis, current progress and development of certain ubiquitin E3 ligases as targets for therapeutic intervention. METHODS: Preclinical and clinical data for E3 ligase inhibitors available in the public domain are discussed. CONCLUSIONS: With the growing understanding of their role in cancer development and progression, E3 ligases have emerged as potential anticancer targets for therapeutic intervention.

Development of a cell death-based method for the screening of nuclear factor-kappaB inhibitors.

Nuclear factor kappa B (NF-kappaB) plays a significant role in immunity and inflammation and represents a first choice as pharmacological target for anti-inflammatory therapy. However, research in this field has been hampered by the fact that no convenient assay suitable for large-scale screening procedures is available. The present study provides a cell death-based assay method for screening of nuclear factor-kappaB inhibitors. In this study, we observed that four distinct pharmacologic inhibitors of NF-kappaB, pyrrolidine dithiocarbamate (PDTC), N-tosyl-L-lysyl chloromethyl ketone (TPCK), genistein and BAY11-7082, resulted in the cell death of murine macrophages, J774A.1. DNA-binding experiments showed that lethal doses were consistent with those required for NF-kappaB inhibition. DNA fragmentation analysis showed that cell death is apoptotic in nature. Further studies suggested that NF-kappaB inhibitors induced apoptosis is independent of the involvement of other markers of cell death such as caspases and p38 MAP (Mitogen activated protein) kinase. From this study, we conclude that NF-kappaB activation may represent an important survival mechanism in macrophages. This study also provides a new cell-based screening method, as any compound that will inhibit NF-kappaB activity will result in the death of macrophages.