Kaido Viht

High-affinity bisubstrate probe for fluorescence anisotropy binding/displacement assays with protein kinases PKA and ROCK

The bisubstrate fluorescent probe ARC-583 (Adc-Ahx-(D-Arg)(6)-d-Lys(5-TAMRA)-NH2) and its application for the characterization of both ATP- and protein/peptide substrate-competitive inhibitors of protein kinases PKA (cyclic AMP-dependent protein kinase) and ROCK (rho kinase) in fluorescence polarization-based assay are described. High affinity of the probe (K(D)=0.48 nM toward PKA) enables its application for the characterization of inhibitors with nanomolar and micromolar potency and determination of the active concentration of the kinase in individual experiments as well as in the high-throughput screening format. The probe can be used for the assessment of protein-protein interactions (e.g., between regulatory and catalytic subunits of PKA) and as a cyclic AMP biosensor.

Liquid-phase synthesis of a pegylated adenosine–oligoarginine conjugate, cell-permeable inhibitor of cAMP-dependent protein kinase

An adenosine-oligoarginine conjugate (ARC) was assembled in a stepwise manner on a poly(ethylene glycol) carrier. The pegylated conjugate inhibited cAMP-dependent protein kinase with IC(50)=460 nM and the cellular uptake of its BODIPY FL derivative was demonstrated and compared to that of free ARC with fluorescence microscopy.

A subnanomolar fluorescent probe for protein kinase CK2 interaction studies

Up-regulation of an acidophilic protein kinase, CK2, has been established in several types of cancer. This cognition has made CK2 an important target for drug development for cancer chemotherapy. The characterization of potential drug candidates, determination of the structure and clarification of the functions of CK2 could be facilitated by the application of small-molecule fluorescent probes that bind to the active site of the enzyme with high affinity and selectivity. We have used a bisubstrate approach for the development of a highly potent inhibitor of CK2. 4,5,6,7-Tetrabromo-1H-benzimidazole was conjugated with peptides containing multiple aspartate residues via different linkers. The design of the inhibitors was by crystallographic analysis of the complex of an inhibitor with the catalytic subunit of the enzyme (CK2α). The inhibitory potency of the synthesized compounds was established in a kinetic assay that used thin layer chromatography for the measurement of the rate of phosphorylation of fluorescently labelled peptide 5-TAMRA-RADDSDDDDD. The most potent inhibitor, ARC-1502 (K(i) = 0.5 nM), revealed high selectivity for CK2α in a panel of 140 protein kinases. Labelling of ARC-1502 with PromoFluor-647 gave the fluorescent probe ARC-1504 that possessed subnanomolar affinity towards both CK2α and the holoenzyme. The probe was used in a fluorescence anisotropy-based binding assay to measure the concentration of CK2α and characterize non-labelled ligands binding to the active site of CK2α.

Bisubstrate fluorescent probes and biosensors in binding assays for HTS of protein kinase inhibitors

Conjugates of adenosine mimics and d-arginine-rich peptides (ARCs) are potent inhibitors of protein kinases (PKs) from the AGC group. Labeling ARCs with fluorescent dyes or immobilizing on chip surfaces gives fluorescent probes (ARC-Photo) and biosensors that can be used for high-throughput screening (HTS) of inhibitors of protein kinases. The bisubstrate character (simultaneous association with both binding sites of the kinase) and high affinity of ARCs allow ARC-based probes and sensors to be used for characterization of inhibitors targeted to either binding site of the kinase with affinities in whole nanomolar to micromolar range. The ability to penetrate cell plasma membrane and bind to the target kinase fused with a fluorescent protein leads to the possibility to use ARC-Photo probes for high content screening (HCS) of inhibitors in cellular milieu with detection of intensity of Förster resonance energy transfer (FRET) between two fluorophores.

Long residence times revealed by Aurora A kinase-targeting fluorescent probes derived from inhibitors MLN8237 and VX-689.

We report the development of three fluorescent probes for protein kinase Aurora A that are derived from the well‐known inhibitors MLN8237 and VX‐689 (MK‐5108). Two of these probes target the ATP site of Aurora A, and one targets simultaneously the ATP and substrate sites of the kinase. The probes were tested in an assay with fluorescence polarisation/anisotropy readout, and we demonstrated slow association kinetics and long residence time of the probes (kon 105–107 M−1 s−1, koff 10−3–10−4 s−1; residence time 500–3000 s). The presence of the Aurora A activator TPX2 caused a significant reduction in the on‐rate and increase in the off‐rate of fluorescent probes targeting ATP site. These observations were supported by Aurora A inhibition assays with MLN8237 and VX‐689. Overall, our results emphasise the importance of rational design of experiments with these compounds and correct interpretation of the obtained data.

Responsive microsecond-lifetime photoluminescent probes for analysis of protein kinases and their inhibitors.

Responsive ARC-Lum probes were used for measurement of the concentration of active protein kinases (PKs) and determination of affinity of inhibitors of PKs. ARC-Lum probes incorporate thiophene or a selenophene heterocycle and a fluorophore conjugated to the lysine residue in the peptide fragment. In the complex with a PK, ARC-Lum probes emit long-lifetime (microsecond-scale) luminescence at the emission wavelengths of the fluorescent label if the complex is illuminated at the excitation wavelength of the thiophene- or selenophene-containing phosphorescence donors. Bisubstrate ARC-Lum probes bind with sub-nanomolar affinity with several PKs of the AGC group. This article is part of a Special Issue entitled: Inhibitors of Protein Kinases (2012).

Acetoxymethyl Ester of Tetrabromobenzimidazole–Peptoid Conjugate for Inhibition of Protein Kinase CK2 in Living Cells

CK2 is a ubiquitous serine/threonine protein kinase, which has the potential to catalyze the generation of a large proportion of the human phosphoproteome. Due to its role in numerous cellular functions and general anti-apoptotic activity, CK2 is an important target of research with therapeutic potential. This emphasizes the need for cell-permeable highly potent and selective inhibitors and photoluminescence probes of CK2 for investigating the protein phosphorylation networks in living cells. Previously, we had developed bisubstrate inhibitors for CK2 (CK2-targeted ARCs) that showed remarkable affinity (KD < 1 nM) and selectivity, but lacked proteolytic stability and plasma membrane permeability. In this report, the structures of CK2-targeted ARCs were modified for the application in live cells. Based on structure-activity studies, proteolytically stable achiral oligoanionic peptoid conjugates of 4,5,6,7-tetrabromo-1H-benzimidazole (TBBz) were constructed. Affinity of the conjugates toward CK2 reached subnanomolar range. Acetoxymethyl (AM) prodrug strategy was applied for loading TBBz-peptoid conjugates into living cells. The uptake of inhibitors was visualized by live cell imaging and the reduction of the phosphorylation levels of two CK2-related phosphosites, Cdc37 pSer13 and NFκB pSer529, was demonstrated by Western blot analysis.

FRET-based screening assay using small-molecule photoluminescent probes in lysate of cells overexpressing RFP-fused protein kinases

An assay was developed for the characterization of protein kinase inhibitors in lysates of mammalian cells based on the measurement of FRET between overexpressed red fluorescent protein (TagRFP)-fused protein kinases (PKs) and luminophore-labeled small-molecule inhibitors (ARC-Photo probes). Two types of the assay, one using TagRFP as the photoluminescence donor together with ARC-Photo probes containing a red fluorophore dye as acceptor, and the other using TagRFP as the acceptor fluorophore in combination with a terbium cryptate-based long-lifetime photoluminescence donor, were used for FRET-based measurements in lysates of the cells overexpressing TagRFP-fused PKs. The second variant of the assay enabled the performance of the measurements under time-resolved conditions that led to substantially higher values of the signal/background ratio and further improved the reliability of the assay.

Oligo-aspartic acid conjugates with benzo[c][2,6]naphthyridine-8-carboxylic acid scaffold as picomolar inhibitors of CK2

Structurally diverse inhibitors of the protein kinase CK2 are required for regulation of this ubiquitous protein to establish biological roles of the enzyme which catalyzes the phosphorylation of a vast number of substrate proteins. In this article we disclose a series of new bisubstrate inhibitors of CK2 that are structurally represented by the oligo(l-Asp) peptide conjugates of benzo[c][2,6]naphthyridine-8-carboxylic acid. This fragment originated from CX-4945, the first in class inhibitor taken to clinical trials. The most potent conjugates possessed two-digit picomolar affinity and clear selectivity for CK2α in a panel of 140 protein kinases. Labeling of the inhibitors with a fluorescent dye yielded probes for a fluorescence anisotropy-based binding/displacement assay which can be used for analysis of CK2 and precise determination of affinity of the highly potent (tight-binding) CK2-targeting inhibitors.

Selective Biligand Inhibitor of CK2 Increases Caspase-3 Activity in Cancerous Cells and Inhibits Platelet Aggregation

Cancer cells express high levels of CK2, and its inhibition leads to apoptosis. CK2 has therefore emerged as a new drug target for cancer therapy. A biligand inhibitor ARC‐772 was constructed by conjugating 4‐(2‐amino‐1,3‐thiazol‐5‐yl)benzoic acid and a carboxylate‐rich peptoid. ARC‐772 was found to bind CK2 with a Kd value of 0.3 nm and showed remarkable CK2 inhibitory selectivity in a panel of 140 protein kinases (Gini coefficient: 0.75 at c=100 nm). ARC‐775, the acetoxymethyl ester prodrug of ARC‐772, was efficiently taken up by cells. Once internalized, the inhibitor is activated by cellular esterase activity. In HeLa cancer cells ARC‐775 was found to activate caspase‐3 (an apoptosis marker) at sub‐micromolar concentrations (EC50=0.3 μm), a 20‐fold lower extracellular concentration than CX‐4945, the only CK2 inhibitor under clinical trials. At micromolar concentrations, ARC‐775 was also found to inhibit ADP‐induced aggregation of human platelets. The overall results of this study demonstrate that oligo‐anionic biligand inhibitors have good potential for drug development.